index of imprimitivity - translation to ρωσικά
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index of imprimitivity - translation to ρωσικά

Imprimitivity; Mackey theory

index of imprimitivity      

математика

индекс импримитивности

index of refraction         
  • [[Diamond]]s have a very high refractive index of 2.417.
  • A [[calcite]] crystal laid upon a paper with some letters showing [[double refraction]]
  • A gradient-index lens with a parabolic variation of refractive index (''n'') with radial distance (''x''). The lens focuses light in the same way as a conventional lens.
  • power]] of a [[magnifying glass]] is determined by the shape and refractive index of the lens.
  • The variation of refractive index with wavelength for various glasses. The shaded zone indicates the range of visible light.
  •  Birefringent materials can give rise to colors when placed between crossed polarizers. This is the basis for [[photoelasticity]].
  • In a prism, dispersion causes different colors to refract at different angles, splitting white light into a rainbow of colors.
  • The principle of many refractometers
  • alt=Illustration of the incidence and refraction angles
  • A handheld refractometer used to measure the sugar content of fruits
  • A differential interference contrast microscopy image of yeast cells
  • [[Refraction]] of light at the interface between two media of different refractive indices, with ''n''<sub>2</sub> > ''n''<sub>1</sub>. Since the [[phase velocity]] is lower in the second medium (''v''<sub>2</sub> < ''v''<sub>1</sub>), the angle of refraction ''θ''<sub>2</sub> is less than the angle of incidence ''θ''<sub>1</sub>; that is, the ray in the higher-index medium is closer to the normal.
  • The colors of a [[soap bubble]] are determined by the [[optical path length]] through the thin soap film in a phenomenon called [[thin-film interference]].
  • A [[split-ring resonator]] array arranged to produce a negative index of refraction for [[microwaves]]
  • In [[optical mineralogy]], [[thin section]]s are used to study rocks. The method is based on the distinct refractive indices of different [[mineral]]s.
  • Thomas Young]] coined the term ''index of refraction''.
  • [[Total internal reflection]] can be seen at the air-water boundary.
  • Light of different colors has slightly different refractive indices in water and therefore shows up at different positions in the [[rainbow]].
RATIO OF THE SPEED OF LIGHT IN VACUUM TO THAT IN THE MEDIUM
Index of refraction; Refractive indices; Complex index of refraction; Index of Refraction; Refraction index; Refracting index; Refractivity; Refractive Index; Negative index of refraction; Index Of Refraction; Absolute refractive index; Optical extinction coefficient; Complex refractive index; Group index

общая лексика

показатель преломления

оптика

коэффициент преломления

refractive index         
  • [[Diamond]]s have a very high refractive index of 2.417.
  • A [[calcite]] crystal laid upon a paper with some letters showing [[double refraction]]
  • A gradient-index lens with a parabolic variation of refractive index (''n'') with radial distance (''x''). The lens focuses light in the same way as a conventional lens.
  • power]] of a [[magnifying glass]] is determined by the shape and refractive index of the lens.
  • The variation of refractive index with wavelength for various glasses. The shaded zone indicates the range of visible light.
  •  Birefringent materials can give rise to colors when placed between crossed polarizers. This is the basis for [[photoelasticity]].
  • In a prism, dispersion causes different colors to refract at different angles, splitting white light into a rainbow of colors.
  • The principle of many refractometers
  • alt=Illustration of the incidence and refraction angles
  • A handheld refractometer used to measure the sugar content of fruits
  • A differential interference contrast microscopy image of yeast cells
  • [[Refraction]] of light at the interface between two media of different refractive indices, with ''n''<sub>2</sub> > ''n''<sub>1</sub>. Since the [[phase velocity]] is lower in the second medium (''v''<sub>2</sub> < ''v''<sub>1</sub>), the angle of refraction ''θ''<sub>2</sub> is less than the angle of incidence ''θ''<sub>1</sub>; that is, the ray in the higher-index medium is closer to the normal.
  • The colors of a [[soap bubble]] are determined by the [[optical path length]] through the thin soap film in a phenomenon called [[thin-film interference]].
  • A [[split-ring resonator]] array arranged to produce a negative index of refraction for [[microwaves]]
  • In [[optical mineralogy]], [[thin section]]s are used to study rocks. The method is based on the distinct refractive indices of different [[mineral]]s.
  • Thomas Young]] coined the term ''index of refraction''.
  • [[Total internal reflection]] can be seen at the air-water boundary.
  • Light of different colors has slightly different refractive indices in water and therefore shows up at different positions in the [[rainbow]].
RATIO OF THE SPEED OF LIGHT IN VACUUM TO THAT IN THE MEDIUM
Index of refraction; Refractive indices; Complex index of refraction; Index of Refraction; Refraction index; Refracting index; Refractivity; Refractive Index; Negative index of refraction; Index Of Refraction; Absolute refractive index; Optical extinction coefficient; Complex refractive index; Group index

общая лексика

показатель преломления

оптика

коэффициент преломления

Ορισμός

митотический индекс
показатель митотической активности ткани или культуры ткани, представляющий собой число делящихся путем митоза клеток из 1000 изученных на гистологическом препарате.

Βικιπαίδεια

System of imprimitivity

The concept of system of imprimitivity is used in mathematics, particularly in algebra and analysis, both within the context of the theory of group representations. It was used by George Mackey as the basis for his theory of induced unitary representations of locally compact groups.

The simplest case, and the context in which the idea was first noticed, is that of finite groups (see primitive permutation group). Consider a group G and subgroups H and K, with K contained in H. Then the left cosets of H in G are each the union of left cosets of K. Not only that, but translation (on one side) by any element g of G respects this decomposition. The connection with induced representations is that the permutation representation on cosets is the special case of induced representation, in which a representation is induced from a trivial representation. The structure, combinatorial in this case, respected by translation shows that either K is a maximal subgroup of G, or there is a system of imprimitivity (roughly, a lack of full "mixing"). In order to generalise this to other cases, the concept is re-expressed: first in terms of functions on G constant on K-cosets, and then in terms of projection operators (for example the averaging over K-cosets of elements of the group algebra).

Mackey also used the idea for his explication of quantization theory based on preservation of relativity groups acting on configuration space. This generalized work of Eugene Wigner and others and is often considered to be one of the pioneering ideas in canonical quantization.

Μετάφραση του &#39index of imprimitivity&#39 σε Ρωσικά