Everything about Background Astronomy totally explained
In
astronomy,
background commonly refers to the incoming light from an apparently empty part of the night
sky.
Even if no visible astronomical objects are present in given part of the sky, there always is some low luminosity present, due mostly to light diffusion from the
atmosphere (diffusion of both incoming light from nearby sources, and of man-made Earth sources like cities). In the visible band, luminosity level is around the 25th
magnitude per square-
arcsecond: a very low level, but anyway well within the limits of the current generation of
telescopes. The
Hubble Space Telescope doesn't suffer from this problem.
In
infrared astronomy, the problem can be much worse: due to the longer
wavelengths involved, the sky and the telecope themselves are a source of light! To work around this problem, infrared telescopes often use a technique called chopping, where a mirror rapidly oscillates between the object of interest and the nearby, empty sky. The two images can be subtracted, leaving hopefully only the incoming light from the source.
There are several sources which contribute to the brightness of the (night) sky.
Some of these are instrumental, or due to the presence of the atmosphere
(like the
airglow), in the case of ground based instruments.
Even if we able to minimize the effect of instrumental and atmospherical components
(for example using a spacecraft), there are still several
astrophysical components contributing to the
sky background: these could be sets of point sources like faint asteroids,
Galactic stars and far away galaxies, as well as diffuse sources like dust in the
Solar System, in the Milky Way, and in the intergalactic space. The actual importance
of a specific component depends mostly of the wavelength of the measurement. The
uncertainty (or noise) of the measurements caused by the astrophysical components of the sky background is called
confusion noise.
In astronomical
CCD technology,
background is usually referred to the overall optical "noise" of the system, that is, the incoming light on the CCD sensor in absence of light sources. This background can originate from electronic noise in the CCD, from not-well-masked lights nearby the telescope, and so on. An exposure on an empty patch of the sky is also called a background, and is the sum of the system background level plus the sky's one.
A
background frame is often the first exposure in an astronomical observation with a CCD: the frame will then be subtracted from the actual observation result, leaving in theory only the incoming light from the astronomical object being observed.
Further Information
Get more info on 'Background Astronomy'.
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