SPEC scans from: /share1/USAXS_data/2023-03/03_15_Donovan/03_15_Donovan.dat

spec file: /share1/USAXS_data/2023-03/03_15_Donovan/03_15_Donovan.dat
#2: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841158513077707, 8.846158513077706]', per_step='None') #3: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843119155023471, 8.84491915502347]', per_step='None') #4: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.48909216238651, 49.48909216238651]', per_step='None') #5: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.84122184641104, 8.846221846411039]', per_step='None') #6: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84311304408211, 8.844913044082109]', per_step='None') #7: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 38.05519216238651, 50.05519216238651]', per_step='None') #8: documentation_run() #9: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.449992162386515, 49.449992162386515]', per_step='None') #10: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843294427932557, 8.845094427932557]', per_step='None') #11: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.17229216238651, 49.17229216238651]', per_step='None') #12: SAXS(detectors=['saxs_det'], num=1) #13: WAXS(detectors=['waxs_det'], num=1) #14: documentation_run() #15: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 36.973292162386514, 48.973292162386514]', per_step='None') #16: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843290261381629, 8.845090261381628]', per_step='None') #17: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.930492162386514, 49.930492162386514]', per_step='None') #18: uascan(start=8.845218417338272, reference=8.844141651620788, finish=7.228939591925648, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #19: uascan(start=8.845218417338272, reference=8.844141651620788, finish=7.228939591925648, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #20: uascan(start=8.845218417338272, reference=8.844141651620788, finish=7.228939591925648, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #21: uascan(start=8.845218417338272, reference=8.844141651620788, finish=7.228939591925648, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #22: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.398392162386514, 49.398392162386514]', per_step='None') #23: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843241096080664, 8.845041096080664]', per_step='None') #24: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 38.097492162386516, 50.097492162386516]', per_step='None') #25: uascan(start=8.845160363395326, reference=8.844083597677843, finish=7.228881537982702, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #26: uascan(start=8.845160363395326, reference=8.844083597677843, finish=7.228881537982702, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #27: uascan(start=8.845160363395326, reference=8.844083597677843, finish=7.228881537982702, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #28: uascan(start=8.845160363395326, reference=8.844083597677843, finish=7.228881537982702, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #29: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 38.10249216238651, 50.10249216238651]', per_step='None') #30: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843184153217967, 8.844984153217966]', per_step='None') #31: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.724792162386514, 49.724792162386514]', per_step='None') #32: uascan(start=8.845127586528017, reference=8.844050820810534, finish=7.228848761115393, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #33: uascan(start=8.845127586528017, reference=8.844050820810534, finish=7.228848761115393, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #34: uascan(start=8.845127586528017, reference=8.844050820810534, finish=7.228848761115393, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #35: SAXS(detectors=['saxs_det'], num=1) #36: SAXS(detectors=['saxs_det'], num=1) #37: SAXS(detectors=['saxs_det'], num=1) #38: SAXS(detectors=['saxs_det'], num=1) #39: SAXS(detectors=['saxs_det'], num=1) #40: SAXS(detectors=['saxs_det'], num=1) #41: SAXS(detectors=['saxs_det'], num=1) #42: SAXS(detectors=['saxs_det'], num=1) #43: SAXS(detectors=['saxs_det'], num=1) #44: SAXS(detectors=['saxs_det'], num=1) #45: SAXS(detectors=['saxs_det'], num=1) #46: WAXS(detectors=['waxs_det'], num=1) #47: WAXS(detectors=['waxs_det'], num=1) #48: WAXS(detectors=['waxs_det'], num=1) #49: WAXS(detectors=['waxs_det'], num=1) #50: WAXS(detectors=['waxs_det'], num=1) #51: WAXS(detectors=['waxs_det'], num=1) #52: WAXS(detectors=['waxs_det'], num=1) #53: WAXS(detectors=['waxs_det'], num=1) #54: WAXS(detectors=['waxs_det'], num=1) #55: WAXS(detectors=['waxs_det'], num=1) #56: WAXS(detectors=['waxs_det'], num=1) #57: documentation_run() #58: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.796992162386516, 49.796992162386516]', per_step='None') #59: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843149709730286, 8.844949709730285]', per_step='None') #60: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.596592162386514, 49.596592162386514]', per_step='None') #61: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #62: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #63: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #64: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #65: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.63609216238651, 49.63609216238651]', per_step='None') #66: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843132210216384, 8.844932210216383]', per_step='None') #67: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 38.05889216238651, 50.05889216238651]', per_step='None') #68: uascan(start=8.845100642832008, reference=8.844023877114525, finish=7.228821817419385, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #69: uascan(start=8.845100642832008, reference=8.844023877114525, finish=7.228821817419385, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #70: uascan(start=8.845100642832008, reference=8.844023877114525, finish=7.228821817419385, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #71: uascan(start=8.845100642832008, reference=8.844023877114525, finish=7.228821817419385, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #72: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 38.191892162386516, 50.191892162386516]', per_step='None') #73: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84312443265465, 8.844924432654649]', per_step='None') #74: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 37.922392162386515, 49.922392162386515]', per_step='None') #75: uascan(start=8.845100087291884, reference=8.8440233215744, finish=7.22882126187926, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #76: uascan(start=8.845100087291884, reference=8.8440233215744, finish=7.22882126187926, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #77: uascan(start=8.845100087291884, reference=8.8440233215744, finish=7.22882126187926, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1090.0, ax0=14.66, SAD_mm=261.0, exponent=1.1, intervals=300, count_time=0.3) #78: SAXS(detectors=['saxs_det'], num=1) #79: SAXS(detectors=['saxs_det'], num=1) #80: SAXS(detectors=['saxs_det'], num=1) #81: SAXS(detectors=['saxs_det'], num=1) #82: SAXS(detectors=['saxs_det'], num=1) #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: WAXS(detectors=['waxs_det'], num=1) #90: WAXS(detectors=['waxs_det'], num=1) #91: WAXS(detectors=['waxs_det'], num=1) #92: WAXS(detectors=['waxs_det'], num=1) #93: WAXS(detectors=['waxs_det'], num=1) #94: WAXS(detectors=['waxs_det'], num=1) #95: WAXS(detectors=['waxs_det'], num=1) #96: WAXS(detectors=['waxs_det'], num=1) #97: WAXS(detectors=['waxs_det'], num=1) #98: WAXS(detectors=['waxs_det'], num=1) #99: WAXS(detectors=['waxs_det'], num=1)