BarycentricTrueEcliptic#

class astropy.coordinates.BarycentricTrueEcliptic(*args, copy=True, representation_type=None, differential_type=None, **kwargs)[source]#

Bases: BaseEclipticFrame

Barycentric true ecliptic coordinates. These origin of the coordinates are the barycenter of the solar system, with the x axis pointing in the direction of the true (not mean) equinox as at the time specified by the equinox attribute (as seen from Earth), and the xy-plane in the plane of the ecliptic for that date.

The frame attributes are listed under Other Parameters.

Parameters:

dataBaseRepresentation subclass instance: A representation object or None to have no data (or use the coordinate component arguments, see below).
lonAngle, optional, keyword-only: The ecliptic longitude for this object (lat must also be given and representation must be None).
latAngle, optional, keyword-only: The ecliptic latitude for this object (lon must also be given and representation must be None).
distanceQuantity [:ref: ‘length’], optional, keyword-only: The distance for this object from the barycenter. (representation must be None).
pm_lon_coslatQuantity [‘angualar speed’], optional, keyword-only: The proper motion in the ecliptic longitude (including the cos(lat) factor) for this object (pm_lat must also be given).
pm_latQuantity [:ref: ‘angular speed’], optional, keyword-only: The proper motion in the ecliptic latitude for this object (pm_lon_coslat must also be given).
radial_velocityQuantity [:ref: ‘speed’], optional, keyword-only: The radial velocity of this object.
representation_typeBaseRepresentation subclass, str, optional: A representation class or string name of a representation class. This sets the expected input representation class, thereby changing the expected keyword arguments for the data passed in. For example, passing representation_type='cartesian' will make the classes expect position data with cartesian names, i.e. x, y, z in most cases unless overridden via frame_specific_representation_info. To see this frame’s names, check out <this frame>().representation_info.
differential_typeBaseDifferential subclass, str, dict, optional: A differential class or dictionary of differential classes (currently only a velocity differential with key ‘s’ is supported). This sets the expected input differential class, thereby changing the expected keyword arguments of the data passed in. For example, passing differential_type='cartesian' will make the classes expect velocity data with the argument names v_x, v_y, v_z unless overridden via frame_specific_representation_info. To see this frame’s names, check out <this frame>().representation_info.
copybool, optional: If True (default), make copies of the input coordinate arrays. Can only be passed in as a keyword argument.

Other Parameters:

equinoxTime, optional: The date to assume for this frame. Determines the location of the x-axis and the location of the Earth and Sun. Defaults to the ‘J2000’ equinox.

Attributes Summary

`default_differential`	Default representation for differential data (e.g., velocity)
`default_representation`	Default representation for position data
`equinox`
`frame_attributes`
`frame_specific_representation_info`	Mapping for frame-specific component names
`name`

Attributes Documentation

default_differential#: Default representation for differential data (e.g., velocity)

default_representation#: Default representation for position data

equinox = <Time object: scale='tt' format='jyear_str' value=J2000.000>#

frame_attributes = {'equinox': <astropy.coordinates.attributes.TimeAttribute object>}#

frame_specific_representation_info#: Mapping for frame-specific component names

name = 'barycentrictrueecliptic'#