Commanded Scan Law (gaiaedr3.commanded_scan_law)

The table has 8967690 rows, 13 columns.

Description

This table provides a representation of the Gaia scanning law over the 34 month time period covered by the Gaia Data Release 3 (from 2014-07-25 10:31:26 to 2017-05-28 08:46:29), including the Ecliptic Pole Scanning at the begin of the mission. Note that this is the commanded attitude of the spacecraft, the actual attitude could deviate from it by up to about 30 arcsec. Also, it does not contain any of the data interruptions that occurred during the real mission, of which the main ones are listed in Chapter [chap:cu0int], Section [cu0int_sec:release_framework].The scanning law has been sampled at a 10 second interval, in which the satellite rotates about 10 arcminutes (the target spin rate is actually 59.9641857803 arcsec/sec). Note that this is several times shorter than a typical field-of-view transit and the scan position angle will be practically constant during this interval.

Notes:

  • The times in columns 1, 2 and 3 are in Julian days in TCB with time origin 2010-01-01T00:00 (JD 2455197.5), following the time coordinate convention used in the Gaia archive. TCB stands for Barycentric Coordinate Time and is the time standard used in Gaia processing, equivalent to the proper time experienced by a clock at rest in a coordinate frame co-moving with the barycentre of the Solar system but outside its gravity well, therefore not influenced by the gravitational time dilation caused by the Sun and the rest of the solar system.
  • Column 1 is the reference time for the spacecraft attitude, while columns 2 and 3 give the times with the (relativistic) corrections applied for the light-travel time to the solar system barycentre, corresponding to an infinitely distant source at the RA, DEC at the centres of FOV 1 and 2, respectively.
  • FOV1 and FOV2 correspond to the preceding (PFOV) and following (FFOV) fields-of-view, respectively.
  • The centres of the field of views are separated by the basic angle of 106.5 deg, see Fig. 2 of . Their origin in the focal plane is illustrated in Fig. 3 of the same paper: both originate in the astrometric field (AF) 7, with FOV1 in row 3 and FOV2 in row 5.
  • The scan angle, theta, is the position angle of the direction in which the FOV is moving (also called ‘along-scan’ direction), and is defined in the usual astronomical sense: theta = 0 when the FoV is moving towards local North, and theta = 90 degrees towards local East.
  • All values have been formatted to the default double numerical precision and so this precision should not be interpreted as the accuracy of the data.

Attribution

If you have used Gaia data in your research, please use the following acknowledgement:

This work has made use of data from the European Space Agency (ESA) mission Gaia (https://www.cosmos.esa.int/gaia), processed by the Gaia Data Processing and Analysis Consortium (DPAC, https://www.cosmos.esa.int/web/gaia/dpac/consortium). Funding for the DPAC has been provided by national institutions, in particular the institutions participating in the Gaia Multilateral Agreement.

More information can be found on the credit and citation instructions page.

Columns

Name Type UCD Unit Description
jd_time double time.epoch d

Time [Julian Date in TCB at Gaia - 2455197.5]

bjd_fov1 double time.epoch d

Time [Julian Date in TCB at barycentre for FOV1 - 2455197.5]

bjd_fov2 double time.epoch d

Time [Julian Date in TCB at barycentre for FOV2 - 2455197.5]

obmt_time long time.epoch ns

Time at Gaia (OBMT)

ra_fov1 float pos.eq.ra deg

Right Ascension of FOV1 centre

dec_fov1 float pos.eq.dec deg

Declination of FOV1 centre

heal_pix_fov1 int pos.healpix

FOV1 HEALPix level 12

scan_angle_fov1 float pos.angDistance deg

Scan position angle of FOV1

ra_fov2 float pos.eq.ra deg

Right ascension of FOV2 centre

dec_fov2 float pos.eq.dec deg

Declination of FOV2 centre

heal_pix_fov2 int pos.healpix

FOV2 HEALPix level 12

scan_angle_fov2 float pos.angDistance deg

Scan position angle of FOV2

solution_id long meta.version

Solution Identifier