QC1 Plotter

hawki_science: SCI: QC1 values related to SCIENCE frame sets

QC HOME QC1 DB BROWSE HELP

 

Select for plotting:


1. Plot Items
X axis Y axis Item Comment
mjd_obs MJD-OBS of (first) raw file
pro_datancom Number of RAW input files
qc_datancom Number of RAW frames actually used in making PRODUCTs
qc_fwhm_pix median FWHM in image [pix]
qc_fwhm_arcsec median FWHM in image [arcsec]
qc_fwhm_mode mode of FWHM in image [pix]
qc_fwhm_ellipticity median ellipticity of the images [arcsec]
qc_fwhm_orientation median orientation of the images [degrees]
qc_iq Estimated image quality [arcsec]
qc_nbobjs Number of detected objects in the combined image
qc_combined_posx Position in X of the first image
qc_combined_posy Position in Y of the first image
qc_backgd_instmag The instrument magnitude of the background
qc_backgd_stdev The standard deviation of the background values
qc_backgd_mean The mean of the background values
qc_raw_median_mean The mean of the medians of each RAW frame
qc_altitude_mean Average TEL.ALT from image stack. TEL.ALT is calculated as (TEL.ALT.START + TEL.ALT.END) / 2.0
qc_azimuth_mean Average TEL.AZ from image stack. TEL.AZ is calculated as (TEL.AZ.START + TEL.AZ.END) / 2.0
qc_airmass_mean Average TEL.AIRM from image stack. TEL.AIRM is calculated as (TEL.AIRM.START + TEL.AIRM.END) / 2.0
qc_ia_fwhm_mean Average TEL.IA.FWHM from image stack. TEL.IA.FWHM is calculated as (TEL.IA.FWHM.START + TEL.IA.FWHM.END) / 2.0
qc_parang_mean Average TEL.PARANG from image stack. TEL.PARANG is calculated as (TEL.PARANG.START + TEL.PARANG.END) / 2.0
qc_parang_delta_mean Average TEL.PARANG.DELTA from image stack. TEL.PARANG.DELTA is calculated as TEL.PARANG.END - TEL.PARANG.START
qc_parang_delta_min Minimum TEL.PARANG.DELTA from image stack. TEL.PARANG.DELTA is calculated as TEL.PARANG.END - TEL.PARANG.START
qc_parang_delta_max Maximum TEL.PARANG.DELTA from image stack. TEL.PARANG.DELTA is calculated as TEL.PARANG.END - TEL.PARANG.START
qc_absrot_start_mean Average ADA.ABSROT.START from image stack. ADA.ABSROT.DELTA is calculated as ADA.ABSROT.END - ADA.ABSROT.START
qc_absrot_delta_mean Average ADA.ABSROT.DELTA from image stack. ADA.ABSROT.DELTA is calculated as ADA.ABSROT.END - ADA.ABSROT.START
qc_absrot_delta_min Minimum ADA.ABSROT.DELTA from image stack. ADA.ABSROT.DELTA is calculated as ADA.ABSROT.END - ADA.ABSROT.START
qc_absrot_delta_max Maximum ADA.ABSROT.DELTA from image stack. ADA.ABSROT.DELTA is calculated as ADA.ABSROT.END - ADA.ABSROT.START
qc_ambi_rhum_mean Average ambient relative humidity @ 30/2 m [%] from image stack
qc_ambi_tau0_mean Average ambient TAU0 from image stack
qc_ambi_temp_mean Average ambient temperature [?C] from image stack
qc_ambi_winddir_mean Average ambient wind direction [degrees] from image stack
qc_ambi_windsp_mean Average ambient wind speed[m/s] from image stack
qc_ambi_fwhm_mean Average ambient Full Width at Half Maimum [arcsec] from image stack
qc_ambi_pres_mean Average ambient pressure [mb] from image stack

2. Filter by
det_chip_id Detector-ID
det_chip Unique Detector Number
det_dit Integration Time
det_ndit Number of sub-integrations
det_mindit Minimum DIT
det_read_speed Read-Speed Factor
det_ncorrs_name Read-Out Mode name
tpl_id Template signature ID
ins_filt1 Name of filter in filter wheel 1
ins_filt2 Name of filter in filter wheel 2

3. Options
time range:
for plot: From To
for statistics: From To
plot options:
y scaling for plotting: y_min y_max
x scaling for plotting: x_min x_max
special:
connect by lines mark outliers civil_dates
plot format: png gif ps
statistics options:
average none mean median least-square
error thresholds none 1 sigma 3 sigma 10%

Send comments to: <qc@eso.org>