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- Embedded_lens abstract "An embedded lens is a gravitational lens such that the mass of the lens is a part of the mean mass density of the background universe and not simply superimposed upon it as is done in the standard gravitational lensing theory.For a homogeneous background Universe, a spherical sphere is removed and a lens of mass equal to the removed dust sphere is placed at the center of the void.The mass condensation can be either a point mass or distributed mass, but should be spherically symmetric with respect to the center of the void.If the background universe also contains a non-vanishing cosmological constant Λ, then Λ is required to be the same inside and outside of the void.The metric describing the geometry within the void can be Schwarzschild or Kottler depending on whether there is a non-zero cosmological constant.Embedding a lens effectively reduces the gravitational potential's range, i.e., partially shields the lensing potential produced by the lens mass condensation.For example, a light ray grazing the boundary of a Kottler/Schwarzschild void will not be bended by the lens mass condensation (i.e., does not feel the gravitational potential of the embedded lens) and travels along a straight line path in a flat background universe.".
- Embedded_lens wikiPageID "38866057".
- Embedded_lens wikiPageRevisionID "566981309".
- Embedded_lens subject Category:Effects_of_gravitation.
- Embedded_lens subject Category:Gravitational_lensing.
- Embedded_lens subject Category:Spacetime.
- Embedded_lens subject Category:Theory_of_relativity.
- Embedded_lens comment "An embedded lens is a gravitational lens such that the mass of the lens is a part of the mean mass density of the background universe and not simply superimposed upon it as is done in the standard gravitational lensing theory.For a homogeneous background Universe, a spherical sphere is removed and a lens of mass equal to the removed dust sphere is placed at the center of the void.The mass condensation can be either a point mass or distributed mass, but should be spherically symmetric with respect to the center of the void.If the background universe also contains a non-vanishing cosmological constant Λ, then Λ is required to be the same inside and outside of the void.The metric describing the geometry within the void can be Schwarzschild or Kottler depending on whether there is a non-zero cosmological constant.Embedding a lens effectively reduces the gravitational potential's range, i.e., partially shields the lensing potential produced by the lens mass condensation.For example, a light ray grazing the boundary of a Kottler/Schwarzschild void will not be bended by the lens mass condensation (i.e., does not feel the gravitational potential of the embedded lens) and travels along a straight line path in a flat background universe.".
- Embedded_lens label "Embedded lens".
- Embedded_lens sameAs m.0swn2dq.
- Embedded_lens sameAs Q17012104.
- Embedded_lens sameAs Q17012104.
- Embedded_lens wasDerivedFrom Embedded_lens?oldid=566981309.
- Embedded_lens isPrimaryTopicOf Embedded_lens.