HorizonsClass

class astroquery.jplhorizons.HorizonsClass(id=None, location=None, epochs=None, id_type=None)

Bases: BaseQuery

A class for querying the JPL Horizons service.

Instantiate JPL query.

Parameters:

idstr, required

Name, number, or designation of the object to be queried.

locationstr or dict, optional

Observer’s location for ephemerides queries or center body name for orbital element or vector queries. Uses the same codes as JPL Horizons. If no location is provided, Earth’s center is used for ephemerides queries and the Sun’s center for elements and vectors queries. Arbitrary topocentric coordinates for ephemerides queries can be provided in the format of a dictionary. The dictionary has to be of the form {'lon': longitude in deg (East positive, West negative), 'lat': latitude in deg (North positive, South negative), 'elevation': elevation in km above the reference ellipsoid, ['body': Horizons body ID of the central body; optional; if this value is not provided it is assumed that this location is on Earth]}.

epochsscalar, list-like, or dictionary, optional

Either a list of epochs in JD or MJD format or a dictionary defining a range of times and dates; the range dictionary has to be of the form {'start': ‘YYYY-MM-DD [HH:MM:SS]’, 'stop': ‘YYYY-MM-DD [HH:MM:SS]’, 'step': ‘n[y|d|m|s]’}. Epoch timescales depend on the type of query performed: UTC for ephemerides queries, TDB for element and vector queries. If no epochs are provided, the current time is used.

id_typestr, optional

Controls Horizons’s object selection for id [HORIZONSDOC_SELECTION] . Options: 'designation' (small body designation), 'name' (asteroid or comet name), 'asteroid_name', 'comet_name', 'smallbody' (asteroid and comet search), or None (first search search planets, natural satellites, spacecraft, and special cases, and if no matches, then search small bodies).

References

[HORIZONSDOC_SELECTION]

https://ssd.jpl.nasa.gov/horizons/manual.html#select (retrieved 2021 Sep 23).

Examples

>>> from astroquery.jplhorizons import Horizons
>>> eros = Horizons(id='433', location='568',
...              epochs={'start':'2017-01-01',
...                      'stop':'2017-02-01',
...                      'step':'1d'})
>>> print(eros)  
JPLHorizons instance "433"; location=568, epochs={'start': '2017-01-01', 'step': '1d', 'stop': '2017-02-01'}, id_type=None

Attributes Summary

TIMEOUT

Methods Summary

elements(*args, **kwargs)	Queries the service and returns a table object.
elements_async([get_query_payload, ...])	Query JPL Horizons for osculating orbital elements.
ephemerides(*args, **kwargs)	Queries the service and returns a table object.
ephemerides_async([airmass_lessthan, ...])	Query JPL Horizons for ephemerides.
vectors(*args, **kwargs)	Queries the service and returns a table object.
vectors_async([get_query_payload, ...])	Query JPL Horizons for state vectors.

Attributes Documentation

TIMEOUT = 30

Methods Documentation

elements(*args, **kwargs)

Queries the service and returns a table object.

Query JPL Horizons for osculating orbital elements.

The location parameter in HorizonsClass refers in this case to the center body relative to which the elements are provided.

The following table lists the values queried, their definitions, data types, units, and original Horizons designations (where available). For more information on the definitions of these quantities, please refer to the Horizons User Manual.

Column Name	Definition
targetname	official number, name, designation (string)
H	absolute magnitude in V band (float, mag)
G	photometric slope parameter (float)
M1	comet total abs mag (float, mag, M1)
M2	comet nuclear abs mag (float, mag, M2)
k1	total mag scaling factor (float, k1)
k2	nuclear mag scaling factor (float, k2)
phasecoeff	comet phase coeff (float, mag/deg, PHCOFF)
datetime_str	epoch Date (str, Calendar Date (TDB))
datetime_jd	epoch Julian Date (float, JDTDB)
e	eccentricity (float, EC)
q	periapsis distance (float, au, QR)
a	semi-major axis (float, au, A)
incl	inclination (float, deg, IN)
Omega	longitude of Asc. Node (float, deg, OM)
w	argument of the perifocus (float, deg, W)
Tp_jd	time of periapsis (float, Julian Date, Tp)
n	mean motion (float, deg/d, N)
M	mean anomaly (float, deg, MA)
nu	true anomaly (float, deg, TA)
period	orbital period (float, (Earth) d, PR)
Q	apoapsis distance (float, au, AD)

Parameters:

refsystemstring

Element reference system for geometric and astrometric quantities: 'ICRF' or 'B1950'; default: 'ICRF'

refplanestring

Reference plane for all output quantities: 'ecliptic' (ecliptic and mean equinox of reference epoch), 'earth' (Earth mean equator and equinox of reference epoch), or 'body' (body mean equator and node of date); default: 'ecliptic'

tp_typestring

Representation for time-of-perihelion passage: 'absolute' or 'relative' (to epoch); default: 'absolute'

closest_apparitionboolean, optional

Only applies to comets. This option will choose the closest apparition available in time to the selected epoch; default: False. Do not use this option for non-cometary objects.

no_fragmentsboolean, optional

Only applies to comets. Reject all comet fragments from selection; default: False. Do not use this option for non-cometary objects.

get_query_payloadboolean, optional

When set to True the method returns the HTTP request parameters as a dict, default: False

get_raw_response: boolean, optional

Return raw data as obtained by JPL Horizons without parsing the data into a table, default: False

Returns:

tableA Table object.

Examples

>>> from astroquery.jplhorizons import Horizons
>>> obj = Horizons(id='433', location='500@10',
...                epochs=2458133.33546)
>>> el = obj.elements()  
>>> print(el)  
    targetname      datetime_jd  ...       Q            P
       ---               d       ...       AU           d
------------------ ------------- ... ------------- ------------
433 Eros (1898 DQ) 2458133.33546 ... 1.78244263804 642.93873484

elements_async(get_query_payload=False, refsystem='ICRF', refplane='ecliptic', tp_type='absolute', closest_apparition=False, no_fragments=False, get_raw_response=False, cache=True)

Query JPL Horizons for osculating orbital elements.

The location parameter in HorizonsClass refers in this case to the center body relative to which the elements are provided.

The following table lists the values queried, their definitions, data types, units, and original Horizons designations (where available). For more information on the definitions of these quantities, please refer to the Horizons User Manual.

Column Name	Definition
targetname	official number, name, designation (string)
H	absolute magnitude in V band (float, mag)
G	photometric slope parameter (float)
M1	comet total abs mag (float, mag, M1)
M2	comet nuclear abs mag (float, mag, M2)
k1	total mag scaling factor (float, k1)
k2	nuclear mag scaling factor (float, k2)
phasecoeff	comet phase coeff (float, mag/deg, PHCOFF)
datetime_str	epoch Date (str, Calendar Date (TDB))
datetime_jd	epoch Julian Date (float, JDTDB)
e	eccentricity (float, EC)
q	periapsis distance (float, au, QR)
a	semi-major axis (float, au, A)
incl	inclination (float, deg, IN)
Omega	longitude of Asc. Node (float, deg, OM)
w	argument of the perifocus (float, deg, W)
Tp_jd	time of periapsis (float, Julian Date, Tp)
n	mean motion (float, deg/d, N)
M	mean anomaly (float, deg, MA)
nu	true anomaly (float, deg, TA)
period	orbital period (float, (Earth) d, PR)
Q	apoapsis distance (float, au, AD)

Parameters:

refsystemstring

Element reference system for geometric and astrometric quantities: 'ICRF' or 'B1950'; default: 'ICRF'

refplanestring

Reference plane for all output quantities: 'ecliptic' (ecliptic and mean equinox of reference epoch), 'earth' (Earth mean equator and equinox of reference epoch), or 'body' (body mean equator and node of date); default: 'ecliptic'

tp_typestring

Representation for time-of-perihelion passage: 'absolute' or 'relative' (to epoch); default: 'absolute'

closest_apparitionboolean, optional

Only applies to comets. This option will choose the closest apparition available in time to the selected epoch; default: False. Do not use this option for non-cometary objects.

no_fragmentsboolean, optional

Only applies to comets. Reject all comet fragments from selection; default: False. Do not use this option for non-cometary objects.

get_query_payloadboolean, optional

When set to True the method returns the HTTP request parameters as a dict, default: False

get_raw_response: boolean, optional

Return raw data as obtained by JPL Horizons without parsing the data into a table, default: False

Returns:

responserequests.Response

The response of the HTTP request.

Examples

>>> from astroquery.jplhorizons import Horizons
>>> obj = Horizons(id='433', location='500@10',
...                epochs=2458133.33546)
>>> el = obj.elements()  
>>> print(el)  
    targetname      datetime_jd  ...       Q            P
       ---               d       ...       AU           d
------------------ ------------- ... ------------- ------------
433 Eros (1898 DQ) 2458133.33546 ... 1.78244263804 642.93873484

ephemerides(*args, **kwargs)

Queries the service and returns a table object.

Query JPL Horizons for ephemerides.

The location parameter in HorizonsClass refers in this case to the location of the observer.

The following tables list the values queried, their definitions, data types, units, and original Horizons designations (where available). For more information on the definitions of these quantities, please refer to the Horizons User Manual.

Column Name	Definition
targetname	official number, name, designation (string)
H	absolute magnitude in V band (float, mag)
G	photometric slope parameter (float)
M1	comet total abs mag (float, mag, M1)
M2	comet nuclear abs mag (float, mag, M2)
k1	total mag scaling factor (float, k1)
k2	nuclear mag scaling factor (float, k2)
phasecoeff	comet phase coeff (float, mag/deg, PHCOFF)
datetime	epoch (str, Date__(UT)__HR:MN:SC.fff)
datetime_jd	epoch Julian Date (float, Date_________JDUT)
solar_presence	information on Sun’s presence (str)
flags	information on Moon, target status (str)
RA	target RA (float, deg, DEC_(XXX))
DEC	target DEC (float, deg, DEC_(XXX))
RA_app	target apparent RA (float, deg, R.A._(a-app))
DEC_app	target apparent DEC (float, deg, DEC_(a-app))
RA_rate	target rate RA (float, arcsec/hr, RA*cosD)
DEC_rate	target RA (float, arcsec/hr, d(DEC)/dt)
AZ	Azimuth (float, deg, EoN, Azi_(a-app))
EL	Elevation (float, deg, Elev_(a-app))
AZ_rate	Azimuth rate (float, arcsec/minute, dAZ*cosE)
EL_rate	Elevation rate (float, arcsec/minute, d(ELV)/dt)
sat_X	satellite X position (arcsec, X_(sat-prim))
sat_Y	satellite Y position (arcsec, Y_(sat-prim))
sat_PANG	satellite position angle (deg, SatPANG)
siderealtime	local apparent sidereal time (str, L_Ap_Sid_Time)
airmass	target optical airmass (float, a-mass)
magextinct	V-mag extinction (float, mag, mag_ex)
V	V magnitude (float, mag, APmag)
Tmag	comet Total magnitude (float, mag, T-mag)
Nmag	comet Nucleaus magnitude (float, mag, N-mag)
surfbright	surf brightness (float, mag/arcsec^2, S-brt)
illumination	frac of illumination (float, percent, Illu%)
illum_defect	Defect of illumination (float, arcsec, Dec_illu)
sat_sep	Target-primary angular separation (float, arcsec, ang-sep)
sat_vis	Target-primary visibility (str, v)
ang_width	Angular width of target (float, arcsec, Ang-diam)
PDObsLon	Apparent planetodetic longitude (float, deg, ObsSub-LON)
PDObsLat	Apparent planetodetic latitude (float, deg, ObsSub-LAT)
PDSunLon	Subsolar planetodetic longitude (float, deg, SunSub-LON)
PDSunLat	Subsolar planetodetic latitude (float, deg, SunSub-LAT)
SubSol_ang	Target sub-solar point position angle (float, deg, SN.ang)
SubSol_dist	Target sub-solar point position angle distance (float, arcsec, SN.dist)
NPole_ang	Target’s North Pole position angle (float, deg, NP.ang)
NPole_dist	Target’s North Pole position angle distance (float, arcsec, NP.dist)
EclLon	heliocentr ecl long (float, deg, hEcl-Lon)
EclLat	heliocentr ecl lat (float, deg, hEcl-Lat)
ObsEclLon	obscentr ecl long (float, deg, ObsEcLon)
ObsEclLat	obscentr ecl lat (float, deg, ObsEcLat)
r	heliocentric distance (float, au, r)
r_rate	heliocentric radial rate (float, km/s, rdot)
delta	distance from observer (float, au, delta)
delta_rate	obs-centric rad rate (float, km/s, deldot)
lighttime	one-way light time (float, min, 1-way_LT)
vel_sun	Target center velocity wrt Sun (float, km/s, VmagSn)
vel_obs	Target center velocity wrt Observer (float, km/s, VmagOb)
elong	solar elongation (float, deg, S-O-T)
elongFlag	app. position relative to Sun (str, /r)
alpha	solar phase angle (float, deg, S-T-O)
lunar_elong	Apparent lunar elongation angle wrt target (float, deg, T-O-M)
lunar_illum	Lunar illumination percentage (float, percent, MN_Illu%)
IB_elong	Apparent interfering body elongation angle wrt target (float, deg, T-O-I)
IB_illum	Interfering body illumination percentage (float, percent, IB_Illu%)
sat_alpha	Observer-Primary-Target angle (float, deg, O-P-T)
OrbPlaneAng	orbital plane angle (float, deg, PlAng)
sunTargetPA	-Sun vector PA (float, deg, EoN, PsAng)
velocityPA	-velocity vector PA (float, deg, EoN, PsAMV)
constellation	constellation ID containing target (str, Cnst)
TDB-UT	difference between TDB and UT (float, seconds, TDB-UT)
NPole_RA	Target’s North Pole RA (float, deg, N.Pole-RA)
NPole_DEC	Target’s North Pole DEC (float, deg, N.Pole-DC)
GlxLon	galactic longitude (float, deg, GlxLon)
GlxLat	galactic latitude (float, deg, GlxLat)
solartime	local apparent solar time (string, L_Ap_SOL_Time)
earth_lighttime	observer lighttime from center of Earth (float, minutes, 399_ins_LT
RA_3sigma	3 sigma positional uncertainty in RA (float, arcsec, RA_3sigma)
DEC_3sigma	3 sigma positional uncertainty in DEC (float, arcsec, DEC_3sigma)
SMAA_3sigma	3sig pos unc error ellipse semi-major axis (float, arcsec, SMAA_3sig)
SMIA_3sigma	3sig pos unc error ellipse semi-minor axis (float, arcsec, SMIA_3sig)
Theta_3sigma	pos unc error ellipse position angle (float, deg, Theta)
Area_3sigma	3sig pos unc error ellipse are (float, arcsec^2, Area_3sig)
RSS_3sigma	3sig pos unc error ellipse root-sum-square (float, arcsec, POS_3sigma)
r_3sigma	3sig range uncertainty (float, km, RNG_3sigma)
r_rate_3sigma	3sig range rate uncertainty (float, km/second, RNGRT_3sigma)
SBand_3sigma	3sig Doppler radar uncertainties at S-band (float, Hertz, DOP_S_3sig)
XBand_3sigma	3sig Doppler radar uncertainties at X-band (float, Hertz, DOP_X_3sig)
DoppDelay_3sigma	3sig Doppler radar round-trip delay unc (float, second, RT_delay_3sig)
true_anom	True Anomaly (float, deg, Tru_Anom)
hour_angle	local apparent hour angle (string, sexagesimal angular hours, L_Ap_Hour_Ang)
alpha_true	true phase angle (float, deg, phi)
PABLon	phase angle bisector longitude (float, deg, PAB-LON)
PABLat	phase angle bisector latitude (float, deg, PAB-LAT)

Parameters:

airmass_lessthanfloat, optional

Defines a maximum airmass for the query, default: 99

solar_elongationtuple, optional

Permissible solar elongation range: (minimum, maximum); default: (0,180)

max_hour_anglefloat, optional

Defines a maximum hour angle for the query, default: 0

rate_cutofffloat, optional

Angular range rate upper limit cutoff in arcsec/h; default: disabled

skip_daylightboolean, optional

Crop daylight epochs in query, default: False

refractionboolean

If True, coordinates account for a standard atmosphere refraction model; if False, coordinates do not account for refraction (airless model); default: False

refsystemstring

Coordinate reference system: 'ICRF' or 'B1950'; default: 'ICRF'

closest_apparitionboolean, optional

Only applies to comets. This option will choose the closest apparition available in time to the selected epoch; default: False. Do not use this option for non-cometary objects.

no_fragmentsboolean, optional

Only applies to comets. Reject all comet fragments from selection; default: False. Do not use this option for non-cometary objects.

quantitiesinteger or string, optional

Single integer or comma-separated list in the form of a string corresponding to all the quantities to be queried from JPL Horizons using the coding according to the JPL Horizons User Manual Definition of Observer Table Quantities; default: all quantities

get_query_payloadboolean, optional

When set to True the method returns the HTTP request parameters as a dict, default: False

get_raw_responseboolean, optional

Return raw data as obtained by JPL Horizons without parsing the data into a table, default: False

extra_precisionboolean, optional

Enables extra precision in RA and DEC values; default: False

Returns:

tableA Table object.

Examples

>>> from astroquery.jplhorizons import Horizons
>>> obj = Horizons(id='Ceres', location='568',
...             epochs={'start':'2010-01-01',
...                     'stop':'2010-03-01',
...                     'step':'10d'})
>>> eph = obj.ephemerides()  
>>> print(eph)  
    targetname       datetime_str   datetime_jd ...  PABLon  PABLat
       ---               ---             d      ...   deg     deg
----------------- ----------------- ----------- ... -------- ------
1 Ceres (A801 AA) 2010-Jan-01 00:00   2455197.5 ... 238.2494 4.5532
1 Ceres (A801 AA) 2010-Jan-11 00:00   2455207.5 ... 241.3339 4.2832
1 Ceres (A801 AA) 2010-Jan-21 00:00   2455217.5 ... 244.3394 4.0089
1 Ceres (A801 AA) 2010-Jan-31 00:00   2455227.5 ... 247.2518 3.7289
1 Ceres (A801 AA) 2010-Feb-10 00:00   2455237.5 ... 250.0576 3.4415
1 Ceres (A801 AA) 2010-Feb-20 00:00   2455247.5 ... 252.7383 3.1451

ephemerides_async(airmass_lessthan=99, solar_elongation=(0, 180), max_hour_angle=0, rate_cutoff=None, skip_daylight=False, refraction=False, refsystem='ICRF', closest_apparition=False, no_fragments=False, quantities='1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43', get_query_payload=False, get_raw_response=False, cache=True, extra_precision=False)

Query JPL Horizons for ephemerides.

The location parameter in HorizonsClass refers in this case to the location of the observer.

The following tables list the values queried, their definitions, data types, units, and original Horizons designations (where available). For more information on the definitions of these quantities, please refer to the Horizons User Manual.

Column Name	Definition
targetname	official number, name, designation (string)
H	absolute magnitude in V band (float, mag)
G	photometric slope parameter (float)
M1	comet total abs mag (float, mag, M1)
M2	comet nuclear abs mag (float, mag, M2)
k1	total mag scaling factor (float, k1)
k2	nuclear mag scaling factor (float, k2)
phasecoeff	comet phase coeff (float, mag/deg, PHCOFF)
datetime	epoch (str, Date__(UT)__HR:MN:SC.fff)
datetime_jd	epoch Julian Date (float, Date_________JDUT)
solar_presence	information on Sun’s presence (str)
flags	information on Moon, target status (str)
RA	target RA (float, deg, DEC_(XXX))
DEC	target DEC (float, deg, DEC_(XXX))
RA_app	target apparent RA (float, deg, R.A._(a-app))
DEC_app	target apparent DEC (float, deg, DEC_(a-app))
RA_rate	target rate RA (float, arcsec/hr, RA*cosD)
DEC_rate	target RA (float, arcsec/hr, d(DEC)/dt)
AZ	Azimuth (float, deg, EoN, Azi_(a-app))
EL	Elevation (float, deg, Elev_(a-app))
AZ_rate	Azimuth rate (float, arcsec/minute, dAZ*cosE)
EL_rate	Elevation rate (float, arcsec/minute, d(ELV)/dt)
sat_X	satellite X position (arcsec, X_(sat-prim))
sat_Y	satellite Y position (arcsec, Y_(sat-prim))
sat_PANG	satellite position angle (deg, SatPANG)
siderealtime	local apparent sidereal time (str, L_Ap_Sid_Time)
airmass	target optical airmass (float, a-mass)
magextinct	V-mag extinction (float, mag, mag_ex)
V	V magnitude (float, mag, APmag)
Tmag	comet Total magnitude (float, mag, T-mag)
Nmag	comet Nucleaus magnitude (float, mag, N-mag)
surfbright	surf brightness (float, mag/arcsec^2, S-brt)
illumination	frac of illumination (float, percent, Illu%)
illum_defect	Defect of illumination (float, arcsec, Dec_illu)
sat_sep	Target-primary angular separation (float, arcsec, ang-sep)
sat_vis	Target-primary visibility (str, v)
ang_width	Angular width of target (float, arcsec, Ang-diam)
PDObsLon	Apparent planetodetic longitude (float, deg, ObsSub-LON)
PDObsLat	Apparent planetodetic latitude (float, deg, ObsSub-LAT)
PDSunLon	Subsolar planetodetic longitude (float, deg, SunSub-LON)
PDSunLat	Subsolar planetodetic latitude (float, deg, SunSub-LAT)
SubSol_ang	Target sub-solar point position angle (float, deg, SN.ang)
SubSol_dist	Target sub-solar point position angle distance (float, arcsec, SN.dist)
NPole_ang	Target’s North Pole position angle (float, deg, NP.ang)
NPole_dist	Target’s North Pole position angle distance (float, arcsec, NP.dist)
EclLon	heliocentr ecl long (float, deg, hEcl-Lon)
EclLat	heliocentr ecl lat (float, deg, hEcl-Lat)
ObsEclLon	obscentr ecl long (float, deg, ObsEcLon)
ObsEclLat	obscentr ecl lat (float, deg, ObsEcLat)
r	heliocentric distance (float, au, r)
r_rate	heliocentric radial rate (float, km/s, rdot)
delta	distance from observer (float, au, delta)
delta_rate	obs-centric rad rate (float, km/s, deldot)
lighttime	one-way light time (float, min, 1-way_LT)
vel_sun	Target center velocity wrt Sun (float, km/s, VmagSn)
vel_obs	Target center velocity wrt Observer (float, km/s, VmagOb)
elong	solar elongation (float, deg, S-O-T)
elongFlag	app. position relative to Sun (str, /r)
alpha	solar phase angle (float, deg, S-T-O)
lunar_elong	Apparent lunar elongation angle wrt target (float, deg, T-O-M)
lunar_illum	Lunar illumination percentage (float, percent, MN_Illu%)
IB_elong	Apparent interfering body elongation angle wrt target (float, deg, T-O-I)
IB_illum	Interfering body illumination percentage (float, percent, IB_Illu%)
sat_alpha	Observer-Primary-Target angle (float, deg, O-P-T)
OrbPlaneAng	orbital plane angle (float, deg, PlAng)
sunTargetPA	-Sun vector PA (float, deg, EoN, PsAng)
velocityPA	-velocity vector PA (float, deg, EoN, PsAMV)
constellation	constellation ID containing target (str, Cnst)
TDB-UT	difference between TDB and UT (float, seconds, TDB-UT)
NPole_RA	Target’s North Pole RA (float, deg, N.Pole-RA)
NPole_DEC	Target’s North Pole DEC (float, deg, N.Pole-DC)
GlxLon	galactic longitude (float, deg, GlxLon)
GlxLat	galactic latitude (float, deg, GlxLat)
solartime	local apparent solar time (string, L_Ap_SOL_Time)
earth_lighttime	observer lighttime from center of Earth (float, minutes, 399_ins_LT
RA_3sigma	3 sigma positional uncertainty in RA (float, arcsec, RA_3sigma)
DEC_3sigma	3 sigma positional uncertainty in DEC (float, arcsec, DEC_3sigma)
SMAA_3sigma	3sig pos unc error ellipse semi-major axis (float, arcsec, SMAA_3sig)
SMIA_3sigma	3sig pos unc error ellipse semi-minor axis (float, arcsec, SMIA_3sig)
Theta_3sigma	pos unc error ellipse position angle (float, deg, Theta)
Area_3sigma	3sig pos unc error ellipse are (float, arcsec^2, Area_3sig)
RSS_3sigma	3sig pos unc error ellipse root-sum-square (float, arcsec, POS_3sigma)
r_3sigma	3sig range uncertainty (float, km, RNG_3sigma)
r_rate_3sigma	3sig range rate uncertainty (float, km/second, RNGRT_3sigma)
SBand_3sigma	3sig Doppler radar uncertainties at S-band (float, Hertz, DOP_S_3sig)
XBand_3sigma	3sig Doppler radar uncertainties at X-band (float, Hertz, DOP_X_3sig)
DoppDelay_3sigma	3sig Doppler radar round-trip delay unc (float, second, RT_delay_3sig)
true_anom	True Anomaly (float, deg, Tru_Anom)
hour_angle	local apparent hour angle (string, sexagesimal angular hours, L_Ap_Hour_Ang)
alpha_true	true phase angle (float, deg, phi)
PABLon	phase angle bisector longitude (float, deg, PAB-LON)
PABLat	phase angle bisector latitude (float, deg, PAB-LAT)

Parameters:

airmass_lessthanfloat, optional

Defines a maximum airmass for the query, default: 99

solar_elongationtuple, optional

Permissible solar elongation range: (minimum, maximum); default: (0,180)

max_hour_anglefloat, optional

Defines a maximum hour angle for the query, default: 0

rate_cutofffloat, optional

Angular range rate upper limit cutoff in arcsec/h; default: disabled

skip_daylightboolean, optional

Crop daylight epochs in query, default: False

refractionboolean

If True, coordinates account for a standard atmosphere refraction model; if False, coordinates do not account for refraction (airless model); default: False

refsystemstring

Coordinate reference system: 'ICRF' or 'B1950'; default: 'ICRF'

closest_apparitionboolean, optional

Only applies to comets. This option will choose the closest apparition available in time to the selected epoch; default: False. Do not use this option for non-cometary objects.

no_fragmentsboolean, optional

Only applies to comets. Reject all comet fragments from selection; default: False. Do not use this option for non-cometary objects.

quantitiesinteger or string, optional

Single integer or comma-separated list in the form of a string corresponding to all the quantities to be queried from JPL Horizons using the coding according to the JPL Horizons User Manual Definition of Observer Table Quantities; default: all quantities

get_query_payloadboolean, optional

When set to True the method returns the HTTP request parameters as a dict, default: False

get_raw_responseboolean, optional

Return raw data as obtained by JPL Horizons without parsing the data into a table, default: False

extra_precisionboolean, optional

Enables extra precision in RA and DEC values; default: False

Returns:

responserequests.Response

The response of the HTTP request.

Examples

>>> from astroquery.jplhorizons import Horizons
>>> obj = Horizons(id='Ceres', location='568',
...             epochs={'start':'2010-01-01',
...                     'stop':'2010-03-01',
...                     'step':'10d'})
>>> eph = obj.ephemerides()  
>>> print(eph)  
    targetname       datetime_str   datetime_jd ...  PABLon  PABLat
       ---               ---             d      ...   deg     deg
----------------- ----------------- ----------- ... -------- ------
1 Ceres (A801 AA) 2010-Jan-01 00:00   2455197.5 ... 238.2494 4.5532
1 Ceres (A801 AA) 2010-Jan-11 00:00   2455207.5 ... 241.3339 4.2832
1 Ceres (A801 AA) 2010-Jan-21 00:00   2455217.5 ... 244.3394 4.0089
1 Ceres (A801 AA) 2010-Jan-31 00:00   2455227.5 ... 247.2518 3.7289
1 Ceres (A801 AA) 2010-Feb-10 00:00   2455237.5 ... 250.0576 3.4415
1 Ceres (A801 AA) 2010-Feb-20 00:00   2455247.5 ... 252.7383 3.1451

vectors(*args, **kwargs)

Queries the service and returns a table object.

Query JPL Horizons for state vectors.

The location parameter in HorizonsClass refers in this case to the center body relative to which the vectors are provided.

The following table lists the values queried, their definitions, data types, units, and original Horizons designations (where available). For more information on the definitions of these quantities, please refer to the Horizons User Manual.

Column Name	Definition
targetname	official number, name, designation (string)
H	absolute magnitude in V band (float, mag)
G	photometric slope parameter (float)
M1	comet total abs mag (float, mag, M1)
M2	comet nuclear abs mag (float, mag, M2)
k1	total mag scaling factor (float, k1)
k2	nuclear mag scaling factor (float, k2)
phasecoeff	comet phase coeff (float, mag/deg, PHCOFF)
datetime_str	epoch Date (str, Calendar Date (TDB))
datetime_jd	epoch Julian Date (float, JDTDB)
delta_T	time-varying difference between TDB and UT (float, delta-T, optional)
x	x-component of position vector (float, au, X)
y	y-component of position vector (float, au, Y)
z	z-component of position vector (float, au, Z)
vx	x-component of velocity vector (float, au/d, VX)
vy	y-component of velocity vector (float, au/d, VY)
vz	z-component of velocity vector (float, au/d, VZ)
lighttime	one-way lighttime (float, d, LT)
range	range from coordinate center (float, au, RG)
range_rate	range rate (float, au/d, RR)

Parameters:

closest_apparitionboolean, optional

Only applies to comets. This option will choose the closest apparition available in time to the selected epoch; default: False. Do not use this option for non-cometary objects.

no_fragmentsboolean, optional

Only applies to comets. Reject all comet fragments from selection; default: False. Do not use this option for non-cometary objects.

get_query_payloadboolean, optional

When set to True the method returns the HTTP request parameters as a dict, default: False

get_raw_response: boolean, optional

Return raw data as obtained by JPL Horizons without parsing the data into a table, default: False

refplanestring

Reference plane for all output quantities: 'ecliptic' (ecliptic and mean equinox of reference epoch), 'earth' (Earth mean equator and equinox of reference epoch), or 'body' (body mean equator and node of date); default: 'ecliptic'.

See Horizons Reference Frames in the astroquery documentation for details.

aberrationsstring, optional

Aberrations to be accounted for: ['geometric', 'astrometric', 'apparent']. Default: 'geometric'

delta_Tboolean, optional

Triggers output of time-varying difference between TDB and UT time-scales. Default: False

Returns:

tableA Table object.

Examples

>>> from astroquery.jplhorizons import Horizons
>>> obj = Horizons(id='2012 TC4', location='257',
...             epochs={'start':'2017-10-01',
...                     'stop':'2017-10-02',
...                     'step':'10m'})
>>> vec = obj.vectors()  
>>> print(vec)  
targetname  datetime_jd  ...      range          range_rate
   ---           d       ...        AU             AU / d
---------- ------------- ... --------------- -----------------
(2012 TC4)     2458027.5 ... 0.0429332099306 -0.00408018711862
(2012 TC4) 2458027.50694 ... 0.0429048742906 -0.00408040726527
(2012 TC4) 2458027.51389 ... 0.0428765385796 -0.00408020747595
(2012 TC4) 2458027.52083 ... 0.0428482057142  -0.0040795878561
(2012 TC4) 2458027.52778 ...  0.042819878607 -0.00407854931543
(2012 TC4) 2458027.53472 ... 0.0427915601617  -0.0040770935665
       ...           ... ...             ...               ...
(2012 TC4) 2458028.45833 ... 0.0392489462501 -0.00405496595173
(2012 TC4) 2458028.46528 ...   0.03922077771 -0.00405750632914
(2012 TC4) 2458028.47222 ...  0.039192592935 -0.00405964084539
(2012 TC4) 2458028.47917 ...  0.039164394759 -0.00406136516755
(2012 TC4) 2458028.48611 ... 0.0391361860433 -0.00406267574646
(2012 TC4) 2458028.49306 ... 0.0391079696711  -0.0040635698239
(2012 TC4)     2458028.5 ... 0.0390797485422 -0.00406404543822
Length = 145 rows

vectors_async(get_query_payload=False, closest_apparition=False, no_fragments=False, get_raw_response=False, cache=True, refplane='ecliptic', aberrations='geometric', delta_T=False)

Query JPL Horizons for state vectors.

The location parameter in HorizonsClass refers in this case to the center body relative to which the vectors are provided.

The following table lists the values queried, their definitions, data types, units, and original Horizons designations (where available). For more information on the definitions of these quantities, please refer to the Horizons User Manual.

Column Name	Definition
targetname	official number, name, designation (string)
H	absolute magnitude in V band (float, mag)
G	photometric slope parameter (float)
M1	comet total abs mag (float, mag, M1)
M2	comet nuclear abs mag (float, mag, M2)
k1	total mag scaling factor (float, k1)
k2	nuclear mag scaling factor (float, k2)
phasecoeff	comet phase coeff (float, mag/deg, PHCOFF)
datetime_str	epoch Date (str, Calendar Date (TDB))
datetime_jd	epoch Julian Date (float, JDTDB)
delta_T	time-varying difference between TDB and UT (float, delta-T, optional)
x	x-component of position vector (float, au, X)
y	y-component of position vector (float, au, Y)
z	z-component of position vector (float, au, Z)
vx	x-component of velocity vector (float, au/d, VX)
vy	y-component of velocity vector (float, au/d, VY)
vz	z-component of velocity vector (float, au/d, VZ)
lighttime	one-way lighttime (float, d, LT)
range	range from coordinate center (float, au, RG)
range_rate	range rate (float, au/d, RR)

Parameters:

closest_apparitionboolean, optional

Only applies to comets. This option will choose the closest apparition available in time to the selected epoch; default: False. Do not use this option for non-cometary objects.

no_fragmentsboolean, optional

Only applies to comets. Reject all comet fragments from selection; default: False. Do not use this option for non-cometary objects.

get_query_payloadboolean, optional

When set to True the method returns the HTTP request parameters as a dict, default: False

get_raw_response: boolean, optional

Return raw data as obtained by JPL Horizons without parsing the data into a table, default: False

refplanestring

Reference plane for all output quantities: 'ecliptic' (ecliptic and mean equinox of reference epoch), 'earth' (Earth mean equator and equinox of reference epoch), or 'body' (body mean equator and node of date); default: 'ecliptic'.

See Horizons Reference Frames in the astroquery documentation for details.

aberrationsstring, optional

Aberrations to be accounted for: ['geometric', 'astrometric', 'apparent']. Default: 'geometric'

delta_Tboolean, optional

Triggers output of time-varying difference between TDB and UT time-scales. Default: False

Returns:

responserequests.Response

The response of the HTTP request.

Examples

>>> from astroquery.jplhorizons import Horizons
>>> obj = Horizons(id='2012 TC4', location='257',
...             epochs={'start':'2017-10-01',
...                     'stop':'2017-10-02',
...                     'step':'10m'})
>>> vec = obj.vectors()  
>>> print(vec)  
targetname  datetime_jd  ...      range          range_rate
   ---           d       ...        AU             AU / d
---------- ------------- ... --------------- -----------------
(2012 TC4)     2458027.5 ... 0.0429332099306 -0.00408018711862
(2012 TC4) 2458027.50694 ... 0.0429048742906 -0.00408040726527
(2012 TC4) 2458027.51389 ... 0.0428765385796 -0.00408020747595
(2012 TC4) 2458027.52083 ... 0.0428482057142  -0.0040795878561
(2012 TC4) 2458027.52778 ...  0.042819878607 -0.00407854931543
(2012 TC4) 2458027.53472 ... 0.0427915601617  -0.0040770935665
       ...           ... ...             ...               ...
(2012 TC4) 2458028.45833 ... 0.0392489462501 -0.00405496595173
(2012 TC4) 2458028.46528 ...   0.03922077771 -0.00405750632914
(2012 TC4) 2458028.47222 ...  0.039192592935 -0.00405964084539
(2012 TC4) 2458028.47917 ...  0.039164394759 -0.00406136516755
(2012 TC4) 2458028.48611 ... 0.0391361860433 -0.00406267574646
(2012 TC4) 2458028.49306 ... 0.0391079696711  -0.0040635698239
(2012 TC4)     2458028.5 ... 0.0390797485422 -0.00406404543822
Length = 145 rows