SPEC scans from: /share1/USAXS_data/2023-03/03_18_HuAB/03_18_HuAB.dat

spec file: /share1/USAXS_data/2023-03/03_18_HuAB/03_18_HuAB.dat

#2: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841383513077707, 8.846383513077706]', per_step='None')

#3: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843223596566762, 8.845023596566762]', per_step='None')

#4: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.364592162386515, 53.364592162386515]', per_step='None')

#5: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841358513077706, 8.846358513077705]', per_step='None')

#6: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843115266242604, 8.844915266242603]', per_step='None')

#7: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.466292162386516, 53.466292162386516]', per_step='None')

#8: documentation_run()

#9: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.466092162386516, 53.466092162386516]', per_step='None')

#10: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843115266242604, 8.844915266242603]', per_step='None')

#11: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.367392162386516, 53.367392162386516]', per_step='None')

#12: uascan(start=8.845112586944671, reference=8.844035821227187, finish=7.228833761532047, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#13: uascan(start=8.845112586944671, reference=8.844035821227187, finish=7.228833761532047, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#14: uascan(start=8.845112586944671, reference=8.844035821227187, finish=7.228833761532047, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#15: uascan(start=8.845112586944671, reference=8.844035821227187, finish=7.228833761532047, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#16: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.377192162386514, 53.377192162386514]', per_step='None')

#17: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843136932307436, 8.844936932307435]', per_step='None')

#18: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.33109216238651, 53.33109216238651]', per_step='None')

#19: uascan(start=8.845128419838202, reference=8.844051654120719, finish=7.228849594425578, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#20: uascan(start=8.845128419838202, reference=8.844051654120719, finish=7.228849594425578, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#21: uascan(start=8.845128419838202, reference=8.844051654120719, finish=7.228849594425578, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#22: uascan(start=8.845128419838202, reference=8.844051654120719, finish=7.228849594425578, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#23: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.328592162386514, 53.328592162386514]', per_step='None')

#24: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84315165412072, 8.844951654120718]', per_step='None')

#25: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.60889216238652, 53.60889216238652]', per_step='None')

#26: uascan(start=8.84512536436752, reference=8.844048598650037, finish=7.228846538954897, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#27: uascan(start=8.84512536436752, reference=8.844048598650037, finish=7.228846538954897, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#28: uascan(start=8.84512536436752, reference=8.844048598650037, finish=7.228846538954897, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#29: uascan(start=8.84512536436752, reference=8.844048598650037, finish=7.228846538954897, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#30: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.62649216238651, 53.62649216238651]', per_step='None')

#31: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843151376350658, 8.844951376350657]', per_step='None')

#32: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.31419216238651, 53.31419216238651]', per_step='None')

#33: uascan(start=8.84513647517, reference=8.844059709452516, finish=7.2288576497573755, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#34: uascan(start=8.84513647517, reference=8.844059709452516, finish=7.2288576497573755, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#35: uascan(start=8.84513647517, reference=8.844059709452516, finish=7.2288576497573755, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#36: uascan(start=8.84513647517, reference=8.844059709452516, finish=7.2288576497573755, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#37: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.29659216238652, 53.29659216238652]', per_step='None')

#38: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843156931751896, 8.844956931751895]', per_step='None')

#39: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.47189216238652, 53.47189216238652]', per_step='None')

#40: uascan(start=8.845127308757954, reference=8.84405054304047, finish=7.22884848334533, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#41: uascan(start=8.845127308757954, reference=8.84405054304047, finish=7.22884848334533, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#42: uascan(start=8.845127308757954, reference=8.84405054304047, finish=7.22884848334533, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#43: uascan(start=8.845127308757954, reference=8.84405054304047, finish=7.22884848334533, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#44: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.558492162386514, 53.558492162386514]', per_step='None')

#45: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843148320879976, 8.844948320879976]', per_step='None')

#46: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.309392162386516, 53.309392162386516]', per_step='None')

#47: uascan(start=8.845126197677708, reference=8.844049431960224, finish=7.228847372265084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#48: uascan(start=8.845126197677708, reference=8.844049431960224, finish=7.228847372265084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#49: uascan(start=8.845126197677708, reference=8.844049431960224, finish=7.228847372265084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#50: uascan(start=8.845126197677708, reference=8.844049431960224, finish=7.228847372265084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#51: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.31269216238651, 53.31269216238651]', per_step='None')

#52: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843149154190161, 8.84494915419016]', per_step='None')

#53: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.63099216238651, 53.63099216238651]', per_step='None')

#54: uascan(start=8.845121753356716, reference=8.844044987639233, finish=7.2288429279440924, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#55: uascan(start=8.845121753356716, reference=8.844044987639233, finish=7.2288429279440924, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#56: uascan(start=8.845121753356716, reference=8.844044987639233, finish=7.2288429279440924, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#57: uascan(start=8.845121753356716, reference=8.844044987639233, finish=7.2288429279440924, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#58: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.556992162386514, 53.556992162386514]', per_step='None')

#59: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843145265409294, 8.844945265409294]', per_step='None')

#60: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.304192162386514, 53.304192162386514]', per_step='None')

#61: uascan(start=8.845124531057335, reference=8.844047765339852, finish=7.228845705644711, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#62: uascan(start=8.845124531057335, reference=8.844047765339852, finish=7.228845705644711, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#63: uascan(start=8.845124531057335, reference=8.844047765339852, finish=7.228845705644711, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#64: uascan(start=8.845124531057335, reference=8.844047765339852, finish=7.228845705644711, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#65: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.273392162386514, 53.273392162386514]', per_step='None')

#66: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843146376489543, 8.844946376489542]', per_step='None')

#67: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.66779216238651, 53.66779216238651]', per_step='None')

#68: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#69: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#70: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#71: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#72: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.66929216238651, 53.66929216238651]', per_step='None')

#73: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843133876836754, 8.844933876836754]', per_step='None')

#74: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.391792162386515, 53.391792162386515]', per_step='None')

#75: uascan(start=8.845111753634486, reference=8.844034987917002, finish=7.228832928221862, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#76: uascan(start=8.845111753634486, reference=8.844034987917002, finish=7.228832928221862, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#77: uascan(start=8.845111753634486, reference=8.844034987917002, finish=7.228832928221862, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#78: uascan(start=8.845111753634486, reference=8.844034987917002, finish=7.228832928221862, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#79: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.361592162386515, 53.361592162386515]', per_step='None')

#80: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843134432376878, 8.844934432376878]', per_step='None')

#81: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.67629216238652, 53.67629216238652]', per_step='None')

#82: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#83: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#84: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#85: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#86: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.63029216238652, 53.63029216238652]', per_step='None')

#87: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843129432515765, 8.844929432515764]', per_step='None')

#88: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.35379216238651, 53.35379216238651]', per_step='None')

#89: uascan(start=8.84511230917461, reference=8.844035543457126, finish=7.228833483761986, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#90: uascan(start=8.84511230917461, reference=8.844035543457126, finish=7.228833483761986, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#91: uascan(start=8.84511230917461, reference=8.844035543457126, finish=7.228833483761986, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#92: uascan(start=8.84511230917461, reference=8.844035543457126, finish=7.228833483761986, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#93: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.37689216238651, 53.37689216238651]', per_step='None')

#94: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84313609899725, 8.84493609899725]', per_step='None')

#95: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.54789216238652, 53.54789216238652]', per_step='None')

#96: uascan(start=8.845112864714734, reference=8.84403609899725, finish=7.22883403930211, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#97: uascan(start=8.845112864714734, reference=8.84403609899725, finish=7.22883403930211, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#98: uascan(start=8.845112864714734, reference=8.84403609899725, finish=7.22883403930211, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#99: uascan(start=8.845112864714734, reference=8.84403609899725, finish=7.22883403930211, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#100: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.535592162386514, 53.535592162386514]', per_step='None')

#101: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843135265687065, 8.844935265687065]', per_step='None')

#102: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.267392162386514, 53.267392162386514]', per_step='None')

#103: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#104: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#105: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#106: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#107: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.420692162386516, 53.420692162386516]', per_step='None')

#108: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843129710285826, 8.844929710285825]', per_step='None')

#109: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.47639216238652, 53.47639216238652]', per_step='None')

#110: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#111: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#112: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#113: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#114: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.47209216238652, 53.47209216238652]', per_step='None')

#115: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843128321435517, 8.844928321435516]', per_step='None')

#116: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.629992162386515, 53.629992162386515]', per_step='None')

#117: uascan(start=8.845116197955477, reference=8.844039432237993, finish=7.228837372542853, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#118: uascan(start=8.845116197955477, reference=8.844039432237993, finish=7.228837372542853, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#119: uascan(start=8.845116197955477, reference=8.844039432237993, finish=7.228837372542853, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#120: uascan(start=8.845116197955477, reference=8.844039432237993, finish=7.228837372542853, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#121: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.45649216238652, 53.45649216238652]', per_step='None')

#122: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843137210077499, 8.844937210077498]', per_step='None')

#123: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.80329216238651, 53.80329216238651]', per_step='None')

#124: uascan(start=8.845098420671512, reference=8.844021654954028, finish=7.228819595258888, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#125: uascan(start=8.845098420671512, reference=8.844021654954028, finish=7.228819595258888, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#126: uascan(start=8.845098420671512, reference=8.844021654954028, finish=7.228819595258888, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#127: uascan(start=8.845098420671512, reference=8.844021654954028, finish=7.228819595258888, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#128: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.84859216238652, 53.84859216238652]', per_step='None')

#129: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843121099413906, 8.844921099413906]', per_step='None')

#130: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.67889216238652, 53.67889216238652]', per_step='None')

#131: uascan(start=8.845102587222442, reference=8.844025821504959, finish=7.228823761809818, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#132: uascan(start=8.845102587222442, reference=8.844025821504959, finish=7.228823761809818, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#133: uascan(start=8.845102587222442, reference=8.844025821504959, finish=7.228823761809818, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#134: uascan(start=8.845102587222442, reference=8.844025821504959, finish=7.228823761809818, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#135: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.58219216238651, 53.58219216238651]', per_step='None')

#136: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843123877114525, 8.844923877114525]', per_step='None')

#137: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.58539216238651, 53.58539216238651]', per_step='None')

#138: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#139: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#140: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#141: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#142: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.56659216238651, 53.56659216238651]', per_step='None')

#143: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843128321435517, 8.844928321435516]', per_step='None')

#144: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.685892162386516, 53.685892162386516]', per_step='None')

#145: uascan(start=8.845101753912257, reference=8.844024988194773, finish=7.228822928499633, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#146: uascan(start=8.845101753912257, reference=8.844024988194773, finish=7.228822928499633, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#147: uascan(start=8.845101753912257, reference=8.844024988194773, finish=7.228822928499633, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#148: uascan(start=8.845101753912257, reference=8.844024988194773, finish=7.228822928499633, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#149: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.682892162386516, 53.682892162386516]', per_step='None')

#150: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843124154884586, 8.844924154884586]', per_step='None')

#151: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.977792162386514, 53.977792162386514]', per_step='None')

#152: uascan(start=8.845097587361327, reference=8.844020821643843, finish=7.228818761948703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#153: uascan(start=8.845097587361327, reference=8.844020821643843, finish=7.228818761948703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#154: uascan(start=8.845097587361327, reference=8.844020821643843, finish=7.228818761948703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#155: uascan(start=8.845097587361327, reference=8.844020821643843, finish=7.228818761948703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#156: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.973992162386516, 53.973992162386516]', per_step='None')

#157: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843121099413906, 8.844921099413906]', per_step='None')

#158: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.01349216238651, 54.01349216238651]', per_step='None')

#159: uascan(start=8.845094809660708, reference=8.844018043943224, finish=7.228815984248084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#160: uascan(start=8.845094809660708, reference=8.844018043943224, finish=7.228815984248084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#161: uascan(start=8.845094809660708, reference=8.844018043943224, finish=7.228815984248084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#162: uascan(start=8.845094809660708, reference=8.844018043943224, finish=7.228815984248084, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#163: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.02309216238651, 54.02309216238651]', per_step='None')

#164: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843116655092915, 8.844916655092915]', per_step='None')

#165: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.045492162386516, 54.045492162386516]', per_step='None')

#166: uascan(start=8.845094531890645, reference=8.844017766173161, finish=7.228815706478021, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#167: uascan(start=8.845094531890645, reference=8.844017766173161, finish=7.228815706478021, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#168: uascan(start=8.845094531890645, reference=8.844017766173161, finish=7.228815706478021, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

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#350: WAXS(detectors=['waxs_det'], num=1)

#351: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.95909216238651, 53.95909216238651]', per_step='None')

#352: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843117210633038, 8.844917210633037]', per_step='None')

#353: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.03019216238651, 54.03019216238651]', per_step='None')

#354: uascan(start=8.845093420810398, reference=8.844016655092915, finish=7.2288145953977745, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#355: uascan(start=8.845093420810398, reference=8.844016655092915, finish=7.2288145953977745, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#356: uascan(start=8.845093420810398, reference=8.844016655092915, finish=7.2288145953977745, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#357: uascan(start=8.845093420810398, reference=8.844016655092915, finish=7.2288145953977745, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#358: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.94429216238652, 53.94429216238652]', per_step='None')

#359: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843115821782728, 8.844915821782728]', per_step='None')

#360: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.324792162386515, 53.324792162386515]', per_step='None')

#361: uascan(start=8.845108142623682, reference=8.844031376906198, finish=7.228829317211058, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#362: uascan(start=8.845108142623682, reference=8.844031376906198, finish=7.228829317211058, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#363: uascan(start=8.845108142623682, reference=8.844031376906198, finish=7.228829317211058, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#364: uascan(start=8.845108142623682, reference=8.844031376906198, finish=7.228829317211058, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#365: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.348992162386516, 53.348992162386516]', per_step='None')

#366: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843129988055887, 8.844929988055886]', per_step='None')

#367: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.400592162386516, 53.400592162386516]', per_step='None')

#368: uascan(start=8.845114809105167, reference=8.844038043387684, finish=7.2288359836925435, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#369: uascan(start=8.845114809105167, reference=8.844038043387684, finish=7.2288359836925435, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#370: uascan(start=8.845114809105167, reference=8.844038043387684, finish=7.2288359836925435, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#371: uascan(start=8.845114809105167, reference=8.844038043387684, finish=7.2288359836925435, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#372: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.41389216238652, 53.41389216238652]', per_step='None')

#373: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843136376767312, 8.844936376767311]', per_step='None')

#374: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.48869216238651, 53.48869216238651]', per_step='None')

#375: uascan(start=8.845119808966283, reference=8.8440430432488, finish=7.228840983553659, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#376: uascan(start=8.845119808966283, reference=8.8440430432488, finish=7.228840983553659, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#377: uascan(start=8.845119808966283, reference=8.8440430432488, finish=7.228840983553659, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#378: uascan(start=8.845119808966283, reference=8.8440430432488, finish=7.228840983553659, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#379: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.47509216238652, 53.47509216238652]', per_step='None')

#380: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84314165439849, 8.84494165439849]', per_step='None')

#381: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.56929216238652, 53.56929216238652]', per_step='None')

#382: uascan(start=8.845112031404549, reference=8.844035265687065, finish=7.228833205991925, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#383: uascan(start=8.845112031404549, reference=8.844035265687065, finish=7.228833205991925, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#384: uascan(start=8.845112031404549, reference=8.844035265687065, finish=7.228833205991925, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#385: uascan(start=8.845112031404549, reference=8.844035265687065, finish=7.228833205991925, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#386: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.57209216238651, 53.57209216238651]', per_step='None')

#387: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843134710146941, 8.84493471014694]', per_step='None')

#388: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.61689216238651, 53.61689216238651]', per_step='None')

#389: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#390: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#391: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#392: uascan(start=8.845109809244052, reference=8.844033043526569, finish=7.228830983831428, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#393: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.59069216238652, 53.59069216238652]', per_step='None')

#394: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843131376906198, 8.844931376906198]', per_step='None')

#395: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.629792162386515, 53.629792162386515]', per_step='None')

#396: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#397: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#398: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#399: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#400: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.687192162386516, 53.687192162386516]', per_step='None')

#401: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843128599205578, 8.844928599205577]', per_step='None')

#402: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.67679216238651, 53.67679216238651]', per_step='None')

#403: uascan(start=8.845109531473991, reference=8.844032765756507, finish=7.228830706061367, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#404: uascan(start=8.845109531473991, reference=8.844032765756507, finish=7.228830706061367, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#405: uascan(start=8.845109531473991, reference=8.844032765756507, finish=7.228830706061367, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#406: uascan(start=8.845109531473991, reference=8.844032765756507, finish=7.228830706061367, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#407: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.656992162386516, 53.656992162386516]', per_step='None')

#408: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843134432376878, 8.844934432376878]', per_step='None')

#409: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.73649216238651, 53.73649216238651]', per_step='None')

#410: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#411: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#412: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#413: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#414: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.722892162386515, 53.722892162386515]', per_step='None')

#415: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843127765895392, 8.844927765895392]', per_step='None')

#416: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.733992162386514, 53.733992162386514]', per_step='None')

#417: uascan(start=8.845105087153, reference=8.844028321435516, finish=7.228826261740376, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#418: uascan(start=8.845105087153, reference=8.844028321435516, finish=7.228826261740376, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#419: uascan(start=8.845105087153, reference=8.844028321435516, finish=7.228826261740376, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#420: uascan(start=8.845105087153, reference=8.844028321435516, finish=7.228826261740376, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#421: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.709592162386514, 53.709592162386514]', per_step='None')

#422: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843128599205578, 8.844928599205577]', per_step='None')

#423: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.843792162386514, 53.843792162386514]', per_step='None')

#424: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#425: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#426: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#427: uascan(start=8.84510675377337, reference=8.844029988055887, finish=7.228827928360746, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#428: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.809592162386515, 53.809592162386515]', per_step='None')

#429: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84313165467626, 8.844931654676259]', per_step='None')

#430: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.896892162386514, 53.896892162386514]', per_step='None')

#431: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#432: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#433: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#434: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#435: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.87129216238652, 53.87129216238652]', per_step='None')

#436: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843129988055887, 8.844929988055886]', per_step='None')

#437: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.93619216238651, 53.93619216238651]', per_step='None')

#438: uascan(start=8.845103976072751, reference=8.844027210355268, finish=7.2288251506601275, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#439: uascan(start=8.845103976072751, reference=8.844027210355268, finish=7.2288251506601275, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#440: uascan(start=8.845103976072751, reference=8.844027210355268, finish=7.2288251506601275, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#441: uascan(start=8.845103976072751, reference=8.844027210355268, finish=7.2288251506601275, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#442: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.90729216238651, 53.90729216238651]', per_step='None')

#443: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843126377045083, 8.844926377045082]', per_step='None')

#444: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.942292162386515, 53.942292162386515]', per_step='None')

#445: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#446: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#447: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#448: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#449: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.881092162386516, 53.881092162386516]', per_step='None')

#450: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843132210216384, 8.844932210216383]', per_step='None')

#451: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.997692162386514, 53.997692162386514]', per_step='None')

#452: uascan(start=8.845103142762566, reference=8.844026377045083, finish=7.228824317349942, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#453: uascan(start=8.845103142762566, reference=8.844026377045083, finish=7.228824317349942, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#454: uascan(start=8.845103142762566, reference=8.844026377045083, finish=7.228824317349942, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#455: uascan(start=8.845103142762566, reference=8.844026377045083, finish=7.228824317349942, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#456: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.978292162386516, 53.978292162386516]', per_step='None')

#457: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843125543734896, 8.844925543734895]', per_step='None')

#458: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.05739216238651, 54.05739216238651]', per_step='None')

#459: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#460: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#461: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#462: uascan(start=8.84510369830269, reference=8.844026932585207, finish=7.228824872890066, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#463: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.979492162386514, 53.979492162386514]', per_step='None')

#464: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843127210355268, 8.844927210355268]', per_step='None')

#465: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.93189216238651, 53.93189216238651]', per_step='None')

#466: uascan(start=8.845101476142194, reference=8.84402471042471, finish=7.22882265072957, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#467: uascan(start=8.845101476142194, reference=8.84402471042471, finish=7.22882265072957, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#468: uascan(start=8.845101476142194, reference=8.84402471042471, finish=7.22882265072957, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#469: uascan(start=8.845101476142194, reference=8.84402471042471, finish=7.22882265072957, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#470: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.91099216238651, 53.91099216238651]', per_step='None')

#471: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843124154884586, 8.844924154884586]', per_step='None')

#472: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.97749216238651, 53.97749216238651]', per_step='None')

#473: uascan(start=8.845111198094362, reference=8.844034432376878, finish=7.228832372681738, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#474: uascan(start=8.845111198094362, reference=8.844034432376878, finish=7.228832372681738, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#475: uascan(start=8.845111198094362, reference=8.844034432376878, finish=7.228832372681738, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#476: uascan(start=8.845111198094362, reference=8.844034432376878, finish=7.228832372681738, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#477: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.97499216238651, 53.97499216238651]', per_step='None')

#478: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843132765756508, 8.844932765756507]', per_step='None')

#479: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.036692162386515, 54.036692162386515]', per_step='None')

#480: uascan(start=8.845102864992503, reference=8.84402609927502, finish=7.228824039579879, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#481: uascan(start=8.845102864992503, reference=8.84402609927502, finish=7.228824039579879, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#482: uascan(start=8.845102864992503, reference=8.84402609927502, finish=7.228824039579879, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#483: uascan(start=8.845102864992503, reference=8.84402609927502, finish=7.228824039579879, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#484: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.03469216238651, 54.03469216238651]', per_step='None')

#485: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84312609927502, 8.84492609927502]', per_step='None')

#486: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.97349216238651, 53.97349216238651]', per_step='None')

#487: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#488: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#489: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#490: uascan(start=8.845107031543433, reference=8.84403026582595, finish=7.228828206130809, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#491: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.92139216238652, 53.92139216238652]', per_step='None')

#492: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843128321435517, 8.844928321435516]', per_step='None')

#493: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.939492162386514, 53.939492162386514]', per_step='None')

#494: uascan(start=8.845108975933867, reference=8.844032210216383, finish=7.228830150521243, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#495: uascan(start=8.845108975933867, reference=8.844032210216383, finish=7.228830150521243, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#496: uascan(start=8.845108975933867, reference=8.844032210216383, finish=7.228830150521243, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#497: uascan(start=8.845108975933867, reference=8.844032210216383, finish=7.228830150521243, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#498: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.932192162386514, 53.932192162386514]', per_step='None')

#499: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843131376906198, 8.844931376906198]', per_step='None')

#500: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.93769216238651, 53.93769216238651]', per_step='None')

#501: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#502: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#503: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#504: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#505: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.96419216238652, 53.96419216238652]', per_step='None')

#506: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84313165467626, 8.844931654676259]', per_step='None')

#507: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.966892162386515, 53.966892162386515]', per_step='None')

#508: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#509: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#510: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#511: uascan(start=8.845108420393743, reference=8.84403165467626, finish=7.228829594981119, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#512: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.972692162386515, 53.972692162386515]', per_step='None')

#513: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84313165467626, 8.844931654676259]', per_step='None')

#514: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.05179216238651, 54.05179216238651]', per_step='None')

#515: uascan(start=8.845100365061946, reference=8.844023599344462, finish=7.228821539649322, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#516: uascan(start=8.845100365061946, reference=8.844023599344462, finish=7.228821539649322, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#517: uascan(start=8.845100365061946, reference=8.844023599344462, finish=7.228821539649322, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#518: uascan(start=8.845100365061946, reference=8.844023599344462, finish=7.228821539649322, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#519: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.06189216238651, 54.06189216238651]', per_step='None')

#520: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843121377183968, 8.844921377183967]', per_step='None')

#521: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.99059216238651, 53.99059216238651]', per_step='None')

#522: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#523: uascan(start=8.845105920463185, reference=8.844029154745702, finish=7.228827095050561, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#524: SAXS(detectors=['saxs_det'], num=1)

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#622: WAXS(detectors=['waxs_det'], num=1)

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no plot: #635 WAXS(detectors=['waxs_det'], num=1)

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#718: WAXS(detectors=['waxs_det'], num=1)

#719: WAXS(detectors=['waxs_det'], num=1)

#720: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.954892162386514, 53.954892162386514]', per_step='None')

#721: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843129154745702, 8.844929154745701]', per_step='None')

#722: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.23719216238651, 54.23719216238651]', per_step='None')

#723: uascan(start=8.845090087569654, reference=8.84401332185217, finish=7.22881126215703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#724: uascan(start=8.845090087569654, reference=8.84401332185217, finish=7.22881126215703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#725: uascan(start=8.845090087569654, reference=8.84401332185217, finish=7.22881126215703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#726: uascan(start=8.845090087569654, reference=8.84401332185217, finish=7.22881126215703, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#727: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.19479216238651, 54.19479216238651]', per_step='None')

#728: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843112210771924, 8.844912210771923]', per_step='None')

#729: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.465592162386514, 53.465592162386514]', per_step='None')

#730: uascan(start=8.845113142484795, reference=8.844036376767312, finish=7.228834317072171, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#731: uascan(start=8.845113142484795, reference=8.844036376767312, finish=7.228834317072171, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#732: uascan(start=8.845113142484795, reference=8.844036376767312, finish=7.228834317072171, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#733: uascan(start=8.845113142484795, reference=8.844036376767312, finish=7.228834317072171, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)

#734: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.43429216238651, 53.43429216238651]', per_step='None')

#735: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843139154467933, 8.844939154467932]', per_step='None')

#736: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.685892162386516, 53.685892162386516]', per_step='None')

#737: uascan(start=8.84510536492306, reference=8.844028599205577, finish=7.228826539510437, minStep=2e-05, dx0=98.00668199999998, SDD_mm=1077.0, ax0=14.66, SAD_mm=248.0, exponent=1.1, intervals=300, count_time=0.3)