SPEC scans from: /share1/USAXS_data/2023-02/02_21_Mustafa/02_21_Mustafa.dat

spec file: /share1/USAXS_data/2023-02/02_21_Mustafa/02_21_Mustafa.dat
#2: documentation_run() #3: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.95739216238651, 52.95739216238651]', per_step='None') #4: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843790078331132, 8.845590078331131]', per_step='None') #5: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.42829216238651, 53.42829216238651]', per_step='None') #6: SAXS(detectors=['saxs_det'], num=1) #7: WAXS(detectors=['waxs_det'], num=1) #8: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.842227890785344, 8.847227890785343]', per_step='None') #9: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843774800977725, 8.845574800977724]', per_step='None') #10: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.32979216238651, 53.32979216238651]', per_step='None') #11: documentation_run() #12: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.30969216238651, 53.30969216238651]', per_step='None') #13: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843771745507043, 8.845571745507042]', per_step='None') #14: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.34799216238651, 53.34799216238651]', per_step='None') #15: uascan(start=8.845756566556323, reference=8.84467980083884, finish=7.2294777411436995, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #16: SAXS(detectors=['saxs_det'], num=1) #17: WAXS(detectors=['waxs_det'], num=1) #18: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.842250390785344, 8.847250390785343]', per_step='None') #19: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843780634149025, 8.845580634149025]', per_step='None') #20: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.262892162386514, 53.262892162386514]', per_step='None') #21: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.842347890785343, 8.847347890785342]', per_step='None') #22: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843778411988529, 8.845578411988528]', per_step='None') #23: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.83779216238651, 53.83779216238651]', per_step='None') #24: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.842357057452011, 8.84735705745201]', per_step='None') #25: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843780356378963, 8.845580356378962]', per_step='None') #26: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.875292162386515, 53.875292162386515]', per_step='None') #27: documentation_run() #28: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.09589216238651, 54.09589216238651]', per_step='None') #29: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843834799311104, 8.845634799311103]', per_step='None') #30: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.133392162386514, 54.133392162386514]', per_step='None') #31: uascan(start=8.845827120152055, reference=8.844750354434572, finish=7.229548294739431, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #32: SAXS(detectors=['saxs_det'], num=1) #33: WAXS(detectors=['waxs_det'], num=1) #34: uascan(start=8.845827120152055, reference=8.844750354434572, finish=7.229548294739431, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #35: uascan(start=8.845827120152055, reference=8.844750354434572, finish=7.229548294739431, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #36: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.12759216238651, 54.12759216238651]', per_step='None') #37: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843849521124387, 8.845649521124386]', per_step='None') #38: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.156792162386516, 54.156792162386516]', per_step='None') #39: uascan(start=8.845816287119641, reference=8.844739521402158, finish=7.229537461707017, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #40: uascan(start=8.845816287119641, reference=8.844739521402158, finish=7.229537461707017, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #41: uascan(start=8.845816287119641, reference=8.844739521402158, finish=7.229537461707017, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #42: uascan(start=8.845816287119641, reference=8.844739521402158, finish=7.229537461707017, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #43: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.15809216238652, 54.15809216238652]', per_step='None') #44: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843840354712343, 8.845640354712343]', per_step='None') #45: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.22959216238652, 54.22959216238652]', per_step='None') #46: uascan(start=8.845823231371188, reference=8.844746465653705, finish=7.229544405958564, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #47: uascan(start=8.845823231371188, reference=8.844746465653705, finish=7.229544405958564, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #48: uascan(start=8.845823231371188, reference=8.844746465653705, finish=7.229544405958564, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #49: uascan(start=8.845823231371188, reference=8.844746465653705, finish=7.229544405958564, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #50: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.122292162386515, 54.122292162386515]', per_step='None') #51: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843848132274077, 8.845648132274077]', per_step='None') #52: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.11429216238651, 54.11429216238651]', per_step='None') #53: uascan(start=8.845819620360384, reference=8.8447428546429, finish=7.22954079494776, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #54: uascan(start=8.845819620360384, reference=8.8447428546429, finish=7.22954079494776, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #55: uascan(start=8.845819620360384, reference=8.8447428546429, finish=7.22954079494776, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #56: uascan(start=8.845819620360384, reference=8.8447428546429, finish=7.22954079494776, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #57: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.085292162386516, 54.085292162386516]', per_step='None') #58: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84384424349321, 8.84564424349321]', per_step='None') #59: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.18099216238652, 54.18099216238652]', per_step='None') #60: uascan(start=8.845815731579517, reference=8.844738965862033, finish=7.229536906166893, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #61: uascan(start=8.845815731579517, reference=8.844738965862033, finish=7.229536906166893, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #62: uascan(start=8.845815731579517, reference=8.844738965862033, finish=7.229536906166893, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #63: uascan(start=8.845815731579517, reference=8.844738965862033, finish=7.229536906166893, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #64: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.14269216238652, 54.14269216238652]', per_step='None') #65: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843840910252467, 8.845640910252467]', per_step='None') #66: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.18279216238651, 54.18279216238651]', per_step='None') #67: uascan(start=8.84581350941902, reference=8.844736743701537, finish=7.2295346840063965, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #68: uascan(start=8.84581350941902, reference=8.844736743701537, finish=7.2295346840063965, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #69: uascan(start=8.84581350941902, reference=8.844736743701537, finish=7.2295346840063965, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #70: uascan(start=8.84581350941902, reference=8.844736743701537, finish=7.2295346840063965, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #71: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.180492162386514, 54.180492162386514]', per_step='None') #72: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843836743701537, 8.845636743701537]', per_step='None') #73: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.11169216238651, 54.11169216238651]', per_step='None') #74: uascan(start=8.845822120290942, reference=8.844745354573458, finish=7.229543294878318, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #75: uascan(start=8.845822120290942, reference=8.844745354573458, finish=7.229543294878318, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #76: uascan(start=8.845822120290942, reference=8.844745354573458, finish=7.229543294878318, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #77: uascan(start=8.845822120290942, reference=8.844745354573458, finish=7.229543294878318, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #78: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.10319216238651, 54.10319216238651]', per_step='None') #79: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84384563234352, 8.845645632343519]', per_step='None') #80: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.155292162386516, 54.155292162386516]', per_step='None') #81: uascan(start=8.845824342451436, reference=8.844747576733953, finish=7.2295455170388125, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #82: uascan(start=8.845824342451436, reference=8.844747576733953, finish=7.2295455170388125, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #83: SAXS(detectors=['saxs_det'], num=1) #84: SAXS(detectors=['saxs_det'], num=1) #85: SAXS(detectors=['saxs_det'], num=1) #86: SAXS(detectors=['saxs_det'], num=1) #87: SAXS(detectors=['saxs_det'], num=1) #88: SAXS(detectors=['saxs_det'], num=1) #89: SAXS(detectors=['saxs_det'], num=1) #90: SAXS(detectors=['saxs_det'], num=1) #91: SAXS(detectors=['saxs_det'], num=1) #92: SAXS(detectors=['saxs_det'], num=1) #93: SAXS(detectors=['saxs_det'], num=1) #94: SAXS(detectors=['saxs_det'], num=1) #95: SAXS(detectors=['saxs_det'], num=1) #96: SAXS(detectors=['saxs_det'], num=1) #97: SAXS(detectors=['saxs_det'], num=1) #98: SAXS(detectors=['saxs_det'], num=1) #99: SAXS(detectors=['saxs_det'], num=1) #100: SAXS(detectors=['saxs_det'], num=1) #101: SAXS(detectors=['saxs_det'], num=1) #102: SAXS(detectors=['saxs_det'], num=1) #103: SAXS(detectors=['saxs_det'], num=1) #104: SAXS(detectors=['saxs_det'], num=1) #105: SAXS(detectors=['saxs_det'], num=1) #106: SAXS(detectors=['saxs_det'], num=1) #107: SAXS(detectors=['saxs_det'], num=1) #108: SAXS(detectors=['saxs_det'], num=1) #109: SAXS(detectors=['saxs_det'], num=1) #110: SAXS(detectors=['saxs_det'], num=1) #111: WAXS(detectors=['waxs_det'], num=1) #112: WAXS(detectors=['waxs_det'], num=1) #113: WAXS(detectors=['waxs_det'], num=1) #114: WAXS(detectors=['waxs_det'], num=1) #115: WAXS(detectors=['waxs_det'], num=1) #116: WAXS(detectors=['waxs_det'], num=1) #117: WAXS(detectors=['waxs_det'], num=1) #118: WAXS(detectors=['waxs_det'], num=1) #119: WAXS(detectors=['waxs_det'], num=1) #120: WAXS(detectors=['waxs_det'], num=1) #121: WAXS(detectors=['waxs_det'], num=1) #122: WAXS(detectors=['waxs_det'], num=1) #123: WAXS(detectors=['waxs_det'], num=1) #124: WAXS(detectors=['waxs_det'], num=1) #125: WAXS(detectors=['waxs_det'], num=1) #126: WAXS(detectors=['waxs_det'], num=1) #127: WAXS(detectors=['waxs_det'], num=1) #128: WAXS(detectors=['waxs_det'], num=1) #129: WAXS(detectors=['waxs_det'], num=1) #130: WAXS(detectors=['waxs_det'], num=1) #131: WAXS(detectors=['waxs_det'], num=1) #132: WAXS(detectors=['waxs_det'], num=1) #133: WAXS(detectors=['waxs_det'], num=1) #134: WAXS(detectors=['waxs_det'], num=1) #135: WAXS(detectors=['waxs_det'], num=1) #136: WAXS(detectors=['waxs_det'], num=1) #137: WAXS(detectors=['waxs_det'], num=1) #138: WAXS(detectors=['waxs_det'], num=1) #139: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.04019216238652, 54.04019216238652]', per_step='None') #140: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843849521124387, 8.845649521124386]', per_step='None') #141: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.595792162386516, 53.595792162386516]', per_step='None') #142: uascan(start=8.845829064542489, reference=8.844752298825005, finish=7.229550239129865, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #143: SAXS(detectors=['saxs_det'], num=1) #144: WAXS(detectors=['waxs_det'], num=1) #145: uascan(start=8.845829064542489, reference=8.844752298825005, finish=7.229550239129865, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #146: uascan(start=8.845829064542489, reference=8.844752298825005, finish=7.229550239129865, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #147: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.646892162386514, 53.646892162386514]', per_step='None') #148: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843854798755563, 8.845654798755563]', per_step='None') #149: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.64739216238652, 53.64739216238652]', per_step='None') #150: uascan(start=8.845832397783234, reference=8.84475563206575, finish=7.22955357237061, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #151: uascan(start=8.845832397783234, reference=8.84475563206575, finish=7.22955357237061, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #152: uascan(start=8.845832397783234, reference=8.84475563206575, finish=7.22955357237061, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #153: SAXS(detectors=['saxs_det'], num=1) #154: SAXS(detectors=['saxs_det'], num=1) #155: SAXS(detectors=['saxs_det'], num=1) #156: SAXS(detectors=['saxs_det'], num=1) #157: SAXS(detectors=['saxs_det'], num=1) #158: WAXS(detectors=['waxs_det'], num=1) #159: WAXS(detectors=['waxs_det'], num=1) #160: WAXS(detectors=['waxs_det'], num=1) #161: WAXS(detectors=['waxs_det'], num=1) #162: WAXS(detectors=['waxs_det'], num=1) #163: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.649092162386516, 53.649092162386516]', per_step='None') #164: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843857576456184, 8.845657576456183]', per_step='None') #165: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.591492162386515, 53.591492162386515]', per_step='None') #166: uascan(start=8.845838786494658, reference=8.844762020777175, finish=7.2295599610820345, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #167: SAXS(detectors=['saxs_det'], num=1) #168: WAXS(detectors=['waxs_det'], num=1) #169: uascan(start=8.845838786494658, reference=8.844762020777175, finish=7.2295599610820345, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #170: uascan(start=8.845838786494658, reference=8.844762020777175, finish=7.2295599610820345, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #171: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.58539216238651, 53.58539216238651]', per_step='None') #172: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843858965306493, 8.845658965306493]', per_step='None') #173: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.28549216238651, 53.28549216238651]', per_step='None') #174: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #175: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #176: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #177: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #178: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.31099216238651, 53.31099216238651]', per_step='None') #179: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843878131440768, 8.845678131440767]', per_step='None') #180: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.290792162386516, 53.290792162386516]', per_step='None') #181: uascan(start=8.845864063570295, reference=8.844787297852811, finish=7.229585238157671, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #182: uascan(start=8.845864063570295, reference=8.844787297852811, finish=7.229585238157671, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #183: SAXS(detectors=['saxs_det'], num=1) #184: SAXS(detectors=['saxs_det'], num=1) #185: SAXS(detectors=['saxs_det'], num=1) #186: SAXS(detectors=['saxs_det'], num=1) #187: SAXS(detectors=['saxs_det'], num=1) #188: SAXS(detectors=['saxs_det'], num=1) #189: SAXS(detectors=['saxs_det'], num=1) #190: SAXS(detectors=['saxs_det'], num=1) #191: WAXS(detectors=['waxs_det'], num=1) #192: WAXS(detectors=['waxs_det'], num=1) #193: WAXS(detectors=['waxs_det'], num=1) #194: WAXS(detectors=['waxs_det'], num=1) #195: WAXS(detectors=['waxs_det'], num=1) #196: WAXS(detectors=['waxs_det'], num=1) #197: WAXS(detectors=['waxs_det'], num=1) #198: WAXS(detectors=['waxs_det'], num=1) #199: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.27539216238652, 53.27539216238652]', per_step='None') #200: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843885909002502, 8.845685909002501]', per_step='None') #201: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.528292162386514, 53.528292162386514]', per_step='None') #202: uascan(start=8.845857397088809, reference=8.844780631371325, finish=7.229578571676185, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #203: SAXS(detectors=['saxs_det'], num=1) #204: WAXS(detectors=['waxs_det'], num=1) #205: uascan(start=8.845857397088809, reference=8.844780631371325, finish=7.229578571676185, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #206: uascan(start=8.845857397088809, reference=8.844780631371325, finish=7.229578571676185, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #207: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.492792162386515, 53.492792162386515]', per_step='None') #208: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843880353601262, 8.845680353601262]', per_step='None') #209: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.20999216238651, 53.20999216238651]', per_step='None') #210: uascan(start=8.845867119040976, reference=8.844790353323493, finish=7.229588293628352, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #211: uascan(start=8.845867119040976, reference=8.844790353323493, finish=7.229588293628352, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #212: uascan(start=8.845867119040976, reference=8.844790353323493, finish=7.229588293628352, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #213: uascan(start=8.845867119040976, reference=8.844790353323493, finish=7.229588293628352, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #214: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.20069216238652, 53.20069216238652]', per_step='None') #215: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84388840893306, 8.845688408933059]', per_step='None') #216: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.22129216238651, 53.22129216238651]', per_step='None') #217: uascan(start=8.845875452142835, reference=8.844798686425351, finish=7.229596626730211, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #218: uascan(start=8.845875452142835, reference=8.844798686425351, finish=7.229596626730211, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #219: SAXS(detectors=['saxs_det'], num=1) #220: SAXS(detectors=['saxs_det'], num=1) #221: SAXS(detectors=['saxs_det'], num=1) #222: SAXS(detectors=['saxs_det'], num=1) #223: SAXS(detectors=['saxs_det'], num=1) #224: SAXS(detectors=['saxs_det'], num=1) #225: SAXS(detectors=['saxs_det'], num=1) #226: SAXS(detectors=['saxs_det'], num=1) #227: WAXS(detectors=['waxs_det'], num=1) #228: WAXS(detectors=['waxs_det'], num=1) #229: WAXS(detectors=['waxs_det'], num=1) #230: WAXS(detectors=['waxs_det'], num=1) #231: WAXS(detectors=['waxs_det'], num=1) #232: WAXS(detectors=['waxs_det'], num=1) #233: WAXS(detectors=['waxs_det'], num=1) #234: WAXS(detectors=['waxs_det'], num=1) #235: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.212192162386515, 53.212192162386515]', per_step='None') #236: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843896742034918, 8.845696742034917]', per_step='None') #237: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.573292162386515, 53.573292162386515]', per_step='None') #238: uascan(start=8.845865452420604, reference=8.84478868670312, finish=7.22958662700798, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #239: SAXS(detectors=['saxs_det'], num=1) #240: WAXS(detectors=['waxs_det'], num=1) #241: uascan(start=8.845865452420604, reference=8.84478868670312, finish=7.22958662700798, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #242: uascan(start=8.845865452420604, reference=8.84478868670312, finish=7.22958662700798, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #243: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.521492162386515, 53.521492162386515]', per_step='None') #244: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843889520013306, 8.845689520013305]', per_step='None') #245: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.23889216238651, 53.23889216238651]', per_step='None') #246: uascan(start=8.845872952212277, reference=8.844796186494793, finish=7.229594126799653, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #247: uascan(start=8.845872952212277, reference=8.844796186494793, finish=7.229594126799653, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #248: uascan(start=8.845872952212277, reference=8.844796186494793, finish=7.229594126799653, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #249: uascan(start=8.845872952212277, reference=8.844796186494793, finish=7.229594126799653, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #250: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.21269216238652, 53.21269216238652]', per_step='None') #251: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843895353184607, 8.845695353184606]', per_step='None') #252: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.262092162386516, 53.262092162386516]', per_step='None') #253: uascan(start=8.845877118763205, reference=8.844800353045722, finish=7.229598293350581, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #254: uascan(start=8.845877118763205, reference=8.844800353045722, finish=7.229598293350581, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #255: uascan(start=8.845877118763205, reference=8.844800353045722, finish=7.229598293350581, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #256: uascan(start=8.845877118763205, reference=8.844800353045722, finish=7.229598293350581, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #257: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.284292162386514, 53.284292162386514]', per_step='None') #258: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843900075275661, 8.84570007527566]', per_step='None') #259: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.32509216238651, 53.32509216238651]', per_step='None') #260: uascan(start=8.845876007682957, reference=8.844799241965474, finish=7.229597182270333, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #261: uascan(start=8.845876007682957, reference=8.844799241965474, finish=7.229597182270333, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #262: uascan(start=8.845876007682957, reference=8.844799241965474, finish=7.229597182270333, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #263: uascan(start=8.845876007682957, reference=8.844799241965474, finish=7.229597182270333, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #264: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.289492162386516, 53.289492162386516]', per_step='None') #265: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843897019804979, 8.845697019804978]', per_step='None') #266: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.46149216238651, 53.46149216238651]', per_step='None') #267: uascan(start=8.845877952073392, reference=8.844801186355909, finish=7.229599126660768, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #268: SAXS(detectors=['saxs_det'], num=1) #269: SAXS(detectors=['saxs_det'], num=1) #270: SAXS(detectors=['saxs_det'], num=1) #271: SAXS(detectors=['saxs_det'], num=1) #272: SAXS(detectors=['saxs_det'], num=1) #273: SAXS(detectors=['saxs_det'], num=1) #274: SAXS(detectors=['saxs_det'], num=1) #275: SAXS(detectors=['saxs_det'], num=1) #276: SAXS(detectors=['saxs_det'], num=1) #277: SAXS(detectors=['saxs_det'], num=1) #278: SAXS(detectors=['saxs_det'], num=1) #279: SAXS(detectors=['saxs_det'], num=1) #280: SAXS(detectors=['saxs_det'], num=1) #281: SAXS(detectors=['saxs_det'], num=1) #282: SAXS(detectors=['saxs_det'], num=1) #283: WAXS(detectors=['waxs_det'], num=1) #284: WAXS(detectors=['waxs_det'], num=1) #285: WAXS(detectors=['waxs_det'], num=1) #286: WAXS(detectors=['waxs_det'], num=1) #287: WAXS(detectors=['waxs_det'], num=1) #288: WAXS(detectors=['waxs_det'], num=1) #289: WAXS(detectors=['waxs_det'], num=1) #290: WAXS(detectors=['waxs_det'], num=1) #291: WAXS(detectors=['waxs_det'], num=1) #292: WAXS(detectors=['waxs_det'], num=1) #293: WAXS(detectors=['waxs_det'], num=1) #294: WAXS(detectors=['waxs_det'], num=1) #295: WAXS(detectors=['waxs_det'], num=1) #296: WAXS(detectors=['waxs_det'], num=1) #297: WAXS(detectors=['waxs_det'], num=1) #298: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.450192162386514, 53.450192162386514]', per_step='None') #299: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84390146412597, 8.84570146412597]', per_step='None') #300: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.50059216238652, 53.50059216238652]', per_step='None') #301: uascan(start=8.845868785661347, reference=8.844792019943863, finish=7.229589960248723, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #302: SAXS(detectors=['saxs_det'], num=1) #303: WAXS(detectors=['waxs_det'], num=1) #304: uascan(start=8.845868785661347, reference=8.844792019943863, finish=7.229589960248723, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #305: uascan(start=8.845868785661347, reference=8.844792019943863, finish=7.229589960248723, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #306: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.486992162386514, 53.486992162386514]', per_step='None') #307: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84389007555343, 8.84569007555343]', per_step='None') #308: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.24499216238652, 53.24499216238652]', per_step='None') #309: uascan(start=8.845874063292523, reference=8.84479729757504, finish=7.2295952378798995, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #310: uascan(start=8.845874063292523, reference=8.84479729757504, finish=7.2295952378798995, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #311: uascan(start=8.845874063292523, reference=8.84479729757504, finish=7.2295952378798995, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #312: uascan(start=8.845874063292523, reference=8.84479729757504, finish=7.2295952378798995, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #313: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.25579216238651, 53.25579216238651]', per_step='None') #314: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843898408655289, 8.845698408655288]', per_step='None') #315: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.474392162386515, 53.474392162386515]', per_step='None') #316: uascan(start=8.84588184085426, reference=8.844805075136776, finish=7.2296030154416355, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #317: uascan(start=8.84588184085426, reference=8.844805075136776, finish=7.2296030154416355, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #318: uascan(start=8.84588184085426, reference=8.844805075136776, finish=7.2296030154416355, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #319: uascan(start=8.84588184085426, reference=8.844805075136776, finish=7.2296030154416355, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #320: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.33839216238651, 53.33839216238651]', per_step='None') #321: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84390285297628, 8.84570285297628]', per_step='None') #322: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.29059216238652, 53.29059216238652]', per_step='None') #323: uascan(start=8.845873785522462, reference=8.844797019804979, finish=7.229594960109838, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #324: uascan(start=8.845873785522462, reference=8.844797019804979, finish=7.229594960109838, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #325: uascan(start=8.845873785522462, reference=8.844797019804979, finish=7.229594960109838, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #326: uascan(start=8.845873785522462, reference=8.844797019804979, finish=7.229594960109838, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #327: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.33409216238651, 53.33409216238651]', per_step='None') #328: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843898964195413, 8.845698964195412]', per_step='None') #329: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.49329216238652, 53.49329216238652]', per_step='None') #330: uascan(start=8.84586628573079, reference=8.844789520013306, finish=7.229587460318165, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #331: uascan(start=8.84586628573079, reference=8.844789520013306, finish=7.229587460318165, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #332: uascan(start=8.84586628573079, reference=8.844789520013306, finish=7.229587460318165, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #333: uascan(start=8.84586628573079, reference=8.844789520013306, finish=7.229587460318165, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #334: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.49629216238652, 53.49629216238652]', per_step='None') #335: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843888964473182, 8.845688964473181]', per_step='None') #336: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.554192162386514, 53.554192162386514]', per_step='None') #337: uascan(start=8.845866841270913, reference=8.84479007555343, finish=7.2295880158582895, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #338: uascan(start=8.845866841270913, reference=8.84479007555343, finish=7.2295880158582895, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #339: uascan(start=8.845866841270913, reference=8.84479007555343, finish=7.2295880158582895, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #340: uascan(start=8.845866841270913, reference=8.84479007555343, finish=7.2295880158582895, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #341: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.541392162386515, 53.541392162386515]', per_step='None') #342: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843890353323493, 8.845690353323493]', per_step='None') #343: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.489192162386516, 53.489192162386516]', per_step='None') #344: uascan(start=8.845857119318746, reference=8.844780353601262, finish=7.229578293906122, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #345: uascan(start=8.845857119318746, reference=8.844780353601262, finish=7.229578293906122, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #346: uascan(start=8.845857119318746, reference=8.844780353601262, finish=7.229578293906122, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #347: uascan(start=8.845857119318746, reference=8.844780353601262, finish=7.229578293906122, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #348: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.53909216238652, 53.53909216238652]', per_step='None') #349: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843879520291077, 8.845679520291077]', per_step='None') #350: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.427292162386514, 53.427292162386514]', per_step='None') #351: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #352: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #353: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #354: uascan(start=8.845854897158251, reference=8.844778131440767, finish=7.229576071745627, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #355: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.45249216238651, 53.45249216238651]', per_step='None') #356: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843878131440768, 8.845678131440767]', per_step='None') #357: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.494292162386515, 53.494292162386515]', per_step='None') #358: uascan(start=8.845859341479242, reference=8.844782575761759, finish=7.229580516066618, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #359: uascan(start=8.845859341479242, reference=8.844782575761759, finish=7.229580516066618, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #360: uascan(start=8.845859341479242, reference=8.844782575761759, finish=7.229580516066618, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #361: uascan(start=8.845859341479242, reference=8.844782575761759, finish=7.229580516066618, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #362: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.44769216238652, 53.44769216238652]', per_step='None') #363: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843880909141387, 8.845680909141386]', per_step='None') #364: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.377892162386516, 53.377892162386516]', per_step='None') #365: uascan(start=8.845858508169055, reference=8.844781742451572, finish=7.229579682756431, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #366: uascan(start=8.845858508169055, reference=8.844781742451572, finish=7.229579682756431, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #367: SAXS(detectors=['saxs_det'], num=1) #368: SAXS(detectors=['saxs_det'], num=1) #369: SAXS(detectors=['saxs_det'], num=1) #370: SAXS(detectors=['saxs_det'], num=1) #371: SAXS(detectors=['saxs_det'], num=1) #372: SAXS(detectors=['saxs_det'], num=1) #373: SAXS(detectors=['saxs_det'], num=1) #374: SAXS(detectors=['saxs_det'], num=1) #375: SAXS(detectors=['saxs_det'], num=1) #376: SAXS(detectors=['saxs_det'], num=1) #377: SAXS(detectors=['saxs_det'], num=1) #378: SAXS(detectors=['saxs_det'], num=1) #379: SAXS(detectors=['saxs_det'], num=1) #380: SAXS(detectors=['saxs_det'], num=1) #381: SAXS(detectors=['saxs_det'], num=1) #382: SAXS(detectors=['saxs_det'], num=1) #383: SAXS(detectors=['saxs_det'], num=1) #384: SAXS(detectors=['saxs_det'], num=1) #385: SAXS(detectors=['saxs_det'], num=1) #386: SAXS(detectors=['saxs_det'], num=1) #387: SAXS(detectors=['saxs_det'], num=1) #388: SAXS(detectors=['saxs_det'], num=1) #389: SAXS(detectors=['saxs_det'], num=1) #390: SAXS(detectors=['saxs_det'], num=1) #391: SAXS(detectors=['saxs_det'], num=1) #392: SAXS(detectors=['saxs_det'], num=1) #393: SAXS(detectors=['saxs_det'], num=1) #394: SAXS(detectors=['saxs_det'], num=1) #395: SAXS(detectors=['saxs_det'], num=1) #396: SAXS(detectors=['saxs_det'], num=1) #397: SAXS(detectors=['saxs_det'], num=1) #398: SAXS(detectors=['saxs_det'], num=1) #399: SAXS(detectors=['saxs_det'], num=1) #400: SAXS(detectors=['saxs_det'], num=1) #401: SAXS(detectors=['saxs_det'], num=1) #402: SAXS(detectors=['saxs_det'], num=1) #403: WAXS(detectors=['waxs_det'], num=1) #404: WAXS(detectors=['waxs_det'], num=1) #405: WAXS(detectors=['waxs_det'], num=1) #406: WAXS(detectors=['waxs_det'], num=1) #407: WAXS(detectors=['waxs_det'], num=1) #408: WAXS(detectors=['waxs_det'], num=1) #409: WAXS(detectors=['waxs_det'], num=1) #410: WAXS(detectors=['waxs_det'], num=1) #411: WAXS(detectors=['waxs_det'], num=1) #412: WAXS(detectors=['waxs_det'], num=1) #413: WAXS(detectors=['waxs_det'], num=1) #414: WAXS(detectors=['waxs_det'], num=1) #415: WAXS(detectors=['waxs_det'], num=1) #416: WAXS(detectors=['waxs_det'], num=1) #417: WAXS(detectors=['waxs_det'], num=1) #418: WAXS(detectors=['waxs_det'], num=1) #419: WAXS(detectors=['waxs_det'], num=1) #420: WAXS(detectors=['waxs_det'], num=1) #421: WAXS(detectors=['waxs_det'], num=1) #422: WAXS(detectors=['waxs_det'], num=1) #423: WAXS(detectors=['waxs_det'], num=1) #424: WAXS(detectors=['waxs_det'], num=1) #425: WAXS(detectors=['waxs_det'], num=1) #426: WAXS(detectors=['waxs_det'], num=1) #427: WAXS(detectors=['waxs_det'], num=1) #428: WAXS(detectors=['waxs_det'], num=1) #429: WAXS(detectors=['waxs_det'], num=1) #430: WAXS(detectors=['waxs_det'], num=1) #431: WAXS(detectors=['waxs_det'], num=1) #432: WAXS(detectors=['waxs_det'], num=1) #433: WAXS(detectors=['waxs_det'], num=1) #434: WAXS(detectors=['waxs_det'], num=1) #435: WAXS(detectors=['waxs_det'], num=1) #436: WAXS(detectors=['waxs_det'], num=1) #437: WAXS(detectors=['waxs_det'], num=1) #438: WAXS(detectors=['waxs_det'], num=1) #439: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.366092162386515, 53.366092162386515]', per_step='None') #440: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843881742451572, 8.845681742451571]', per_step='None') #441: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.51319216238652, 53.51319216238652]', per_step='None') #442: uascan(start=8.845844341895896, reference=8.844767576178413, finish=7.229565516483272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #443: SAXS(detectors=['saxs_det'], num=1) #444: WAXS(detectors=['waxs_det'], num=1) #445: uascan(start=8.845844341895896, reference=8.844767576178413, finish=7.229565516483272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #446: uascan(start=8.845844341895896, reference=8.844767576178413, finish=7.229565516483272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #447: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.49179216238652, 53.49179216238652]', per_step='None') #448: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843870909419156, 8.845670909419155]', per_step='None') #449: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.88509216238651, 52.88509216238651]', per_step='None') #450: uascan(start=8.845869896741595, reference=8.844793131024112, finish=7.229591071328971, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #451: uascan(start=8.845869896741595, reference=8.844793131024112, finish=7.229591071328971, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #452: uascan(start=8.845869896741595, reference=8.844793131024112, finish=7.229591071328971, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #453: uascan(start=8.845869896741595, reference=8.844793131024112, finish=7.229591071328971, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #454: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.86149216238651, 52.86149216238651]', per_step='None') #455: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843893964334297, 8.845693964334297]', per_step='None') #456: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.086592162386516, 53.086592162386516]', per_step='None') #457: uascan(start=8.845868230121223, reference=8.84479146440374, finish=7.229589404708599, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #458: uascan(start=8.845868230121223, reference=8.84479146440374, finish=7.229589404708599, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #459: uascan(start=8.845868230121223, reference=8.84479146440374, finish=7.229589404708599, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #460: uascan(start=8.845868230121223, reference=8.84479146440374, finish=7.229589404708599, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #461: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.13119216238651, 53.13119216238651]', per_step='None') #462: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843890908863617, 8.845690908863617]', per_step='None') #463: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.025592162386516, 53.025592162386516]', per_step='None') #464: uascan(start=8.845875729912896, reference=8.844798964195412, finish=7.229596904500272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #465: uascan(start=8.845875729912896, reference=8.844798964195412, finish=7.229596904500272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #466: uascan(start=8.845875729912896, reference=8.844798964195412, finish=7.229596904500272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #467: uascan(start=8.845875729912896, reference=8.844798964195412, finish=7.229596904500272, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #468: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.99789216238651, 52.99789216238651]', per_step='None') #469: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843900353045722, 8.845700353045721]', per_step='None') #470: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.97049216238651, 52.97049216238651]', per_step='None') #471: uascan(start=8.845888229565684, reference=8.8448114638482, finish=7.22960940415306, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #472: uascan(start=8.845888229565684, reference=8.8448114638482, finish=7.22960940415306, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #473: uascan(start=8.845888229565684, reference=8.8448114638482, finish=7.22960940415306, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #474: uascan(start=8.845888229565684, reference=8.8448114638482, finish=7.22960940415306, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #475: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.92789216238651, 52.92789216238651]', per_step='None') #476: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843913686008696, 8.845713686008695]', per_step='None') #477: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.97049216238651, 52.97049216238651]', per_step='None') #478: uascan(start=8.845881563084196, reference=8.844804797366713, finish=7.229602737671573, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #479: uascan(start=8.845881563084196, reference=8.844804797366713, finish=7.229602737671573, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #480: uascan(start=8.845881563084196, reference=8.844804797366713, finish=7.229602737671573, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #481: uascan(start=8.845881563084196, reference=8.844804797366713, finish=7.229602737671573, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #482: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.97199216238651, 52.97199216238651]', per_step='None') #483: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843904797366713, 8.845704797366713]', per_step='None') #484: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.88009216238651, 52.88009216238651]', per_step='None') #485: uascan(start=8.84588934064593, reference=8.844812574928447, finish=7.229610515233307, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #486: uascan(start=8.84588934064593, reference=8.844812574928447, finish=7.229610515233307, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #487: uascan(start=8.84588934064593, reference=8.844812574928447, finish=7.229610515233307, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #488: uascan(start=8.84588934064593, reference=8.844812574928447, finish=7.229610515233307, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #489: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.89169216238651, 52.89169216238651]', per_step='None') #490: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843909797227829, 8.845709797227828]', per_step='None') #491: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.79599216238651, 52.79599216238651]', per_step='None') #492: uascan(start=8.845895173817231, reference=8.844818408099748, finish=7.229616348404607, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #493: uascan(start=8.845895173817231, reference=8.844818408099748, finish=7.229616348404607, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #494: uascan(start=8.845895173817231, reference=8.844818408099748, finish=7.229616348404607, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #495: uascan(start=8.845895173817231, reference=8.844818408099748, finish=7.229616348404607, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #496: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.80049216238651, 52.80049216238651]', per_step='None') #497: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843919796950058, 8.845719796950057]', per_step='None') #498: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.801492162386516, 52.801492162386516]', per_step='None') #499: uascan(start=8.845903229149028, reference=8.844826463431545, finish=7.229624403736405, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #500: uascan(start=8.845903229149028, reference=8.844826463431545, finish=7.229624403736405, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #501: uascan(start=8.845903229149028, reference=8.844826463431545, finish=7.229624403736405, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #502: uascan(start=8.845903229149028, reference=8.844826463431545, finish=7.229624403736405, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #503: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.74179216238652, 52.74179216238652]', per_step='None') #504: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843926463431545, 8.845726463431545]', per_step='None') #505: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.671092162386515, 52.671092162386515]', per_step='None') #506: uascan(start=8.845899895908286, reference=8.844823130190802, finish=7.229621070495662, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #507: uascan(start=8.845899895908286, reference=8.844823130190802, finish=7.229621070495662, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #508: uascan(start=8.845899895908286, reference=8.844823130190802, finish=7.229621070495662, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #509: SAXS(detectors=['saxs_det'], num=1) #510: SAXS(detectors=['saxs_det'], num=1) #511: SAXS(detectors=['saxs_det'], num=1) #512: SAXS(detectors=['saxs_det'], num=1) #513: SAXS(detectors=['saxs_det'], num=1) #514: SAXS(detectors=['saxs_det'], num=1) #515: SAXS(detectors=['saxs_det'], num=1) #516: SAXS(detectors=['saxs_det'], num=1) #517: SAXS(detectors=['saxs_det'], num=1) #518: SAXS(detectors=['saxs_det'], num=1) #519: SAXS(detectors=['saxs_det'], num=1) #520: SAXS(detectors=['saxs_det'], num=1) #521: SAXS(detectors=['saxs_det'], num=1) #522: SAXS(detectors=['saxs_det'], num=1) #523: SAXS(detectors=['saxs_det'], num=1) #524: SAXS(detectors=['saxs_det'], num=1) #525: SAXS(detectors=['saxs_det'], num=1) #526: SAXS(detectors=['saxs_det'], num=1) #527: SAXS(detectors=['saxs_det'], num=1) #528: SAXS(detectors=['saxs_det'], num=1) #529: SAXS(detectors=['saxs_det'], num=1) #530: SAXS(detectors=['saxs_det'], num=1) #531: SAXS(detectors=['saxs_det'], num=1) #532: SAXS(detectors=['saxs_det'], num=1) #533: SAXS(detectors=['saxs_det'], num=1) #534: SAXS(detectors=['saxs_det'], num=1) #535: SAXS(detectors=['saxs_det'], num=1) #536: SAXS(detectors=['saxs_det'], num=1) #537: SAXS(detectors=['saxs_det'], num=1) #538: SAXS(detectors=['saxs_det'], num=1) #539: SAXS(detectors=['saxs_det'], num=1) #540: SAXS(detectors=['saxs_det'], num=1) #541: SAXS(detectors=['saxs_det'], num=1) #542: SAXS(detectors=['saxs_det'], num=1) #543: SAXS(detectors=['saxs_det'], num=1) #544: SAXS(detectors=['saxs_det'], num=1) #545: SAXS(detectors=['saxs_det'], num=1) #546: WAXS(detectors=['waxs_det'], num=1) #547: WAXS(detectors=['waxs_det'], num=1) #548: WAXS(detectors=['waxs_det'], num=1) #549: WAXS(detectors=['waxs_det'], num=1) #550: WAXS(detectors=['waxs_det'], num=1) #551: WAXS(detectors=['waxs_det'], num=1) #552: WAXS(detectors=['waxs_det'], num=1) #553: WAXS(detectors=['waxs_det'], num=1) #554: WAXS(detectors=['waxs_det'], num=1) #555: WAXS(detectors=['waxs_det'], num=1) #556: WAXS(detectors=['waxs_det'], num=1) #557: WAXS(detectors=['waxs_det'], num=1) #558: WAXS(detectors=['waxs_det'], num=1) #559: WAXS(detectors=['waxs_det'], num=1) #560: WAXS(detectors=['waxs_det'], num=1) #561: WAXS(detectors=['waxs_det'], num=1) #562: WAXS(detectors=['waxs_det'], num=1) #563: WAXS(detectors=['waxs_det'], num=1) #564: WAXS(detectors=['waxs_det'], num=1) #565: WAXS(detectors=['waxs_det'], num=1) #566: WAXS(detectors=['waxs_det'], num=1) #567: WAXS(detectors=['waxs_det'], num=1) #568: WAXS(detectors=['waxs_det'], num=1) #569: WAXS(detectors=['waxs_det'], num=1) #570: WAXS(detectors=['waxs_det'], num=1) #571: WAXS(detectors=['waxs_det'], num=1) #572: WAXS(detectors=['waxs_det'], num=1) #573: WAXS(detectors=['waxs_det'], num=1) #574: WAXS(detectors=['waxs_det'], num=1) no plot: #575 WAXS(detectors=['waxs_det'], num=1) #576: WAXS(detectors=['waxs_det'], num=1) #577: WAXS(detectors=['waxs_det'], num=1) #578: WAXS(detectors=['waxs_det'], num=1) #579: WAXS(detectors=['waxs_det'], num=1) #580: WAXS(detectors=['waxs_det'], num=1) #581: WAXS(detectors=['waxs_det'], num=1) #582: WAXS(detectors=['waxs_det'], num=1) #583: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.71619216238651, 52.71619216238651]', per_step='None') #584: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843925907891421, 8.84572590789142]', per_step='None') #585: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.932692162386516, 52.932692162386516]', per_step='None') #586: uascan(start=8.845892118346551, reference=8.844815352629068, finish=7.229613292933927, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #587: SAXS(detectors=['saxs_det'], num=1) #588: WAXS(detectors=['waxs_det'], num=1) #589: uascan(start=8.845892118346551, reference=8.844815352629068, finish=7.229613292933927, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #590: uascan(start=8.845892118346551, reference=8.844815352629068, finish=7.229613292933927, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #591: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.821392162386516, 52.821392162386516]', per_step='None') #592: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84391424154882, 8.84571424154882]', per_step='None') #593: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.044792162386514, 52.044792162386514]', per_step='None') #594: uascan(start=8.84591489549163, reference=8.844838129774146, finish=7.229636070079006, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #595: uascan(start=8.84591489549163, reference=8.844838129774146, finish=7.229636070079006, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #596: uascan(start=8.84591489549163, reference=8.844838129774146, finish=7.229636070079006, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #597: uascan(start=8.84591489549163, reference=8.844838129774146, finish=7.229636070079006, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #598: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.08409216238651, 52.08409216238651]', per_step='None') #599: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843938407544208, 8.845738407544207]', per_step='None') #600: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.16259216238652, 52.16259216238652]', per_step='None') #601: uascan(start=8.84592767291448, reference=8.844850907196996, finish=7.229648847501855, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #602: uascan(start=8.84592767291448, reference=8.844850907196996, finish=7.229648847501855, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #603: uascan(start=8.84592767291448, reference=8.844850907196996, finish=7.229648847501855, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #604: uascan(start=8.84592767291448, reference=8.844850907196996, finish=7.229648847501855, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #605: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.16589216238651, 52.16589216238651]', per_step='None') #606: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843952018277244, 8.845752018277244]', per_step='None') #607: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.14399216238652, 52.14399216238652]', per_step='None') #608: uascan(start=8.845932950545656, reference=8.844856184828172, finish=7.229654125133032, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #609: uascan(start=8.845932950545656, reference=8.844856184828172, finish=7.229654125133032, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #610: uascan(start=8.845932950545656, reference=8.844856184828172, finish=7.229654125133032, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #611: uascan(start=8.845932950545656, reference=8.844856184828172, finish=7.229654125133032, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #612: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.123392162386516, 52.123392162386516]', per_step='None') #613: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84395424043774, 8.845754240437739]', per_step='None') #614: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.169192162386516, 52.169192162386516]', per_step='None') #615: uascan(start=8.84593767263671, reference=8.844860906919227, finish=7.229658847224086, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #616: uascan(start=8.84593767263671, reference=8.844860906919227, finish=7.229658847224086, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #617: uascan(start=8.84593767263671, reference=8.844860906919227, finish=7.229658847224086, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #618: uascan(start=8.84593767263671, reference=8.844860906919227, finish=7.229658847224086, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #619: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.123592162386515, 52.123592162386515]', per_step='None') #620: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843958962528792, 8.845758962528791]', per_step='None') #621: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.11129216238651, 52.11129216238651]', per_step='None') #622: uascan(start=8.84594072810739, reference=8.844863962389907, finish=7.229661902694766, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #623: uascan(start=8.84594072810739, reference=8.844863962389907, finish=7.229661902694766, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #624: uascan(start=8.84594072810739, reference=8.844863962389907, finish=7.229661902694766, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #625: uascan(start=8.84594072810739, reference=8.844863962389907, finish=7.229661902694766, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #626: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.113292162386514, 52.113292162386514]', per_step='None') #627: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843961184689288, 8.845761184689287]', per_step='None') #628: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.18249216238652, 52.18249216238652]', per_step='None') #629: uascan(start=8.845935450476214, reference=8.84485868475873, finish=7.22965662506359, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #630: uascan(start=8.845935450476214, reference=8.84485868475873, finish=7.22965662506359, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #631: uascan(start=8.845935450476214, reference=8.84485868475873, finish=7.22965662506359, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #632: uascan(start=8.845935450476214, reference=8.84485868475873, finish=7.22965662506359, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #633: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.177292162386514, 52.177292162386514]', per_step='None') #634: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84395868475873, 8.84575868475873]', per_step='None') #635: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.08629216238651, 52.08629216238651]', per_step='None') #636: uascan(start=8.845932395005532, reference=8.844855629288048, finish=7.229653569592908, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #637: uascan(start=8.845932395005532, reference=8.844855629288048, finish=7.229653569592908, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #638: uascan(start=8.845932395005532, reference=8.844855629288048, finish=7.229653569592908, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #639: uascan(start=8.845932395005532, reference=8.844855629288048, finish=7.229653569592908, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #640: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.10699216238651, 52.10699216238651]', per_step='None') #641: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843957851448545, 8.845757851448544]', per_step='None') #642: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.104992162386516, 52.104992162386516]', per_step='None') #643: uascan(start=8.845936006016338, reference=8.844859240298854, finish=7.229657180603714, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #644: uascan(start=8.845936006016338, reference=8.844859240298854, finish=7.229657180603714, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #645: uascan(start=8.845936006016338, reference=8.844859240298854, finish=7.229657180603714, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #646: uascan(start=8.845936006016338, reference=8.844859240298854, finish=7.229657180603714, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #647: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.10319216238651, 52.10319216238651]', per_step='None') #648: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84396007360904, 8.84576007360904]', per_step='None') #649: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.16389216238652, 52.16389216238652]', per_step='None') #650: uascan(start=8.845935172706152, reference=8.844858406988669, finish=7.2296563472935285, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #651: SAXS(detectors=['saxs_det'], num=1) #652: SAXS(detectors=['saxs_det'], num=1) #653: SAXS(detectors=['saxs_det'], num=1) #654: SAXS(detectors=['saxs_det'], num=1) #655: SAXS(detectors=['saxs_det'], num=1) #656: SAXS(detectors=['saxs_det'], num=1) #657: SAXS(detectors=['saxs_det'], num=1) #658: SAXS(detectors=['saxs_det'], num=1) #659: SAXS(detectors=['saxs_det'], num=1) #660: SAXS(detectors=['saxs_det'], num=1) #661: SAXS(detectors=['saxs_det'], num=1) #662: SAXS(detectors=['saxs_det'], num=1) #663: SAXS(detectors=['saxs_det'], num=1) #664: SAXS(detectors=['saxs_det'], num=1) #665: SAXS(detectors=['saxs_det'], num=1) #666: SAXS(detectors=['saxs_det'], num=1) #667: SAXS(detectors=['saxs_det'], num=1) #668: SAXS(detectors=['saxs_det'], num=1) #669: SAXS(detectors=['saxs_det'], num=1) #670: SAXS(detectors=['saxs_det'], num=1) #671: SAXS(detectors=['saxs_det'], num=1) #672: SAXS(detectors=['saxs_det'], num=1) #673: SAXS(detectors=['saxs_det'], num=1) #674: SAXS(detectors=['saxs_det'], num=1) #675: SAXS(detectors=['saxs_det'], num=1) #676: SAXS(detectors=['saxs_det'], num=1) #677: SAXS(detectors=['saxs_det'], num=1) #678: SAXS(detectors=['saxs_det'], num=1) #679: SAXS(detectors=['saxs_det'], num=1) #680: SAXS(detectors=['saxs_det'], num=1) #681: SAXS(detectors=['saxs_det'], num=1) #682: SAXS(detectors=['saxs_det'], num=1) #683: SAXS(detectors=['saxs_det'], num=1) #684: SAXS(detectors=['saxs_det'], num=1) #685: SAXS(detectors=['saxs_det'], num=1) #686: WAXS(detectors=['waxs_det'], num=1) #687: WAXS(detectors=['waxs_det'], num=1) #688: WAXS(detectors=['waxs_det'], num=1) #689: WAXS(detectors=['waxs_det'], num=1) #690: WAXS(detectors=['waxs_det'], num=1) #691: WAXS(detectors=['waxs_det'], num=1) #692: WAXS(detectors=['waxs_det'], num=1) #693: WAXS(detectors=['waxs_det'], num=1) #694: WAXS(detectors=['waxs_det'], num=1) #695: WAXS(detectors=['waxs_det'], num=1) #696: WAXS(detectors=['waxs_det'], num=1) #697: WAXS(detectors=['waxs_det'], num=1) #698: WAXS(detectors=['waxs_det'], num=1) #699: WAXS(detectors=['waxs_det'], num=1) #700: WAXS(detectors=['waxs_det'], num=1) #701: WAXS(detectors=['waxs_det'], num=1) #702: WAXS(detectors=['waxs_det'], num=1) #703: WAXS(detectors=['waxs_det'], num=1) #704: WAXS(detectors=['waxs_det'], num=1) #705: WAXS(detectors=['waxs_det'], num=1) #706: WAXS(detectors=['waxs_det'], num=1) #707: WAXS(detectors=['waxs_det'], num=1) #708: WAXS(detectors=['waxs_det'], num=1) no plot: #709 WAXS(detectors=['waxs_det'], num=1) #710: WAXS(detectors=['waxs_det'], num=1) #711: WAXS(detectors=['waxs_det'], num=1) #712: WAXS(detectors=['waxs_det'], num=1) #713: WAXS(detectors=['waxs_det'], num=1) #714: WAXS(detectors=['waxs_det'], num=1) #715: WAXS(detectors=['waxs_det'], num=1) #716: WAXS(detectors=['waxs_det'], num=1) #717: WAXS(detectors=['waxs_det'], num=1) #718: WAXS(detectors=['waxs_det'], num=1) #719: WAXS(detectors=['waxs_det'], num=1) #720: WAXS(detectors=['waxs_det'], num=1) #721: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 40.131892162386514, 52.131892162386514]', per_step='None') #722: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843959240298854, 8.845759240298854]', per_step='None') #723: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.94609216238651, 51.94609216238651]', per_step='None') #724: uascan(start=8.845928783994728, reference=8.844852018277244, finish=7.229649958582104, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #725: SAXS(detectors=['saxs_det'], num=1) #726: WAXS(detectors=['waxs_det'], num=1) #727: uascan(start=8.845928783994728, reference=8.844852018277244, finish=7.229649958582104, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #728: uascan(start=8.845928783994728, reference=8.844852018277244, finish=7.229649958582104, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #729: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.94989216238651, 51.94989216238651]', per_step='None') #730: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843954518207802, 8.845754518207801]', per_step='None') #731: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.736792162386514, 51.736792162386514]', per_step='None') #732: uascan(start=8.845941839187638, reference=8.844865073470155, finish=7.229663013775014, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #733: uascan(start=8.845941839187638, reference=8.844865073470155, finish=7.229663013775014, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #734: uascan(start=8.845941839187638, reference=8.844865073470155, finish=7.229663013775014, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #735: uascan(start=8.845941839187638, reference=8.844865073470155, finish=7.229663013775014, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #736: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.67739216238651, 51.67739216238651]', per_step='None') #737: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843963406849783, 8.845763406849782]', per_step='None') #738: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.808092162386515, 51.808092162386515]', per_step='None') #739: uascan(start=8.845946839048754, reference=8.84487007333127, finish=7.22966801363613, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #740: uascan(start=8.845946839048754, reference=8.84487007333127, finish=7.22966801363613, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #741: SAXS(detectors=['saxs_det'], num=1) #742: SAXS(detectors=['saxs_det'], num=1) #743: SAXS(detectors=['saxs_det'], num=1) #744: SAXS(detectors=['saxs_det'], num=1) #745: SAXS(detectors=['saxs_det'], num=1) #746: SAXS(detectors=['saxs_det'], num=1) #747: SAXS(detectors=['saxs_det'], num=1) #748: SAXS(detectors=['saxs_det'], num=1) #749: WAXS(detectors=['waxs_det'], num=1) #750: WAXS(detectors=['waxs_det'], num=1) #751: WAXS(detectors=['waxs_det'], num=1) #752: WAXS(detectors=['waxs_det'], num=1) #753: WAXS(detectors=['waxs_det'], num=1) #754: WAXS(detectors=['waxs_det'], num=1) #755: WAXS(detectors=['waxs_det'], num=1) #756: WAXS(detectors=['waxs_det'], num=1) #757: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.808292162386515, 51.808292162386515]', per_step='None') #758: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843970906641456, 8.845770906641455]', per_step='None') #759: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.72799216238651, 51.72799216238651]', per_step='None') #760: uascan(start=8.845942950267887, reference=8.844866184550403, finish=7.229664124855263, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #761: SAXS(detectors=['saxs_det'], num=1) #762: WAXS(detectors=['waxs_det'], num=1) #763: uascan(start=8.845942950267887, reference=8.844866184550403, finish=7.229664124855263, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #764: uascan(start=8.845942950267887, reference=8.844866184550403, finish=7.229664124855263, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #765: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.73579216238652, 51.73579216238652]', per_step='None') #766: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843963684619846, 8.845763684619845]', per_step='None') #767: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.97959216238652, 51.97959216238652]', per_step='None') #768: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #769: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #770: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #771: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #772: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.96019216238651, 51.96019216238651]', per_step='None') #773: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843960629149164, 8.845760629149163]', per_step='None') #774: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.721192162386515, 51.721192162386515]', per_step='None') #775: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #776: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #777: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #778: uascan(start=8.845938505946895, reference=8.844861740229412, finish=7.229659680534271, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #779: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.749192162386514, 51.749192162386514]', per_step='None') #780: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84396007360904, 8.84576007360904]', per_step='None') #781: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.63459216238651, 51.63459216238651]', per_step='None') #782: uascan(start=8.84594489465832, reference=8.844868128940837, finish=7.229666069245696, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #783: uascan(start=8.84594489465832, reference=8.844868128940837, finish=7.229666069245696, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #784: uascan(start=8.84594489465832, reference=8.844868128940837, finish=7.229666069245696, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #785: uascan(start=8.84594489465832, reference=8.844868128940837, finish=7.229666069245696, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #786: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.58949216238651, 51.58949216238651]', per_step='None') #787: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843968684480961, 8.84576868448096]', per_step='None') #788: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.692692162386514, 51.692692162386514]', per_step='None') #789: uascan(start=8.845952394449991, reference=8.844875628732508, finish=7.2296735690373675, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #790: uascan(start=8.845952394449991, reference=8.844875628732508, finish=7.2296735690373675, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #791: uascan(start=8.845952394449991, reference=8.844875628732508, finish=7.2296735690373675, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #792: uascan(start=8.845952394449991, reference=8.844875628732508, finish=7.2296735690373675, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #793: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.52079216238651, 51.52079216238651]', per_step='None') #794: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843975628732508, 8.845775628732508]', per_step='None') #795: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.54219216238651, 51.54219216238651]', per_step='None') #796: uascan(start=8.845956005460797, reference=8.844879239743314, finish=7.229677180048173, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #797: uascan(start=8.845956005460797, reference=8.844879239743314, finish=7.229677180048173, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #798: uascan(start=8.845956005460797, reference=8.844879239743314, finish=7.229677180048173, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #799: uascan(start=8.845956005460797, reference=8.844879239743314, finish=7.229677180048173, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #800: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.54769216238651, 51.54769216238651]', per_step='None') #801: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843980628593624, 8.845780628593623]', per_step='None') #802: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.71869216238652, 51.71869216238652]', per_step='None') #803: uascan(start=8.845958505391355, reference=8.844881739673871, finish=7.229679679978731, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #804: uascan(start=8.845958505391355, reference=8.844881739673871, finish=7.229679679978731, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #805: uascan(start=8.845958505391355, reference=8.844881739673871, finish=7.229679679978731, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #806: uascan(start=8.845958505391355, reference=8.844881739673871, finish=7.229679679978731, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #807: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.69329216238651, 51.69329216238651]', per_step='None') #808: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843980906363687, 8.845780906363686]', per_step='None') #809: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.59609216238651, 51.59609216238651]', per_step='None') #810: uascan(start=8.845955449920673, reference=8.84487868420319, finish=7.229676624508049, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #811: uascan(start=8.845955449920673, reference=8.84487868420319, finish=7.229676624508049, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #812: SAXS(detectors=['saxs_det'], num=1) #813: SAXS(detectors=['saxs_det'], num=1) #814: SAXS(detectors=['saxs_det'], num=1) #815: SAXS(detectors=['saxs_det'], num=1) #816: SAXS(detectors=['saxs_det'], num=1) #817: SAXS(detectors=['saxs_det'], num=1) #818: SAXS(detectors=['saxs_det'], num=1) #819: SAXS(detectors=['saxs_det'], num=1) #820: SAXS(detectors=['saxs_det'], num=1) #821: SAXS(detectors=['saxs_det'], num=1) #822: SAXS(detectors=['saxs_det'], num=1) #823: SAXS(detectors=['saxs_det'], num=1) #824: SAXS(detectors=['saxs_det'], num=1) #825: SAXS(detectors=['saxs_det'], num=1) #826: SAXS(detectors=['saxs_det'], num=1) #827: SAXS(detectors=['saxs_det'], num=1) #828: SAXS(detectors=['saxs_det'], num=1) #829: SAXS(detectors=['saxs_det'], num=1) #830: SAXS(detectors=['saxs_det'], num=1) #831: SAXS(detectors=['saxs_det'], num=1) #832: SAXS(detectors=['saxs_det'], num=1) #833: SAXS(detectors=['saxs_det'], num=1) #834: SAXS(detectors=['saxs_det'], num=1) #835: SAXS(detectors=['saxs_det'], num=1) #836: SAXS(detectors=['saxs_det'], num=1) #837: SAXS(detectors=['saxs_det'], num=1) #838: SAXS(detectors=['saxs_det'], num=1) #839: SAXS(detectors=['saxs_det'], num=1) #840: WAXS(detectors=['waxs_det'], num=1) no plot: #841 WAXS(detectors=['waxs_det'], num=1) #842: WAXS(detectors=['waxs_det'], num=1) #843: WAXS(detectors=['waxs_det'], num=1) #844: WAXS(detectors=['waxs_det'], num=1) #845: WAXS(detectors=['waxs_det'], num=1) #846: WAXS(detectors=['waxs_det'], num=1) #847: WAXS(detectors=['waxs_det'], num=1) #848: WAXS(detectors=['waxs_det'], num=1) #849: WAXS(detectors=['waxs_det'], num=1) #850: WAXS(detectors=['waxs_det'], num=1) #851: WAXS(detectors=['waxs_det'], num=1) #852: WAXS(detectors=['waxs_det'], num=1) #853: WAXS(detectors=['waxs_det'], num=1) #854: WAXS(detectors=['waxs_det'], num=1) #855: WAXS(detectors=['waxs_det'], num=1) #856: WAXS(detectors=['waxs_det'], num=1) #857: WAXS(detectors=['waxs_det'], num=1) #858: WAXS(detectors=['waxs_det'], num=1) #859: WAXS(detectors=['waxs_det'], num=1) #860: WAXS(detectors=['waxs_det'], num=1) #861: WAXS(detectors=['waxs_det'], num=1) #862: WAXS(detectors=['waxs_det'], num=1) #863: WAXS(detectors=['waxs_det'], num=1) #864: WAXS(detectors=['waxs_det'], num=1) #865: WAXS(detectors=['waxs_det'], num=1) #866: WAXS(detectors=['waxs_det'], num=1) #867: WAXS(detectors=['waxs_det'], num=1) #868: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.598292162386514, 51.598292162386514]', per_step='None') #869: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843979239743314, 8.845779239743313]', per_step='None') #870: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.06139216238651, 51.06139216238651]', per_step='None') #871: uascan(start=8.845967116263274, reference=8.844890350545791, finish=7.229688290850651, minStep=2e-05, dx0=98.03954999999993, SDD_mm=1080.0, ax0=14.66, SAD_mm=250.0, exponent=1.1, intervals=300, count_time=0.3) #872: SAXS(detectors=['saxs_det'], num=1) #873: WAXS(detectors=['waxs_det'], num=1) #874: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.842357890785342, 8.847357890785341]', per_step='None') #875: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843988961695482, 8.845788961695481]', per_step='None') #876: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 39.046092162386515, 51.046092162386515]', per_step='None')