QC documentation system: QC procedure pionier_OIFITS

QC documentation system: QC procedure pionier_OIFITS_fringeQC.py for PIONIER

This documentation is intended both for QC scientists and SciOps astronomers (who may want to ignore the technical information displayed in grey).

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pionier_badpix.py	pionier_darkQC.py	pionier_kappaQC.py	pionier_speccalQC.py
pionier_OIFITS_fringeQC.py	pionier_OIFITS_intfringeQC.py

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NAME

pionier_OIFITS_fringeQC.py

VERSION

1.0 -- 2015-06-06

SYNTAX

Python

CALL

measureQuality
from $DFS_PRODUCT/CALIB_FRINGE/$DATE:
pionier_OIFITS_fringeQC.py -a $AB

INSTRUMENT

PIONIER

RAWTYPE

CALIB_FRINGE

PURPOSE

a) generates QC reports

PROCINPUT

No special input is required:
a) $DATE is read from the input AB
c) frames are implicitly read from the AB.

QC1TABLE

trending | table(s) in QC1 database:
pionier_fringe

TRENDPLOT

trending | HealthCheck plot(s) associated to this procedure:
trend_report_VIS_HC.html

QC1PAGE

trending | associated documentation:
interferometry_qc1.html

QC1PLOTS
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r.PIONI.2016-06-01T01:57:29.124_0000.png

r.PIONI.2016-06-01T01:57:29.124_0000_avraw.png

r.PIONI.2016-06-01T01:57:29.124_0000_channels.png

r.PIONI.2016-06-01T01:57:29.124_0000_combined_raw.png

r.PIONI.2016-06-01T01:57:29.124_0000_raw.png

r.PIONI.2016-06-01T01:57:29.124_0001.png

r.PIONI.2016-06-01T01:57:29.124_0002.png

r.PIONI.2016-06-01T01:57:29.124_0003.png

r.PIONI.2016-06-01T01:57:29.124_0004.png

QC1PARAM

QC1 parameters written into QC1 table :

SOURCE(header/script)       DBNAME                 value          description 

 QC.FLUX1.AVG flux1_avg  300 flux_optical_train1_in_adu

 QC.FLUX1.RMS flux1_rms  10 error_on_flux_optical_train1_in_adu

 QC.FLUX2.AVG flux2_avg  300 flux_optical_train2_in_adu

 QC.FLUX2.RMS flux2_rms  10 error_on_flux_optical_train2_in_adu 

 QC.FLUX3.AVG flux3_avg  300 flux_optical_train3_in_adu

 QC.FLUX3.RMS flux3_rms  10 error_on_flux_optical_train3_in_adu

 QC.FLUX4.AVG flux4_avg  300 flux_optical_train4_in_adu

 QC.FLUX4.RMS flux4_rms  10 error_on_flux_optical_train4_in_adu

 QC.PHI123.AVG phi123_avg Averaged_Closure_phase_baseline123 

 QC.PHI123.ERR phi123_err error_Closure_phase_baseline123 

 QC.PHI124.AVG phi124_avg Averaged_Closure_phase_baseline124 

 QC.PHI124.ERR phi124_err error_Closure_phase_baseline124 

 QC.PHI134.AVG phi134_avg Averaged_Closure_phase_baseline134 

 QC.PHI134.ERR phi134_err error_Closure_phase_baseline134 

 QC.PHI234.AVG phi234_avg Averaged_Closure_phase_baseline234 

 QC.PHI234.ERR phi234_err error_Closure_phase_baseline234 

 QC.SNR12.AVG snr12_avg  150 averaged_SNR_on_Vis12 

 QC.SNR12.RMS snr12_rms  10 error_on_SNR_on_Vis12 

 QC.SNR13.AVG snr13_avg  150 averaged_SNR_on_Vis13 

 QC.SNR13.RMS snr13_rms  10 error_on_SNR_on_Vis13 

 QC.SNR14.AVG snr14_avg  150 averaged_SNR_on_Vis14 

 QC.SNR14.RMS snr14_rms  10 error_on_SNR_on_Vis14 

 QC.SNR23.AVG snr23_avg  150 averaged_SNR_on_Vis23 

 QC.SNR23.RMS snr23_rms  10 error_on_SNR_on_Vis23 

 QC.SNR24.AVG snr24_avg  150 averaged_SNR_on_Vis24 

 QC.SNR24.RMS snr24_rms  10 error_on_SNR_on_Vis24 

 QC.SNR34.AVG snr34_avg  150 averaged_SNR_on_Vis34 

 QC.SNR34.RMS snr34_rms  10 error_on_SNR_on_Vis34 

 QC.TFVIS12.AVG tfvis12_avg 0.6 averaged_Transfer_Function_(if_calibrator)_Baseline12 

 QC.TFVIS13.AVG tfvis13_avg 0.76 averaged_Transfer_Function_(if_calibrator)_Baseline13 

 QC.TFVIS14.AVG tfvis14_avg 0.4 averaged_Transfer_Function_(if_calibrator)_Baseline14 

 QC.TFVIS23.AVG tfvis23_avg 0.3 averaged_Transfer_Function_(if_calibrator)_Baseline123br>
 QC.TFVIS24.AVG tfvis24_avg 0.9 averaged_Transfer_Function_(if_calibrator)_Baseline24 

 QC.TFVIS34.AVG tfvis34_avg 0.7 averaged_Transfer_Function_(if_calibrator)_Baseline34 

 QC.VIS12.AVG vis12_avg 0.6 averaged_Visibility_Baseline12 

 QC.VIS12.ERR vis12_err 0.001 error_on_Visibility_Baseline12 

 QC.VIS13.AVG vis13_avg 0.8 averaged_Visibility_Baseline13 

 QC.VIS13.ERR vis13_err 0.001 error_on_Visibility_Baseline13 

 QC.VIS14.AVG vis14_avg 0.8 averaged_Visibility_Baseline14 

 QC.VIS14.ERR vis14_err 0.001 error_on_Visibility_Baseline14 

 QC.VIS23.AVG vis23_avg 0.8 averaged_Visibility_Baseline23 

 QC.VIS23.ERR vis23_err 0.001 error_on_Visibility_Baseline23 

 QC.VIS24.AVG vis24_avg 0.8 averaged_Visibility_Baseline24 

 QC.VIS24.ERR vis24_err 0.001 error_on_Visibility_Baseline24 

 QC.VIS34.AVG vis34_avg 0.8 averaged_Visibility_Baseline34 

 QC.VIS34.ERR vis34_err 0.001 error_on_Visibility_Baseline34 

 QC.DB.HMAG db_hmag 2.3 H_magnitude_of_calibrator_(if_in_catalog) 

 QC.DB.DIAM db_diam 1.67 diameter_of_calibrator_(if_in_catalog) 

 QC.DB.DIAM.ERR diam_err 0.11 error_on_diameter_of_calibrator_(if_in_catalog) 

 QC.TRANS1 trans1 0.004 transmission_full_train_1 

 QC.TRANS2 trans2 0.006 transmission_full_train_2 

 QC.TRANS3 trans3 0.006 transmission_full_train_3 

 QC.TRANS4 trans4 0.006 transmission_full_train_4

ALGORITHM

Uncalibrated dispersed Visibilities are calculated
A product is generated for each single raw file
Generally a complete OB is a set of 5 raw files (with re-centering of the fringes in between)
If the object observed is present in the calibrator catalogi (same RA and DEC):
PI_GCAL_150501_FAINT.fits
Its diameter, error, and magnitude in H are extracted
An averaged TF is given for each baseline as well
The transmission of the full optical train is calculated

CERTIF

Products are rejected only if there was something wrong with the VLTI.
Products with no fringes or very low Visibilities are kept

COMMENTS

None

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