Bond albedo

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Template:Short description Template:More citations needed The Bond albedo (also called spheric albedo, planetary albedo, and bolometric albedo), named after the American astronomer George Phillips Bond (1825–1865), who originally proposed it, is the fraction of power in the total electromagnetic radiation incident on an astronomical body that is scattered back out into space.

Because the Bond albedo accounts for all of the light scattered from a body at all wavelengths and all phase angles, it is a necessary quantity for determining how much energy a body absorbs. This, in turn, is crucial for determining the equilibrium temperature of a body.

Because bodies in the outer Solar System are always observed at very low phase angles from the Earth, the only reliable data for measuring their Bond albedo comes from spacecraft.

Phase integral

The Bond albedo (A) is related to the geometric albedo (p) by the expression

A=pq

where q is termed the phase integral and is given in terms of the directional scattered flux I(α) into phase angle α (averaged over all wavelengths and azimuthal angles) as

q=20πI(α)I(0)sinαdα.

The phase angle α is the angle between the source of the radiation (usually the Sun) and the observing direction, and varies from zero for light scattered back towards the source, to 180° for observations looking towards the source. For example, during opposition or looking at the full moon, α is very small, while backlit objects or the new moon have α close to 180°.

Examples

The Bond albedo is a value strictly between 0 and 1, as it includes all possible scattered light (but not radiation from the body itself). This is in contrast to other definitions of albedo such as the geometric albedo, which can be above 1. In general, though, the Bond albedo may be greater or smaller than the geometric albedo, depending on the surface and atmospheric properties of the body in question.

Some examples:[1]

Name Bond albedo Visual geometric albedo
Mercury[2][3] Template:Bartable Template:Bartable
Venus[4][3] Template:Bartable Template:Bartable
Earth[5][3] Template:Bartable Template:Bartable
Moon[6] Template:Bartable Template:Bartable
Mars [7][3] Template:Bartable Template:Bartable
Jupiter[8][3] Template:Bartable Template:Bartable
Saturn[9][3] Template:Bartable Template:Bartable
Enceladus[10][11] Template:Bartable Template:Bartable
Uranus[12][3] Template:Bartable Template:Bartable
Neptune[13][3] Template:Bartable Template:Bartable
Pluto[14] Template:Bartable Template:Bartable
Charon[15] Template:Bartable Template:Bartable
Haumea[14] Template:Bartable Template:Bartable
Makemake[14] Template:Bartable Template:Bartable
Eris[14] Template:Bartable Template:Bartable

See also

References

Template:Reflist

  1. Albedo of the Earth
  2. Template:Cite arXiv
  3. 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Template:Cite journal
  4. Template:Cite journal
  5. Template:Cite web
  6. Template:Cite web
  7. Mars Fact Sheet, NASA
  8. Template:Cite journal
  9. Template:Cite journal
  10. Template:Cite journal (supporting online material, table S1)
  11. Template:Cite journal
  12. Template:Cite journal
  13. Template:Cite journal
  14. 14.0 14.1 14.2 14.3 Template:Cite journal
  15. Template:Cite journal
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