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In astronomy
Astronomy

Astronomy is the science of Astronomical object and Phenomenon that originate outside the Earth's atmosphere . It is concerned with the evolution, physics, chemistry, meteorology, and motion of celestial objects, as well as the physical cosmology....
, an epoch is a moment in time used as a reference for the orbital elements
Orbital elements

In celestial mechanics, the elements of an orbit are the parameters needed to specify that orbit uniquely. Orbital elements are generally considered in classical mechanics two-body systems, where a Kepler orbit is used ....
 of a celestial body. Typically, the epoch is either the moment an observation was made or the moment for which a prediction was calculated.

difference between epoch and Equinox
Equinox (celestial coordinates)

In astronomy, equinox is a moment in time at which the vernal point, celestial equator, and other such elements are taken to be used in the definition of a celestial coordinate system....
 is that the equinox addresses changes in the coordinate system, while the epoch addresses changes in the position of the celestial body itself.






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In astronomy
Astronomy

Astronomy is the science of Astronomical object and Phenomenon that originate outside the Earth's atmosphere . It is concerned with the evolution, physics, chemistry, meteorology, and motion of celestial objects, as well as the physical cosmology....
, an epoch is a moment in time used as a reference for the orbital elements
Orbital elements

In celestial mechanics, the elements of an orbit are the parameters needed to specify that orbit uniquely. Orbital elements are generally considered in classical mechanics two-body systems, where a Kepler orbit is used ....
 of a celestial body. Typically, the epoch is either the moment an observation was made or the moment for which a prediction was calculated.

Epoch versus equinox

The difference between epoch and Equinox
Equinox (celestial coordinates)

In astronomy, equinox is a moment in time at which the vernal point, celestial equator, and other such elements are taken to be used in the definition of a celestial coordinate system....
 is that the equinox addresses changes in the coordinate system, while the epoch addresses changes in the position of the celestial body itself. The equinox defines (partly) which coordinate system is used. The epoch defines (completely) which moment observations or predictions are valid. A particular coordinate system (equinox) could be used forever, but a set of predictions for a particular date (epoch) will be (approximately) valid for only a limited time. Coordinates must specify the coordinate system
Coordinate system

In mathematics and its applications, a coordinate system is a system for assigning an n-tuple of numbers or scalar to each Point in an n-dimensional space....
 used. The most common celestial coordinate systems are equatorial coordinates and ecliptic coordinates. These are relative to the vernal equinox position, which itself is determined by the orientations of the Earth
Earth

Earth is the third planet from the Sun. Earth is the largest of the terrestrial planets in the Solar System in diameter, mass and density. It is also referred to as the World and Wiktionary:Terra.Note that by International Astronomical Union convention, the term "Terra" is used for naming extensive land masses, rather...
's rotation axis and orbit around the Sun
Sun

The Sun , a G V star, is the star at the center of the Solar System. The Earth and other matter orbit the Sun, which by itself accounts for about 98.6% of the Solar System's mass....
. These orientations vary (though slowly, e.g. due to precession
Precession

Precession refers to a change in the direction of the axis of a rotation object. In physics, there are two types of precession, torque-free and torque-induced, the latter being discussed here in more detail....
), so there is an infinite number of such coordinate systems possible.

For example, the boundaries of the IAU
International Astronomical Union

The International Astronomical Union is a collection of professional astronomers, at the Ph.D. level and beyond, active in professional research and education in astronomy....
 constellation
Constellation

A constellation is a group of stars that appear to have a physical proximity in the sky. The stars in a constellation are often vastly distant from each other, but they appear close to each other from the perspective of Earth....
s are specified relative to an equinox from near the beginning of the year 1875. To find out in which constellation a particular comet stands today, the current position of that comet must be expressed in the coordinate system of 1875 (epoch = now, equinox = 1875). That coordinate system can still be used today, while hardly any predictions made originally for 1875 (epoch = 1875) are still useful today.

Equinox of the date means that the equinox is the same as the epoch.

Changing the standard equinox and epoch

Calculation of celestial object visibility to an observer at a specific location on Earth requires the equatorial coordinates of the object, relative to the equinox of the date. If the coordinates relative to some other equinox are used, then that will cause errors in the results. The magnitude of those errors increases with the time difference compared to the equinox of the date, because of precession of the equinoxes. If the time difference is small, then fairly easy and small corrections for the precession suffice. If the time difference gets large, then tedious, complicated corrections must be applied. So, a stellar position read from a star atlas or catalog that is based on a sufficiently old equinox cannot be used without corrections, if reasonable accuracy is required.

Additionally, stars move relative to each other through space. Apparent motion across the sky relative to other stars is called proper motion
Proper motion

The proper motion of a star is its angular change in position over time as seen from the Sun, as inferred after improper motions are accounted for....
. Most stars have very small proper motions, but a few have proper motions that accumulate to noticeable distances after a few tens of years. So, some stellar positions read from a star atlas or catalog for a sufficiently old epoch require proper motion corrections, for reasonable accuracy.

Due to precession and proper motion, star positions become less useful as their equinox and epoch get older. After a while, it is easier to switch to a newer epoch and equinox than keep applying corrections to data from the older epoch and equinox.

Specifying an epoch or equinox

Epochs and equinoxes are moments in time, so they can be specified in the same way as moments that indicate things other than epochs and equinoxes. The following standard ways of specifying epochs and equinoxes seem most popular:

  • Julian Day Numbers
    Julian day

    The Julian date is the interval of time in days and fractions of a day, since January 1, 4713 BC Greenwich noon, Julian proleptic calendar. In precise work, the timescale, e.g., Terrestrial Time or Universal Time , should be specified....
    , e.g., JDN
    JDN

    The Joint Data Network is an interconnected computer network of Joint Tactical Information Distribution System ?based systems, which links air and missile defense command and control and weapons systems across Military of the United States....
     2433282.4235 for 1950 January 0.9235 TT
    Terrestrial Time

    Terrestrial Time is the modern astronomical time standard for the passage of time on the surface of the Earth . Since time moves at different rates for observers in different locations , and "the surface of the Earth" is not a single point in space, TT is a theoretical ideal; its measurement is approximated by the International Atomic Time...
  • Besselian years, e.g., 1950.0 or B1950.0 for 1950 January 0.9235 TT
  • Julian years
    Julian year (astronomy)

    In astronomy, a Julian year is a Units of measurement of time defined as exactly 365.25 days of 86,400 International System of Units seconds each, totalling 31,557,600 seconds....
    , e.g., J2000.0 for 2000 January 1.5000 TT


All three of these are expressed in TT = Terrestrial Time
Terrestrial Time

Terrestrial Time is the modern astronomical time standard for the passage of time on the surface of the Earth . Since time moves at different rates for observers in different locations , and "the surface of the Earth" is not a single point in space, TT is a theoretical ideal; its measurement is approximated by the International Atomic Time...
.

Besselian and Julian years are not often used to specify an epoch, except for things that vary very slowly, such as star positions. For example, the Hipparcos
Hipparcos

Hipparcos was a scientific mission of the European Space Agency , launched in 1989 and operated between 1989 and 1993. It was the first space experiment devoted to astrometry, the accurate measurement of star positions, parallaxes, and proper motions....
 catalog summary defines the 'catalog epoch' to be equal to J1991.25, which is in terms of Julian years.

Besselian years

A Besselian year is named after the German mathematician and astronomer Friedrich Bessel
Friedrich Bessel

Friedrich Wilhelm Bessel was a Germany mathematician, astronomer, and systematizer of the Bessel functions . He was a contemporary of Carl Friedrich Gauss, also a mathematician and astronomer....
 (1784 – 1846). Meeus defines the beginning of a Besselian year to be the moment at which the mean longitude
Mean longitude

In astrodynamics or celestial dynamics mean longitude is the longitude at which an orbiting body could be found if its orbit were circular orbit and its inclination were zero....
 of the Sun, including the effect of aberration
Aberration

Aberration is something that deviates from the normal way but has several specifically defined meanings:*Optical aberration, an imperfection in image formation by an optical system...
 and measured from the mean equinox of the date, is exactly 280 degrees. This moment falls near the beginning of the corresponding Gregorian year. Unfortunately, the orbit of the Earth around the Sun is not entirely fixed, so the length of the Besselian year according to this definition is not constant. This makes Besselian years somewhat difficult to work with.

Lieske says that a 'Besselian epoch' can be calculated from the Julian date according to

B = 1900.0 + (Julian date - 2415020.31352) / 365.242198781


This relationship is included in the SOFA software library
SOFA (Astronomy)

The SOFA software libraries are a collection of subroutines that implement official International Astronomical Union algorithms for astronomical computations....
, which implies endorsement by the IAU.

Lieske's definition is not consistent with the earlier definition in terms of the mean longitude of the Sun. When using Besselian years, specify which definition is being used.

To distinguish between calendar years and Besselian years, it became customary to add '.0' to the Besselian years. Since the switch to Julian years in the mid-1980s, it has become customary to prefix 'B' to Besselian years. So, '1950' is the calendar year 1950, and '1950.0' = 'B1950.0' is the beginning of Besselian year 1950.

  • The IAU constellation boundaries are defined in the equatorial coordinate system relative to the equinox of B1875.0.
  • The Henry Draper Catalog uses the equinox B1900.0.
  • The classical star atlas Tabulae Caelestes used B1925.0 as its equinox.


According to Meeus, and also according to the formula given above,

  • B1900.0 = JDE 2415020.3135 = 1900 January 0.8135 TT
  • B1950.0 = JDE 2433282.4235 = 1950 January 0.9235 TT


B1900.0


B1950.0


Julian years

A Julian year, named after Julius Caesar
Julius Caesar

'Gaius Julius Caesar' , July 13, 100 BC ? March 15, 44 BC,) was a Roman Republic military and political leader. He played a critical role in the transformation of the Roman Republic into the Roman Empire....
 (100 BCE — 44 BCE), is a year of exactly 365.25 days. Julian year 2000 began on 2000 January 1 at exactly 12:00 TT. The beginning of Julian years are indicated with prefix 'J' and suffix '.0', for example 'J2000.0' for the beginning of Julian year 2000. Because Julian years have a fixed length, their beginning is far easier to calculate than that of Besselian years.

The IAU decided at their General Assembly of 1976 that the new standard equinox of J2000.0 should be used starting in 1984. (Before that, the equinox of B1950.0 seems to have been the standard.) If the past is a good guide, then we may expect to switch to J2050.0 in the mid-2030s.

Julian epochs are calculated according to:

J = 2000.0 + (Julian date - 2451545.0)/365.25


J2000.0

In astronomy, an epoch
Epoch (reference date)

In the fields of chronology and periodization, an epoch means an instant in time chosen as the origin of a particular era. The "epoch" then serves as a reference point from which time is measured....
 is a specific moment in time for which celestial coordinates
Celestial coordinate system

In astronomy, a celestial coordinate system is a coordinate system for mapping positions in the sky.There are different celestial coordinate systems each using a system of spherical coordinates projected on the celestial sphere, in analogy to the geographic coordinate system used on the surface of the Earth....
 or orbital elements
Orbital elements

In celestial mechanics, the elements of an orbit are the parameters needed to specify that orbit uniquely. Orbital elements are generally considered in classical mechanics two-body systems, where a Kepler orbit is used ....
 are specified, and from which other orbital parametrics are thereafter calculated in order to predict future position. The applied tools of the mathematics disciplines of Celestial mechanics
Celestial mechanics

Celestial mechanics is the branch of astronomy that deals with the motion s of celestial objects. The field applies principles of physics, historically classical mechanics, to astronomical objects such as stars and planets to produce ephemeris data....
 or its subfield Orbital mechanics (both predict orbital paths and positions) about a center of gravity are used to generate an ephemeris
Ephemeris

An ephemeris is a table of values that gives the positions of astronomical objects in the sky at a given time or times. Different kinds are used for astronomy and astrology....
 (plural: ephemerides; from the Greek word ephemeros = daily) which is a table of values that gives the positions of astronomical objects in the sky at a given time or times, or a formula to calculate such given the proper time offset from the epoch. Such calculations generally result in an elliptical path on a plane defined by some point on the orbit, and the two focii of the ellipse
Ellipse

In mathematics, an ellipse is the apparent shape of a circle viewed obliquely from outside it, as distinct from a hyperbola which is the shape seen from inside....
. Viewing from another orbiting body, following its own trace and orbit, creates shifts in three dimensions in the spherical trigonometry used to calculate relative positions. Over time, inexactitudes and other errors accumulate, creating more and greater errors of prediction, so ephemeris factors need recalculated from time to time, and that requires a new epoch to be defined. Different astronomers or groups of astronomers used to define epochs to suit themselves, but these days of speedy communications, the epochs are generally defined in an international agreement, so astronomers world wide can collaborate more effectively. It was inefficient and error prone to translate data observed by one group so other groups could compare information. An example of how this works: if a star's position is measured by someone today, he/she then obtains the change that occurred in the reference frame position since J2000 and corrects the star's position appropriately, yielding the position of the star relative to the reference frame of J2000. It is this J2000 position which is shared with others.

Therefore, the current epoch, defined by international agreement, is called J2000.0 and is precisely defined to be
  1. The Julian date 2451545.0 TT (Terrestrial Time
    Terrestrial Time

    Terrestrial Time is the modern astronomical time standard for the passage of time on the surface of the Earth . Since time moves at different rates for observers in different locations , and "the surface of the Earth" is not a single point in space, TT is a theoretical ideal; its measurement is approximated by the International Atomic Time...
    ), or January 1, 2000, noon TT.
  2. This is equivalent to January 1, 2000, 11:59:27.816 TAI (International Atomic Time
    International Atomic Time

    International Atomic Time is a high-precision atomic coordinate time time standard based on the notional passage of proper time on Earth's geoid....
    ) or
  3. January 1, 2000, 11:58:55.816 UTC (Coordinated Universal Time
    Coordinated Universal Time

    Coordinated Universal Time is a time standard based on International Atomic Time with leap seconds added at irregular intervals to compensate for the Earth's slowing rotation....
    ).


Epoch of the Day

In addition to its usual application concerning a reference point for long term astronomical calculations, the term Epoch has also been used to refer to the time of the beginning of the day
Day

A day is a units of measurement of time equivalent to approximately 24 hours. It is not an International System of Units unit but it is accepted for use with SI....
. In ordinary usage, the civil day
Civil time

In modern usage, civil time refers to statutory time scales designated by civilian authorities, or to local time indicated by clocks. Modern civil time is generally standard time at a fixed offset from Coordinated Universal Time or from GMT, possibly adjusted by daylight saving time during part of the year....
 is reckoned by the midnight
Midnight

Midnight is, literally, "the middle of the night." In most systems it is when one day ends and the next begins: when the date changes. Originally midnight was halfway between sunset and dawn, varying according to the seasons....
 epoch, that is, the civil day begins at midnight. In modern astronomical usage, it was common until 1925 to reckon by the noon
Noon

Noon is the hour of 12:00 in an observer's local time zone, or more loosely, a time near the middle of the day when workers in many countries take a meal break....
 epoch, in which the day begins when the mean sun crosses the meridian
Meridian (astronomy)

This article is about the astronomical concept. For other uses of the word, see meridian .In the sky, a meridian is an imaginary great circle on the celestial sphere....
 at noon.

In traditional cultures and in antiquity other epochs were used. In ancient Egypt days were reckoned from sunrise to sunrise, following the morning epoch. It has been suggested that this may be related to the fact that the Egyptians regulated their year by the heliacal rising
Heliacal rising

The heliacal rising of a star occurs when it first becomes visible above the eastern horizon at dawn, after a period when it was hidden below the horizon or when it was just above the horizon but hidden by the brightness of the sun....
 of the star Sirius
Sirius

Sirius is the list of brightest stars in the night sky with a visual apparent magnitude of −1.46, almost twice as bright as Canopus, the next brightest star....
, a phenomenon which occurs in the morning before dawn.

In cultures following a lunar
Lunar calendar

A lunar calendar is a calendar that is based on cycles of the moon phase. The only widely used purely lunar calendar is the Islamic calendar or Hijri calendar, whose year always consists of 12 lunar months....
 or lunisolar calendar
Lunisolar calendar

A lunisolar calendar is a calendar in many cultures whose date indicates both the moon phase and the time of the solar year. If the solar year is defined as a tropical year then a lunisolar calendar will give an indication of the season; if it is taken as a sidereal year then the calendar will predict the constellation near which the full moo...
, in which the beginning of the month is determined by the the appearance of the New Moon in the evening, the beginning of the day was reckoned from sunset to sunset, following the evening epoch. This practice was followed in the Jewish
Hebrew calendar

The Hebrew calendar or Jewish calendar is a lunisolar calendar used by Jews, now predominantly for religious purposes. It is used to reckon the Jewish New Year and dates for Jewish holidays, and also to determine appropriate Torah reading of Torah portions, Yahrzeits , and daily Psalm reading, among many ceremonial uses....
 and Islamic calendar
Islamic calendar

The Islamic calendar or Muslim calendar or Hijri calendar is a lunar calendar used to date events in many predominantly Muslim countries, and used by Muslims everywhere to determine the proper day on which to celebrate Islamic holy days and festivals....
s and in Medieval Western Europe in reckoning the dates of religious festivals.

See also

  • International Celestial Reference System
    International Celestial Reference System

    The International Celestial Reference System is the current standard celestial reference system adopted by the International Astronomical Union ....
  • International Celestial Reference Frame
    International Celestial Reference Frame

    The International Celestial Reference Frame is a quasi-inertial reference frame centered at the barycenter of the Solar system, defined by the measured positions of 212 extragalactic sources ....
  • Astrometry
    Astrometry

    Astrometry is the branch of astronomy that relates to precise measurements and explanations of the positions and movements of stars and other celestial bodies....


External links

  • - U.S. Naval Observatory
  • - U.S. Naval Observatory