How general relativity and Lorentz covariance arise from the spatially-covariant effective field theory of the transverse, traceless graviton

Khoury Justin; Miller Godfrey E. J.; Tolley Andrew J.

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How general relativity and Lorentz covariance arise from the spatially-covariant effective field theory of the transverse, traceless graviton

机译：广义相对论和洛伦兹协方差如何从横向无迹引力子的空间协方差有效场理论中得出

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Traditional derivations of general relativity (GR) from the graviton degrees of freedom assume spacetime Lorentz covariance as an axiom. In this paper, we survey recent evidence that GR is the unique spatially-covariant effective field theory of the transverse, traceless graviton degrees of freedom. The Lorentz covariance of GR, having not been assumed in our analysis, is thus plausibly interpreted as an accidental or emergent symmetry of the gravitational sector. From this point of view, Lorentz covariance is a necessary feature of low-energy graviton dynamics, not a property of spacetime. This result has revolutionary implications for fundamental physics.

机译：引力自由度的传统相对论（GR）推导将时空洛伦兹协方差作为公理。在本文中，我们调查了最近的证据，即GR是横向，无痕引力子自由度的唯一空间协变有效场理论。因此，在我们的分析中未假设的GR的Lorentz协方差被合理地解释为重力场的偶然或紧急对称。从这个角度来看，洛伦兹协方差是低能引力子动力学的必要特征，而不是时空的特性。这一结果对基础物理学具有革命性的意义。

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《International journal of modern physics, D. Gravitation, astrophysics, cosmology 》 |2014年第12期| 共6页
作者
Khoury Justin; Miller Godfrey E. J.; Tolley Andrew J.;
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正文语种 eng
中图分类天体物理学 ; 宇宙学 ;
关键词
Gravity; Lorentz; graviton; canonical; spacetime; cosmology; covariance; momentum; constraints; Hamiltonian; degree; freedom; transverse; traceless; emergence; symmetry;

机译：重力;洛伦兹;引力;规范;时空;宇宙学;协方差;动量;约束;哈密顿量;度;自由度;横向;无迹;出现;对称;

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1. How general relativity and Lorentz covariance arise from the spatially-covariant effective field theory of the transverse, traceless graviton [J] . Khoury Justin, Miller Godfrey E. J., Tolley Andrew J. International journal of modern physics, D. Gravitation, astrophysics, cosmology . 2014 ,第12期

机译：广义相对论和洛伦兹协方差如何从横向无迹引力子的空间协方差有效场理论中得出
2. Covariance in general relativity and scale-covariance in scale-relativity theory, quadratic invariants and Leibniz rule [J] . Pissondes Jean-Claude Chaos, Solitons and Fractals: Applications in Science and Engineering: An Interdisciplinary Journal of Nonlinear Science . 1999 ,第2期

机译：广义相对论的协方差和尺度相对论的尺度协方差，二次不变量和莱布尼兹定律
3. Effective field theory for massive gravitons and gravity in theory space [J] . Arkani-Hamed N., Georgi H., Schwartz MD. Annals of Physics . 2003 ,第2期

机译：理论空间中大量引力子和引力的有效场论
4. Extending the Graviton Propagator with a Lorentz-Violating Vector Field [C] . Michael D. Seifert Meeting on CPT and Lorentz Symmetry . 2017

机译：用违反框架的传染媒介领域延伸格雷顿传播者
5. Lorentz violation in quantum field theory. [D] . Bolokhov, Pavel Anatolievich. 2007

机译：量子场论中的洛伦兹违反。
6. Quantum Gravity in Everyday Life: General Relativity as an Effective Field Theory [O] . Cliff P. Burgess -1

机译：日常生活中的量子引力：广义相对论作为一种有效的场论
7. How General Relativity and Lorentz Covariance Arise from the Spatially Covariant Effective Field Theory of the Transverse, Traceless Graviton [O] . Khoury, Justin, Miller, Godfrey E. J., Tolley, Andrew J. 2014

机译：广义相对论和洛伦兹协方差如何从空间中产生横向无迹引力子的协变有效场理论

How general relativity and Lorentz covariance arise from the spatially-covariant effective field theory of the transverse, traceless graviton

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