.. doctest-skip-all .. _astroquery.nrao: ******************************** NRAO Queries (`astroquery.nrao`) ******************************** Getting started =============== This module supports fetching the table of observation summaries from the NRAO data archive. The results are returned in a `~astropy.table.Table`. The service can be queried using the :meth:`~astroquery.nrao.NraoClass.query_region`. The only required argument to this is the target around which to query. This may be specified either by using the identifier name directly - this is resolved via astropy functions using online services. The coordinates may also be specified directly using the appropriate coordinate system from `astropy.coordinates`. Here is a basic example: .. code-block:: python >>> from astroquery.nrao import Nrao >>> import astropy.coordinates as coord >>> result_table = Nrao.query_region("04h33m11.1s 05d21m15.5s") >>> print(result_table) Source Project Start Time Stop Time ... RA DEC ARCH_FILE_ID ---------- ------------ ---------- --------- ... --- --- ------------ 0430+052 SRAM-public -- -- ... -- -- 181927539 0430+052 SRAM-public -- -- ... -- -- 181927647 0430+052 SRAM-public -- -- ... -- -- 181927705 3C120 BALI-public -- -- ... -- -- 181927008 3C120 BALI-public -- -- ... -- -- 181927008 3C120 BALI-public -- -- ... -- -- 181927010 3C120 BALI-public -- -- ... -- -- 181927016 3C120 BALI-public -- -- ... -- -- 181927024 ... ... ... ... ... ... ... ... J0433+0521 13A-281-lock -- -- ... -- -- 424632771 J0433+0521 13A-281-lock -- -- ... -- -- 424632771 J0433+0521 13A-281-lock -- -- ... -- -- 424632771 J0433+0521 13A-281-lock -- -- ... -- -- 424632771 J0433+0521 13A-281-lock -- -- ... -- -- 424632771 J0433+0521 13A-281-lock -- -- ... -- -- 424632771 J0433+0521 13A-281-lock -- -- ... -- -- 424632771 More detailed parameters ------------------------ There are several other optional parameters that may also be specified. For instance the ``radius`` may be specified via `~astropy.units.Quantity` object or a string acceptable be `~astropy.coordinates.Angle`. By default this is set to 1 degree. ``equinox`` may be set to 'J2000' or 'B1950' for equatorial systems, the default being 'J2000'. You can also specify the ``telescope`` from which to fetch the observations. This can be one of the following. :: 'gbt' 'all' 'historical_vla' 'vlba' 'jansky_vla' Another parameter is the ``telescope_config``. Valid values are :: 'all' 'A' 'AB' 'BnA' 'B' 'BC' 'CnB' 'C' 'CD' 'DnC' 'D' 'DA' You may also specify the range of frequencies for the observation by specifying the ``freq_low`` and ``freq_up`` in appropriate units of frequency via `astropy.units`. The other optional parameters are the ``sub_array`` which may be set to 'all' or any value from 1 to 5. Finally you may also set the frequency bands for observation :: 'all' '4' 'P' 'L' 'S' 'C' 'X' 'U' 'K' 'Ka' 'Q' 'W' Here's an example with all these optional parameters. .. code-block:: python >>> from astroquery.nrao import Nrao >>> import astropy.units as u >>> import astropy.coordinates as coord >>> result_table = Nrao.query_region(coord.SkyCoord(68.29625, ... 5.35431, unit=(u.deg, u.deg), frame='icrs'), radius=2*u.arcmin, ... telescope='historical_vla', start_date='1985-06-30 18:16:49', ... end_date='1985-06-30 18:20:19', freq_low=1600*u.MHz, freq_up=1700*u.MHz, ... telescope_config='BC', sub_array=1) >>> print(result_table) Source Project Start Time Stop Time ... RA DEC ARCH_FILE_ID -------- ------------- ---------- --------- ... --- --- ------------ 0430+052 AR0122-public -- -- ... -- -- 181888822 0430+052 AR0122-public -- -- ... -- -- 181888822 Reference/API ============= .. automodapi:: astroquery.nrao :no-inheritance-diagram: .. _IAU format: http://cdsweb.u-strasbg.fr/Dic/iau-spec.html.