**************** Mission Searches **************** Mission-Specific Search Queries =============================== These queries allow for searches based on mission-specific metadata for a given data collection. Currently it provides access to a broad set of Hubble Space Telescope (HST) metadata, including header keywords, proposal information, and observational parameters. The available metadata includes all information that was previously available in the original HST web search form, and are present in the current `Mission Search interface `__. **Note:** this API interface does not yet support data product download, only metadata earch access. An object of MastMissions class is instantiated with a default mission of 'hst' and default service set to 'search'. .. doctest-remote-data:: >>> from astroquery.mast import MastMissions >>> missions = MastMissions() >>> missions.mission 'hst' >>> missions.service 'search' The missions object can be used to search metadata using by sky position, or other criteria. The keyword arguments can be used to specify output characteristics like selec_cols and sort_by and conditions that filter on values like proposal id, pi last name etc. The available column names for a mission are returned by the `~astroquery.mast.MastMissionsClass.get_column_list` function. .. doctest-remote-data:: >>> from astroquery.mast import MastMissions >>> missions = MastMissions(mission='hst') >>> columns = missions.get_column_list() For positional searches, the columns "ang_sep", "sci_data_set_name", "search_key" and "search_position" will always be included, in addition to any columns specified using "select_cols". For non-positional searches, "search_key" and "sci_data_set_name" will always be included, in addition to any columns specified using "select_cols". For a non positional search, ``select_cols`` would always include ``'search_key'`` and ``'sci_data_set_name'``. .. doctest-remote-data:: >>> from astroquery.mast import MastMissions >>> from astropy.coordinates import SkyCoord >>> missions = MastMissions(mission='hst') >>> regionCoords = SkyCoord(210.80227, 54.34895, unit=('deg', 'deg')) >>> results = missions.query_region(regionCoords, radius=3, sci_pep_id=12556, ... select_cols=["sci_stop_time", "sci_targname", "sci_start_time", "sci_status"], ... sort_by=['sci_targname']) >>> results[:5] # doctest: +IGNORE_OUTPUT sci_status sci_targname sci_data_set_name ang_sep sci_pep_id search_pos sci_pi_last_name search_key str6 str16 str9 str20 int64 str18 str6 str27 ---------- ---------------- ----------------- -------------------- ---------- ------------------ ---------------- --------------------------- PUBLIC NUCLEUS+HODGE602 OBQU010H0 0.017460048037303017 12556 210.80227 54.34895 GORDON 210.80227 54.34895OBQU010H0 PUBLIC NUCLEUS+HODGE602 OBQU01050 0.017460048037303017 12556 210.80227 54.34895 GORDON 210.80227 54.34895OBQU01050 PUBLIC NUCLEUS+HODGE602 OBQU01030 0.022143836477276503 12556 210.80227 54.34895 GORDON 210.80227 54.34895OBQU01030 PUBLIC NUCLEUS+HODGE602 OBQU010F0 0.022143836477276503 12556 210.80227 54.34895 GORDON 210.80227 54.34895OBQU010F0 PUBLIC NUCLEUS+HODGE602 OBQU010J0 0.04381046755938432 12556 210.80227 54.34895 GORDON 210.80227 54.34895OBQU010J0 for paging through the results, offset and limit can be used to specify the starting record and the number of returned records. the default values for offset and limit is 0 and 5000 respectively. .. doctest-remote-data:: >>> from astroquery.mast import MastMissions >>> from astropy.coordinates import SkyCoord >>> missions = MastMissions() >>> results = missions.query_criteria(sci_start_time=">=2021-01-01 00:00:00", ... select_cols=["sci_stop_time", "sci_targname", "sci_start_time", "sci_status", "sci_pep_id"], ... sort_by=['sci_pep_id'], limit=1000, offset=1000) # doctest: +IGNORE_WARNINGS ... # MaxResultsWarning('Maximum results returned, may not include all sources within radius.') >>> len(results) 1000 Metadata queries can also be performed using object names with the ~astroquery.mast.MastMissionsClass.query_object function. .. doctest-remote-data:: >>> results = missions.query_object('M101', radius=3, select_cols=["sci_stop_time", "sci_targname", "sci_start_time", "sci_status"], ... sort_by=['sci_targname']) >>> results[:5] # doctest: +IGNORE_OUTPUT
ang_sep search_pos sci_status search_key sci_stop_time sci_targname sci_start_time sci_data_set_name str20 str18 str6 str27 str26 str16 str26 str9 ------------------ ------------------ ---------- --------------------------- -------------------------- ------------ -------------------------- ----------------- 2.751140575012458 210.80227 54.34895 PUBLIC 210.80227 54.34895LDJI01010 2019-02-19T05:52:40.020000 +164.6+9.9 2019-02-19T00:49:58.010000 LDJI01010 0.8000626246647815 210.80227 54.34895 PUBLIC 210.80227 54.34895J8OB02011 2003-08-27T08:27:34.513000 ANY 2003-08-27T07:44:47.417000 J8OB02011 1.1261718338567348 210.80227 54.34895 PUBLIC 210.80227 54.34895J8D711J1Q 2003-01-17T00:50:22.250000 ANY 2003-01-17T00:42:06.993000 J8D711J1Q 1.1454431087675097 210.80227 54.34895 PUBLIC 210.80227 54.34895JD6V01012 2017-06-15T18:33:25.983000 ANY 2017-06-15T18:10:12.037000 JD6V01012 1.1457795862361977 210.80227 54.34895 PUBLIC 210.80227 54.34895JD6V01013 2017-06-15T20:08:44.063000 ANY 2017-06-15T19:45:30.023000 JD6V01013 Metadata queries can also be performed using non-positional parameters with the `~astroquery.mast.MastMissionsClass.query_criteria` function. .. doctest-remote-data:: >>> results = missions.query_criteria(sci_data_set_name="Z06G0101T", sci_pep_id="1455", ... select_cols=["sci_stop_time", "sci_targname", "sci_start_time", "sci_status"], ... sort_by=['sci_targname']) >>> results[:5] # doctest: +IGNORE_OUTPUT
search_key sci_stop_time sci_data_set_name sci_start_time sci_targname sci_status str9 str26 str9 str26 str19 str6 ---------- -------------------------- ----------------- -------------------------- ------------ ---------- Z06G0101T 1990-05-13T11:02:34.567000 Z06G0101T 1990-05-13T10:38:09.193000 -- PUBLIC