SPEC scans from: /share1/USAXS_data/2023-03/03_18_Alfa/03_18_Alfa.dat

spec file: /share1/USAXS_data/2023-03/03_18_Alfa/03_18_Alfa.dat

#2: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841491013077707, 8.846491013077706]', per_step='None')

#3: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843355815116247, 8.845155815116247]', per_step='None')

#4: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 44.62139216238651, 56.62139216238651]', per_step='None')

#5: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841330179744373, 8.846330179744372]', per_step='None')

#6: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843361926057609, 8.845161926057608]', per_step='None')

#7: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.51159216238651, 54.51159216238651]', per_step='None')

#8: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841323513077707, 8.846323513077706]', per_step='None')

#9: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843284150440265, 8.845084150440265]', per_step='None')

#10: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.092092162386514, 54.092092162386514]', per_step='None')

#11: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841293513077707, 8.846293513077706]', per_step='None')

#12: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84318331990778, 8.84498331990778]', per_step='None')

#13: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.87429216238652, 53.87429216238652]', per_step='None')

#14: documentation_run()

#15: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.816892162386516, 53.816892162386516]', per_step='None')

#16: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843186375378462, 8.844986375378461]', per_step='None')

#17: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.79169216238651, 53.79169216238651]', per_step='None')

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

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

#20: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.84130434641104, 8.846304346411038]', per_step='None')

#21: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843178597816728, 8.844978597816727]', per_step='None')

#22: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.764192162386514, 53.764192162386514]', per_step='None')

#23: documentation_run()

#24: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.92489216238651, 53.92489216238651]', per_step='None')

#25: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843168042554375, 8.844968042554374]', per_step='None')

#26: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.82059216238651, 53.82059216238651]', per_step='None')

#27: uascan(start=8.845130641998699, reference=8.844053876281215, finish=7.228851816586075, 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=8.845130641998699, reference=8.844053876281215, finish=7.228851816586075, 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: SAXS(detectors=['saxs_det'], num=1)

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

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

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

#33: tune_mr(detectors=('I0_USAXS',), num=31, args='['m_stage_r', 8.841295179744373, 8.846295179744372]', per_step='None')

#34: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843153876281216, 8.844953876281215]', per_step='None')

#35: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.63399216238651, 53.63399216238651]', per_step='None')

#36: documentation_run()

#37: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.75719216238652, 53.75719216238652]', per_step='None')

#38: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843155542901586, 8.844955542901586]', per_step='None')

#39: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.688892162386516, 53.688892162386516]', per_step='None')

#40: uascan(start=8.845122586666902, reference=8.844045820949418, finish=7.228843761254278, 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=8.845122586666902, reference=8.844045820949418, finish=7.228843761254278, 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=8.845122586666902, reference=8.844045820949418, finish=7.228843761254278, 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=8.845122586666902, reference=8.844045820949418, finish=7.228843761254278, 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', 41.60659216238651, 53.60659216238651]', per_step='None')

#45: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843145543179357, 8.844945543179357]', per_step='None')

#46: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.631292162386515, 53.631292162386515]', per_step='None')

#47: uascan(start=8.845131197538821, reference=8.844054431821338, finish=7.228852372126197, 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=8.845131197538821, reference=8.844054431821338, finish=7.228852372126197, 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=8.845131197538821, reference=8.844054431821338, finish=7.228852372126197, 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=8.845131197538821, reference=8.844054431821338, finish=7.228852372126197, 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', 41.63529216238651, 53.63529216238651]', per_step='None')

#52: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843153876281216, 8.844953876281215]', per_step='None')

#53: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.721392162386515, 53.721392162386515]', per_step='None')

#54: uascan(start=8.845130641998699, reference=8.844053876281215, finish=7.228851816586075, 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=8.845130641998699, reference=8.844053876281215, finish=7.228851816586075, 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=8.845130641998699, reference=8.844053876281215, finish=7.228851816586075, 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=8.845130641998699, reference=8.844053876281215, finish=7.228851816586075, 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', 41.73279216238652, 53.73279216238652]', per_step='None')

#59: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843152209660843, 8.844952209660843]', per_step='None')

#60: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.73349216238651, 53.73349216238651]', per_step='None')

#61: uascan(start=8.845128697608265, reference=8.844051931890782, finish=7.228849872195641, 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=8.845128697608265, reference=8.844051931890782, finish=7.228849872195641, 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=8.845128697608265, reference=8.844051931890782, finish=7.228849872195641, 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=8.845128697608265, reference=8.844051931890782, finish=7.228849872195641, 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', 41.71489216238651, 53.71489216238651]', per_step='None')

#66: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843153598511153, 8.844953598511152]', per_step='None')

#67: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.909992162386516, 53.909992162386516]', per_step='None')

#68: uascan(start=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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', 41.87599216238652, 53.87599216238652]', per_step='None')

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

#74: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.579092162386516, 53.579092162386516]', per_step='None')

#75: uascan(start=8.845127864298078, reference=8.844051098580595, finish=7.228849038885454, 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=8.845127864298078, reference=8.844051098580595, finish=7.228849038885454, 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=8.845127864298078, reference=8.844051098580595, finish=7.228849038885454, 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=8.845127864298078, reference=8.844051098580595, finish=7.228849038885454, 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', 41.58749216238652, 53.58749216238652]', per_step='None')

#80: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.84315026527041, 8.844950265270409]', per_step='None')

#81: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.916592162386515, 53.916592162386515]', per_step='None')

#82: uascan(start=8.84512092004653, reference=8.844044154329046, finish=7.228842094633905, 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=8.84512092004653, reference=8.844044154329046, finish=7.228842094633905, 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=8.84512092004653, reference=8.844044154329046, finish=7.228842094633905, 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=8.84512092004653, reference=8.844044154329046, finish=7.228842094633905, 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', 41.91609216238651, 53.91609216238651]', per_step='None')

#87: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843144987639233, 8.844944987639233]', per_step='None')

#88: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.74959216238651, 53.74959216238651]', per_step='None')

#89: uascan(start=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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=8.845123419977087, reference=8.844046654259603, finish=7.228844594564463, 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', 41.701292162386515, 53.701292162386515]', per_step='None')

#94: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843147209799728, 8.844947209799727]', per_step='None')

#95: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.774092162386516, 53.774092162386516]', per_step='None')

#96: uascan(start=8.845118975656096, reference=8.844042209938612, finish=7.228840150243472, 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=8.845118975656096, reference=8.844042209938612, finish=7.228840150243472, 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=8.845118975656096, reference=8.844042209938612, finish=7.228840150243472, 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=8.845118975656096, reference=8.844042209938612, finish=7.228840150243472, 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', 41.768292162386516, 53.768292162386516]', per_step='None')

#101: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843140821088303, 8.844940821088302]', per_step='None')

#102: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.88909216238651, 53.88909216238651]', per_step='None')

#103: 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)

#104: 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)

#105: 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)

#106: 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)

#107: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.865692162386516, 53.865692162386516]', per_step='None')

#108: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843138043387684, 8.844938043387684]', per_step='None')

#109: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.77029216238651, 53.77029216238651]', per_step='None')

#110: 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)

#111: 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)

#112: 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)

#113: 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)

#114: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.739792162386514, 53.739792162386514]', per_step='None')

#115: tune_ar(detectors=('PD_USAXS',), num=35, args='['a_stage_r', 8.843135543457127, 8.844935543457126]', per_step='None')

#116: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.13569216238651, 54.13569216238651]', per_step='None')

#117: 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)

#118: 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)

#119: 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)

#120: 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)

#121: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 42.14619216238651, 54.14619216238651]', per_step='None')

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

#123: tune_a2rp(detectors=('PD_USAXS',), num=31, args='['a_stage_r2p', 41.81159216238652, 53.81159216238652]', per_step='None')

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

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