Theoretical and observational consis...
Heisenberg, Lavinia.

 

  • Theoretical and observational consistency of massive gravity[electronic resource] /
  • 紀錄類型: 書目-語言資料,印刷品 : Monograph/item
    杜威分類號: 531.14
    書名/作者: Theoretical and observational consistency of massive gravity/ by Lavinia Heisenberg.
    作者: Heisenberg, Lavinia.
    出版者: Cham : : Springer International Publishing :, 2015.
    面頁冊數: xxi, 201 p. : : ill., digital ;; 24 cm.
    Contained By: Springer eBooks
    標題: Gravitation.
    標題: Quantum cosmology.
    標題: Phenomenological theory (Physics)
    標題: Physics.
    標題: Classical and Quantum Gravitation, Relativity Theory.
    標題: Cosmology.
    ISBN: 9783319189352 (electronic bk.)
    ISBN: 9783319189345 (paper)
    內容註: Field Theories in Cosmology -- Introduction -- Massive Gravity -- Cosmology with Massive Gravity -- Cosmology of Massive Gravity in the Decoupling Limit -- Proxy Theory -- Super-luminality -- Super-luminal Propagation in Galileon Models -- Quantum Corrections in Massive Gravity -- Quantum Corrections: Natural Versus Non-natural -- Renormalization Beyond the Decoupling Limit of Massive Gravity -- Summary & Outlook -- Appendix -- Bibliography.
    摘要、提要註: This work is a detailed study of both the theoretical and phenomenological consequences of a massive graviton, within the ghost-free theory of massive gravity, the de Rham-Gabadadze-Tolley (dRGT) theory. Its aim is to test the physical viability of the theory. It begins by putting constraints on the parameters of the theory in the decoupling limit based on purely theoretical grounds, like classical stability in the cosmological evolution of self-accelerating and degravitating solutions. The author then constructs a proxy theory to massive gravity from the decoupling limit resulting in non-minimally coupled scalar-tensor interactions as an example of a subclass of Horndeski theories. Lastly, she addresses the natural question of whether the parameters introduced in the dRGT theory are subject to strong renormalization by quantum loops and shows how the non-renormalization theorem protects the graviton mass from quantum corrections. Beyond the decoupling limit the quantum corrections are found to be proportional to the graviton mass, proving its technical naturalness.
    電子資源: http://dx.doi.org/10.1007/978-3-319-18935-2
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