Heliocentric Julian Day
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The Heliocentric Julian Date (HJD) is the
Julian Date The Julian day is the continuous count of days since the beginning of the Julian period, and is used primarily by astronomers, and in software for easily calculating elapsed days between two events (e.g. food production date and sell by date). ...
(JD) corrected for differences in the
Earth Earth is the third planet from the Sun and the only astronomical object known to harbor life. While large volumes of water can be found throughout the Solar System, only Earth sustains liquid surface water. About 71% of Earth's surfa ...
's position with respect to the
Sun The Sun is the star at the center of the Solar System. It is a nearly perfect ball of hot plasma, heated to incandescence by nuclear fusion reactions in its core. The Sun radiates this energy mainly as light, ultraviolet, and infrared radi ...
. When timing events that occur beyond the
Solar System The Solar System Capitalization of the name varies. The International Astronomical Union, the authoritative body regarding astronomical nomenclature, specifies capitalizing the names of all individual astronomical objects but uses mixed "Solar ...
, due to the finite
speed of light The speed of light in vacuum, commonly denoted , is a universal physical constant that is important in many areas of physics. The speed of light is exactly equal to ). According to the special theory of relativity, is the upper limit ...
, the time the event is observed depends on the changing position of the observer in the Solar System. Before multiple observations can be combined, they must be reduced to a common, fixed, reference location. This correction also depends on the direction to the object or event being timed.


Magnitude and limitations

The correction is zero (HJD = JD) for objects at the poles of the
ecliptic The ecliptic or ecliptic plane is the orbital plane of the Earth around the Sun. From the perspective of an observer on Earth, the Sun's movement around the celestial sphere over the course of a year traces out a path along the ecliptic agains ...
. Elsewhere, it is approximately an annual sine curve, and the highest amplitude occurs on the ecliptic. The maximum correction corresponds to the time in which light travels the distance from the Sun to the Earth, i.e. ±8.3 min (500 s, 0.0058 days). JD and HJD are defined independent of the
time standard A time standard is a specification for measuring time: either the rate at which time passes or points in time or both. In modern times, several time specifications have been officially recognized as standards, where formerly they were matters o ...
. Rather, JD can be expressed as e.g. UTC, UT1, TT or
TAI Tai or TAI may refer to: Arts and entertainment *Tai (comics) a fictional Marvel Comics supervillain *Tai Fraiser, a fictional character in the 1995 film ''Clueless'' *Tai Kamiya, a fictional character in ''Digimon'' Businesses and organisations ...
. The differences between these time standards are of the order of a minute, so that for minute accuracy of timings the standard used has to be stated. The HJD correction involves the heliocentric position of the Earth, which is expressed in TT. While the practical choice may be UTC, the natural choice is TT. Since the Sun itself orbits around the
barycentre In astronomy, the barycenter (or barycentre; ) is the center of mass of two or more bodies that orbit one another and is the point about which the bodies orbit. A barycenter is a dynamical point, not a physical object. It is an important co ...
of the Solar System, the HJD correction is not actually to a fixed reference. The difference between correction to the heliocentre and to the barycentre is up to ±4 s. For second accuracy, the
Barycentric Julian Date The Barycentric Julian Date (BJD) is the Julian Date (JD) corrected for differences in the Earth's position with respect to the barycentre of the Solar System. Due to the finite speed of light, the time an astronomical event is observed depends o ...
(BJD) should be calculated instead of the HJD. The common formulation of the HJD correction assumes that the object is at infinite distance, certainly beyond the Solar System. The resulting error for
Edgeworth-Kuiper Belt The Kuiper belt () is a circumstellar disc in the outer Solar System, extending from the orbit of Neptune at 30 astronomical units (AU) to approximately 50 AU from the Sun. It is similar to the asteroid belt, but is far larger—20 time ...
objects would be 5 s, and for objects in the
main asteroid belt The asteroid belt is a torus-shaped region in the Solar System, located roughly between the orbits of the planets Jupiter and Mars. It contains a great many solid, irregularly shaped bodies, of many sizes, but much smaller than planets, called ...
it would be 100 s. In this calculation, the
Moon The Moon is Earth's only natural satellite. It is the fifth largest satellite in the Solar System and the largest and most massive relative to its parent planet, with a diameter about one-quarter that of Earth (comparable to the width of ...
– which is closer than the Sun – can be wrongly placed on the far side of the Sun, resulting in an error of about 15 min.


Calculation

In terms of the vector \vec from the heliocentre to the observer, the unit vector \hat from the observer toward the object or event, and the speed of light c: HJD = JD + \frac When the
scalar product In mathematics, the dot product or scalar productThe term ''scalar product'' means literally "product with a scalar as a result". It is also used sometimes for other symmetric bilinear forms, for example in a pseudo-Euclidean space. is an alge ...
is expressed in terms of the right ascension \alpha and declination \delta of the Sun (index \odot) and of the extrasolar object this becomes: HJD = JD - \frac \cdot sin(\delta) \cdot \sin(\delta_) + \cos(\delta) \cdot \cos(\delta_) \cdot \cos(\alpha - \alpha_)/math> where r is the distance between Sun and observer. The same equation can be used with any
astronomical coordinate system Astronomical coordinate systems are organized arrangements for specifying positions of satellites, planets, stars, galaxies, and other celestial objects relative to physical reference points available to a situated observer (e.g. the true hor ...
. In
ecliptic coordinates The ecliptic coordinate system is a celestial coordinate system commonly used for representing the apparent positions, orbits, and pole orientations of Solar System objects. Because most planets (except Mercury) and many small Solar System bodi ...
the Sun is at latitude zero, so that HJD = JD - \frac \cdot \cos(\beta) \cdot \cos(\lambda - \lambda_)


See also

*
Barycentric Julian Date The Barycentric Julian Date (BJD) is the Julian Date (JD) corrected for differences in the Earth's position with respect to the barycentre of the Solar System. Due to the finite speed of light, the time an astronomical event is observed depends o ...
*
Time standard A time standard is a specification for measuring time: either the rate at which time passes or points in time or both. In modern times, several time specifications have been officially recognized as standards, where formerly they were matters o ...


References

* * A. Hirshfeld, R.W. Sinnott (1997). ''Sky catalogue 2000.0, volume 2, double stars, variable stars and nonstellar objects'', p. xvii. Sky Publishing Corporation () and Cambridge University Press ({{ISBN, 0-521-27721-3).


External links


http://astroutils.astronomy.ohio-state.edu/time/
Online converter from UTC to BJDTDB, BJDTDB to UTC, or HJD (UTC or TT) to BJDTDB. Time scales Time in astronomy