Version 7.1 by sndueste on 2024/06/24 15:00
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sndueste 1.1 1 {{toc/}}
2
sndueste 2.1 3
4
5 == how to find the public data in the gamma portal ==
6
7
8 [[image:attach:image2023-9-28_16-42-5.png||height="250"]]
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10
11
sndueste 1.1 12 == FL21 ==
13
sndueste 4.1 14 === **Data:   ** ===
sndueste 1.1 15
16 /asap3/flash/gpfs/fl21/2022/data/11015507/raw/hdf/offline/fl2user2~/~/FLASH2_USER2_stream_2_run41519_file1_20211019T152756.1
17
sndueste 4.1 18 === **analysis file **: ===
sndueste 1.1 19
sndueste 4.1 20 /asap3/flash/gpfs/fl21/2022/data/11015507/processed/Example_analysis_THz_streaking_run41519.ipynb     
sndueste 1.1 21
22 {{view-file att--filename="Example_analysis_THz_streaking_run41519.pdf" height="150"/}}
23
24 === **description**: ===
25
sndueste 4.1 26 (% style="color:#333333" %)Experiment: THz streaking(%%)
27 (% style="color:#333333" %)Beamline: FL21(%%)
28 (% style="color:#333333" %)Instrument: THz streaking (%%)
29 (% style="color:#333333" %)Sample: Neon
sndueste 1.1 30
31 The data was taken as part of the THz streaking photon diagnostic shifts. it contains GMD data and Time of Flight data ( recorded with the FLASH GHz ADCs) as well as beam arrival time (BAM) data.
32
33 we show how to read and interpolate the GMD data, look at the TOF data and sort a delay scan with the BAM
34
35 === **suggested reading:** ===
36
sndueste 4.1 37 (% style="color:#172b4d" %)R. Ivanov, (% class="nowrap" %)I. Bermúdez Macias(%%), (% class="nowrap" %)J. Liu(%%), (% class="nowrap" %)G. Brenner(%%), (% class="nowrap" %)J. Roensch-Schulenburg(%%), (% class="nowrap" %)G. Kurdi(%%), (% class="nowrap" %)U. Fruehling, K, Wenig(%%), (% class="nowrap" %)S Walther(%%), (% class="nowrap" %)A Dimitriou(% class="reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %), (% class="nowrap reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %)M Drescher(% class="reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %), (% class="nowrap reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %)I P Sazhina(% class="reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %), (% class="nowrap reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %)A K Kazansky(% class="reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %), (% class="nowrap reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %)N M Kabachnik(% class="reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %) and (% class="nowrap reveal-container reveal-content reveal-enabled reveal-no-animation reveal-plus-icon" %)S. Düsterer(%%)
38 (% style="text-align:left" %)//Single-shot temporal characterization of XUV pulses with duration from ~~10 fs to ~~350 fs at FLASH//(%%)
39 (% style="color:#172b4d" %)J. Phys. B: At. Mol. Opt. Phys. (2020)(%%)
40 (% class="Object" %)__[[https:~~/~~/doi.org/10.1088/1361-6455/ab9c38>>url:https://doi.org/10.1088/1361-6455/ab9c38||rel="nofollow" shape="rect" class="external-link"]]__
sndueste 1.1 41
42 Dennis Mayer, Fabiano Lever and Markus Gühr,  ** **
sndueste 4.1 43 //Data analysis procedures for time-resolved x-ray photoelectron spectroscopy at a SASE free-electron-laser,//
44 Phys. B: At. Mol. Opt. Phys. **55**, 054002 (2022); [[https:~~/~~/doi.org/10.1088/1361-6455/ac3c91>>url:https://doi.org/10.1088/1361-6455/ac3c91||rel="nofollow" shape="rect" class="external-link"]]
sndueste 1.1 45
46
47 == FL24 ==
48
sndueste 4.1 49 === **Data:   ** ===
sndueste 1.1 50
sndueste 4.1 51 /asap3/flash/gpfs/fl24/2023/data/11017906/raw/hdf/offline/fl2user1/
sndueste 1.1 52
53
sndueste 4.1 54 === **analysis file **: ===
sndueste 1.1 55
sndueste 4.1 56 asap3/flash/gpfs/fl24/2023/data/11017906/shared/data_loading.ipynb
sndueste 1.1 57
sndueste 4.1 58 {{view-file att--filename="data_loading.pdf" height="150"/}}
sndueste 6.1 59
sndueste 4.1 60 [[attach:data_loading.pdf||target="_blank"]]
61
62 and other python files in this folder
63
sndueste 1.1 64 === **description**: ===
65
sndueste 4.1 66 (% style="color:#333333" %)Experiment: Photoelectron spectroscopy(%%)
67 (% style="color:#333333" %)Beamline: FL24(%%)
68 (% style="color:#333333" %)Instrument: URSAPQ(%%)
69 (% style="color:#333333" %)Sample:  ?
sndueste 1.1 70
71 === **suggested reading:** ===
72
73 Jan Metje, Fabiano Lever, Dennis Mayer, Richard James Squibb, Matthew S. Robinson, Mario Niebuhr, Raimund Feifel, Stefan Düsterer, Markus Gühr,
74 //URSA-PQ: A Mobile and Flexible Pump-Probe Instrument for Gas Phase Samples at the FLASH Free Electron Laser//,
sndueste 4.1 75 Appl. Sci. **10**, 7882 (2020); [[http:~~/~~/dx.doi.org/10.3390/app10217882>>url:http://dx.doi.org/10.3390/app10217882||shape="rect" style="text-decoration: none;"]]
sndueste 1.1 76
77 == PG1 ==
78
79 === **Data:** ===
80
81 /asap3/flash/gpfs/pg1/2023/data/11017909/raw/hdf/offline/fl1user3
82
sndueste 4.1 83 (% style="color:#333333" %)runs 43622 and 43624  (25 GB in total)
sndueste 1.1 84
sndueste 4.1 85 === **analysis file **: ===
sndueste 1.1 86
sndueste 4.1 87 asap3/flash/gpfs/pg1/2023/data/11017909/processed/[[attach:PG1_data_analysis_Si_example_FAB.ipynb]] (version using the new FAB library)
sndueste 1.1 88
89
sndueste 4.1 90 asap3/flash/gpfs/pg1/2023/data/11017909/processed/previous_analysis/[[attach:PG1_data_analysis_Si_example.ipynb]] (version using the depreciated flashdaqhdfutils library )
sndueste 1.1 91
92 {{view-file att--filename="PG1_data_analysis_Si_example.pdf" height="150"/}}
93
94 ===
sndueste 4.1 95 (% style="color:#333333" %)** Description:**(%%) ===
sndueste 1.1 96
sndueste 4.1 97 (% style="color:#333333" %) Experiment: time-resolved RIXS(%%)
98 (% style="color:#333333" %) Beamline: PG1(%%)
99 (% style="color:#333333" %) Instrument: TRIXS end station(%%)
100 (% style="color:#333333" %) Sample: Si(%%)
101 \\(% style="color:#333333" %) Sample was pumped with an optical laser and probed via soft X-ray RIXS by(%%)
102 (% style="color:#333333" %) varying the time delay between the optical laser and FEL.(%%)
103 (% style="color:#333333" %) Time delay was changed repeatedly from 2935 ps to 2939 ps (these are the delay(%%)
104 (% style="color:#333333" %) line encoder values of the optical laser ) in steps of 400fs, 1000 samples per(%%)
105 (% style="color:#333333" %) delay step.(%%)
106 \\(% style="color:#333333" %) RIXS images were collected via CCD camera (not full chip, only narrow region of(%%)
107 (% style="color:#333333" %) interest), operated in long exposure mode of 5 sec (integrating several FEL(%%)
108 (% style="color:#333333" %) trains per image).(%%)
109
sndueste 1.1 110
111 === **suggested reading:** ===
112
113 S. Dziarzhytski, M. Biednov, B. Dicke, A. Wang, P. S. Miedema, R. Y. Engel, J. O. Schunck, H. Redlin, H. Weigelt, F. Siewert, C. Behrens, M. Sinha, A. Schulte, B. Grimm-Lebsanft, S. G. Chiuzbăian, W. Wurth, M. Beye, M. Rübhausen, and G. Brenner,
114 //The TRIXS end-station for femtosecond time-resolved resonant inelastic x-ray scattering experiments at the soft x-ray free-electron laser FLASH//,
sndueste 4.1 115 Struct. Dyn. **7**, 054301 (2020); [[https:~~/~~/doi.org/10.1063/4.0000029>>url:https://doi.org/10.1063/4.0000029||shape="rect" style="text-decoration: none;"]]
sndueste 1.1 116
117
118
119 == PG2 / HEXTOF ==
120
121 === **Data:** ===
122
123 /asap3/flash/gpfs/pg2/2023/data/11019101/raw/hdf/offline/fl1user3/
124
kutnyakd 6.5 125 Runs for standard example of hextof workflow (from Spin-Gd/W(110) beamtime, ID 11013410):
sndueste 1.1 126
127 * 44762 - chessy sample for PEEM mode calibration
128 * 44797 - energy calibration
kutnyakd 6.5 129 * 44798 and 44799 - optical spot profile with two different fluences
sndueste 1.1 130 * 44824, 44825, 44826 and 44827 - trMM data
131
sndueste 4.1 132 (% style="color:#333333" %)(3.5 GB in total)
sndueste 1.1 133
kutnyakd 6.5 134 ===== **analysis file**: =====
sndueste 1.1 135
kutnyakd 6.4 136 /asap3/flash/gpfs/pg2/2023/data/11019101/processed/4_hextof_workflow.ipynb
sndueste 1.1 137
kutnyakd 6.5 138 __ __
139
140 Runs for example of BAM corrections (from H. Bentmann beamtime, ID 11013426):
141
142 * 44455 - energy calibration for W4f core level lines
143 * 44498 - trXPS dataset - t0 using side bands on W4f for BAM correction
144
145 (0.9 GB in total)
146
147 ===== **analysis file**: =====
148
149 /asap3/flash/gpfs/pg2/2023/data/11019101/processed/hextof_workflow_bam_correction.ipynb - coming soon
150
151
sndueste 1.1 152 ===
sndueste 4.1 153 (% style="color:#333333" %)** Description:**(%%) ===
sndueste 1.1 154
sndueste 4.1 155 (% style="color:#333333" %) Experiment: time-resolved momentum microscopy(%%)
156 (% style="color:#333333" %) Beamline: PG2(%%)
157 (% style="color:#333333" %) Instrument: HEXTOF(%%)
158 (% style="color:#333333" %) Samples: Chessy and Gd/W(110)(%%)
159
sndueste 1.1 160
kutnyakd 3.1 161 Run 44762 was measured with a Hg lamp on the test "Chessy" sample to calibrate FoV in µm in the PEEM mode.
162
sndueste 4.1 163 Runs 44798 and 44799 - optical spot profile measured in PEEM mode under the same settings as run 44762
164 with two different attenuations of the pump laser to determine the spot size of the pump laser.
165 This is needed to estimate pump fluence during trMM runs (44824, 44825, 44826 and 44827) using values
kutnyakd 3.1 166 of I,,0,, monitor of the pump laser.
167
168 Runs 44797 - measured with 36.2 eV in k-mode with manually variable sample bias from 28 to 32V by 1 V 
169 every 2000 shots to calibrate the energy scale.
170 This energy calibration has to be used for trMM data.
171
sndueste 4.1 172 Runs 44824, 44825, 44826 and 44827 were measured (% style="color:#333333" %)from Gd/W(110) sample which was pumped with
173 a 1030 nm s-polarized optical laser and probed with 36.2 eV for time-resolved momentum microscopy (trARPES)
kutnyakd 3.1 174 varying the time delay between the optical laser and FEL. The time delay was changed in ZigZag manner repeatedly
175 from 1462.00 ps to 1464.85 ps with 200 steps and 1 sec waiting time at each step.
176
sndueste 1.1 177 === **suggested reading:** ===
178
179 1. D. Kutnyakhov, R.P. Xian, M. Dendzik, M. Heber, F. Pressacco, S.Y.  Agustsson, L. Wenthaus, H. Meyer, S. Gieschen, G. Mercurio, A. Benz, K. Bühlman, S. Däster, R. Gort, D. Curcio, K. Volckaert, M. Bianchi, Ch. Sanders, J A. Miwa, S. Ulstrup, A. Oelsner, C. Tusche, Y.-J. Chen, D. Vasilyev, K. Medjanik, G. Brenner, S. Dziarzhytski, H. Redlin, B. Manschwetus, S. Dong, J. Hauer, L. Rettig, F. Diekmann, K. Rossnagel, J. Demsar, H.-J. Elmers, Ph. Hofmann, R. Ernstorfer, G. Schönhense, Y. Acremann, and W. Wurth,
180 //Time- and momentum-resolved photoemission studies using time-of-flight momentum microscopy at a free-electron laser//,
181 Rev. Sci. Instrum. **91**, 013109 (2020);
182 [[https:~~/~~/doi.org/10.1063/1.5118777>>url:https://doi.org/10.1063/1.5118777||rel="nofollow" shape="rect" class="external-link"]]
kutnyakd 6.2 183 1. Single Event Data Frame Processor used as a backend to handle photoelectron resolved data streams
kutnyakd 3.1 184 [[https:~~/~~/github.com/OpenCOMPES/sed>>url:https://github.com/OpenCOMPES/sed||shape="rect"]]
kutnyakd 6.2 185 1. Tutorial of typical data analysis workflow using sample data
186 [[https:~~/~~/opencompes.github.io/sed/tutorial/4_hextof_workflow.html#>>https://opencompes.github.io/sed/tutorial/4_hextof_workflow.html#]]