Difference between revisions of "BLLac2022flare"
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==Data-taking information== | ==Data-taking information== | ||
* '''Dates of data-taking''': | * '''Dates of data-taking''': | ||
− | ** Date ( | + | ** Date: 16/09/2022-25/11/2022 (53 h before cuts) |
***ZD range (deg): 15-60 deg | ***ZD range (deg): 15-60 deg | ||
***AZ range (deg): 0-60 and 300-360 deg | ***AZ range (deg): 0-60 and 300-360 deg | ||
***Runs: | ***Runs: | ||
+ | <nowiki> | ||
+ | 1 : 2022-09-16 : 9228 to 9232 | ||
+ | 2 : 2022-09-21 : 9262 to 9268 | ||
+ | 3 : 2022-09-22 : 9347 to 9350 | ||
+ | 4: 2022-10-01: 9453 to 9461 | ||
+ | 5: 2022-10-03: 9544 to 9555 | ||
+ | 6: 2022-10-15: 9631 to 9635 | ||
+ | 7: 2022-10-16: 9648 | ||
+ | 8: 2022-10-17: 9678 to 9685 | ||
+ | 9: 2022-10-18: 9697 to 9706 | ||
+ | 10: 2022-10-19: 9729 to 9739 | ||
+ | 11: 2022-10-20: 9753 to 9761 | ||
+ | 12: 2022-10-21: 9808 to 9815 | ||
+ | 13: 2022-10-23: 9836 to 9848 | ||
+ | 14: 2022-10-24: 9864 to 9873 | ||
+ | 15: 2022-10-25: 9892 to 9900 | ||
+ | 16: 2022-10-26: 9921 to 9924 | ||
+ | 17: 2022-10-27: 9940 to 9944 | ||
+ | 18: 2022-10-28: 9969 to 9973 | ||
+ | 19: 2022-10-29: 9993 to 9995 | ||
+ | 20: 2022-10-31: 10022 to 10029 | ||
+ | 21: 2022-11-01: 10069 to 10076 | ||
+ | 22: 2022-11-02: 10193 to 10204 | ||
+ | 23: 2022-11-13: 10508 to 10512 | ||
+ | 24: 2022-11-14: 10521 to 10523 | ||
+ | 25: 2022-11-15: 10586 to 10588 | ||
+ | 26: 2022-11-16: 10616 to 10620 | ||
+ | 27: 2022-11-17: 10652 to 10655 | ||
+ | 28: 2022-11-18: 10827 to 10830 | ||
+ | 29: 2022-11-19: 10870 to 10872 | ||
+ | 30: 2022-11-25: 11033 to 11037 | ||
+ | </nowiki> | ||
Revision as of 09:48, 6 June 2024
Contents
BL Lacertae 2022 flare project
General information
- Name of the source: BL Lacertae
- Brief description of the source:
- - Object type : Blazar
- - RA: 22 02 43.3 (hh mm ss), Dec: +42 16 40 (dd mm ss)
- Analysis by:
- Jorge Otero Santos (IAA-CSIC, joteros@iaa.es)
- Daniel Morcuende (IAA-CSIC, dmorcuende@iaa.es)
Data-taking information
- Dates of data-taking:
- Date: 16/09/2022-25/11/2022 (53 h before cuts)
- ZD range (deg): 15-60 deg
- AZ range (deg): 0-60 and 300-360 deg
- Runs:
- Date: 16/09/2022-25/11/2022 (53 h before cuts)
1 : 2022-09-16 : 9228 to 9232 2 : 2022-09-21 : 9262 to 9268 3 : 2022-09-22 : 9347 to 9350 4: 2022-10-01: 9453 to 9461 5: 2022-10-03: 9544 to 9555 6: 2022-10-15: 9631 to 9635 7: 2022-10-16: 9648 8: 2022-10-17: 9678 to 9685 9: 2022-10-18: 9697 to 9706 10: 2022-10-19: 9729 to 9739 11: 2022-10-20: 9753 to 9761 12: 2022-10-21: 9808 to 9815 13: 2022-10-23: 9836 to 9848 14: 2022-10-24: 9864 to 9873 15: 2022-10-25: 9892 to 9900 16: 2022-10-26: 9921 to 9924 17: 2022-10-27: 9940 to 9944 18: 2022-10-28: 9969 to 9973 19: 2022-10-29: 9993 to 9995 20: 2022-10-31: 10022 to 10029 21: 2022-11-01: 10069 to 10076 22: 2022-11-02: 10193 to 10204 23: 2022-11-13: 10508 to 10512 24: 2022-11-14: 10521 to 10523 25: 2022-11-15: 10586 to 10588 26: 2022-11-16: 10616 to 10620 27: 2022-11-17: 10652 to 10655 28: 2022-11-18: 10827 to 10830 29: 2022-11-19: 10870 to 10872 30: 2022-11-25: 11033 to 11037
- Joint observations with MAGIC? : No
Monte Carlo information
- Link to MC files used:
- Particle types:
- ZD (deg): Zenith Range
- AZ (deg): Azimuth Range
DL1 data
Please include your settings to produce your DL1a and DL1b files. This includes whether you use LSTOSA, specific versions of lstchain, dllab scripts, cleaning levels, and calibration information.
Example :
Reprocessed using DL1a files produced by LSTOSA (lstchain v0.7.3) and dl1ab script (v0.7.5)
- original DL1a files
/fefs/aswg/data/real/DL1/20210808/v0.7.3/tailcut84/dl1_LST-1.Run0XXXX.XXXX.h5 /fefs/aswg/data/mc/DL1/20200629_prod5_trans_80/XXX/zenith_20deg/south_pointing/20210416_v0.7.3_prod5_trans_80_local_taicut_8_4/
- lstchain v0.7.5
- real data: tailcut8-4 (with cleaning based on pedestal RMS), dynamic cleaning
/fefs/aswg/workspace/seiya.nozaki/data/BLLac/v0.7.3/tailcut84_dynamic_v075/DL1_raw/lstchain_standard_config.json
- MC: tailcut8-4 (with cleaning based on pedestal RMS), dynamic cleaning, PSF+NSB tuning
"image_modifier": { "increase_nsb": true, "extra_noise_in_dim_pixels": 0.74, "extra_bias_in_dim_pixels": 0.38, "transition_charge": 8, "extra_noise_in_bright_pixels": 0.052, "increase_psf": true, "smeared_light_fraction": 0.125 },
/fefs/aswg/workspace/seiya.nozaki/data/MC/v0.7.5/tailcut84_dynamic_bllac/DL1_raw/lstchain_dl1ab_tune_MC_to_BLLac_config.json
- Produced DL1b files
/fefs/aswg/workspace/seiya.nozaki/data/MC/v0.7.5/tailcut84_dynamic_bllac/DL1_raw/data/ /fefs/aswg/workspace/seiya.nozaki/data/BLLac/v0.7.3/tailcut84_dynamic_v075/DL1_raw/Run0XXXX
Random forest
Please include your specific .json files used in producing your RFs and for which source analysis (source dependent or independent), and variabules used in the RF.
Example
- lstchain-0.7.6.dev242+g2086cb9
- source-indep (diffuse gamma, src_r<3deg, disp_norm)
/fefs/aswg/workspace/seiya.nozaki/data/MC/v0.7.5/tailcut84_dynamic_bllac/srcindep/RF/lstchain_standard_config.json
- source-dep
/fefs/aswg/workspace/seiya.nozaki/data/MC/v0.7.5/tailcut84_dynamic_bllac/srcdep/RF/lstchain_src_dep_config.json
DL2 data
Information about your DL2 data and settings such as: specific versions of lstchain, specific .json version used.
Example:
- lstchain-0.7.6.dev242+g2086cb9
- source-indep
/fefs/aswg/workspace/seiya.nozaki/data/MC/v0.7.5/tailcut84_dynamic_bllac/srcindep/DL2/data/ /fefs/aswg/workspace/seiya.nozaki/data/BLLac/v0.7.3/tailcut84_dynamic_v075/srcindep/DL2/data/dl2_LST-1.Run0XXXX_merged.h5
- source-dep
/fefs/aswg/workspace/seiya.nozaki/data/MC/v0.7.5/tailcut84_dynamic_bllac/srcdep/DL2/data/ /fefs/aswg/workspace/seiya.nozaki/data/BLLac/v0.7.3/tailcut84_dynamic_v075/srcdep/DL2/data/dl2_LST-1.Run0XXXX_merged.h5
DL3 data selection
Information about your DL3 data selection.
Example
- intensity > 50
- r: [0, 1 ]
- wl: [0.1, 1 ]
- leakage_intensity_width_2: [0, 0.2 ]
- source-indep
- fixed_gh_cut: 0.3
- fixed_theta_cut: 0.2
- source-dep
- fixed_gh_cut: 0.7
- fixed_alpha_cut: 10
High-level analysis
Please put any information about the production of higher level analysis here.
Example
- lstchain to generate source-dep IRF, DL3
- Science Tool: gammapy 0.18.2
- point-like IRF, 1D analysis
Analysis Results
Please place higher-level analysis results (Spectra, SkyMaps, Lightcurves, etc) here.