(Redirected from Isotropic)
'Isotropy' (the opposite of
anisotropy) is the property of being independent of direction.
Isotropic radiation has the same intensity regardless of the direction of
measurement, and an isotropic field exerts the same action regardless of how the test
particle is oriented.
★ Within
mathematics, ''Isotropy'' has a few different meanings:
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★
Isotropic manifolds: Some
manifolds are isotropic, meaning that the
geometry on the manifold is the same regardless of direction. A similar concept is
homogeneity. A manifold can be homogeneous without being isotropic. But if it is inhomogeneous, it is necessarily anisotropic.
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★
Isotropic quadratic form: A
quadratic form ''q'' is said to be isotropic if there is a non-zero vector ''v'' such that ''q(v)=0''.
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★
Isotropic coordinates on an
Isotropic chart for
Lorentzian manifolds.
★ ''Cosmology'': The
Big Bang theory of the evolution of the observable universe assumes that space is isotropic. It also assumes that space is homogeneous. These two assumptions together are known as the
Cosmological Principle. As of
2006, the observations suggest that, on distance scales much larger than galaxies, galaxy clusters are
"Great" features, but small compared to so-called multi-verse scenarios; the Cosmological Principle is a good assumption.
★ ''Cell biology'': If the properties of the
cell wall are more or less the same everywhere, it is said to be isotropic. The interior of the cell is anisotropic due to intracellular
organelles.
★ ''Radio broadcasting'': In
radio, an
isotropic antenna is an idealized "
radiating element" used as a
reference; an
antenna that broadcasts power equally (calculated by the
Poynting vector) in all directions. In practice, an isotropic antenna cannot exist, as equal radiation in all directions would be a violation of the
Helmholtz wave equation. The gain of an arbitrary antenna is usually reported in
decibels relative to an isotropic antenna, and is expressed as dBi or dB(i).
★ ''Physiology'': In skeletal muscle cells (a.k.a.
muscle fibers), the term "
isotropic" refers to the light bands (
I bands) that contribute to the striated pattern of the cells.
★ ''Materials'': In the study of
mechanical properties of materials, "isotropic" means having identical values of a property in all
crystallographic directions.
★ ''Optics'': Optical isotropy means having the same optical properties in all directions. The individual
reflectance or
transmittance of the domains is averaged if the macroscopic reflectance or transmittance is to be calculated. This can be verified simply by investigating, e.g., a
polycrystalline material under a polarizing microscope having the polarizers crossed: If the crystallites are larger than the resolution limit, they will be visible.
★ ''Microfabrication'': In industrial processes, such as etching steps, isotropic means that the process proceeds at the same rate, regardless of direction. Simple chemical reaction and removal of a substrate by an acid, a solvent or a reactive gas is often very close to isotropic. Conversely, anisotropic means that the attack rate of the substrate is higher in a certain direction. Anisotropic etch processes, where vertical etch-rate is high, but lateral etch-rate is very small are essential processes in
microfabrication of
integrated circuits and
MEMS devices.
See also
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Rotational invariance
★
Isotropic bands
★
Isotropic coordinates
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