论文信息 - Relative locality: a deepening of the relativity principle

Relative locality: a deepening of the relativity principle

We describe a recently introduced principle of relative locality which we propose governs a regime of quantum gravitational phenomena accessible to experimental investigation. This regime comprises phenomena in which $${\hbar}$$ and GN may be neglected, while their ratio, the Planck mass $${M_p =\sqrt{\hbar / G_N}}$$, is important. We propose that Mp governs the scale at which momentum space may have a curved geometry. We find that there are striking consequences for the concept of locality. The description of events in spacetime now depends on the energy used to probe it. But there remains an invariant description of physics in phase space. There is furthermore a reasonable expectation that the geometry of momentum space can be measured experimentally using astrophysical observations.

[1] E. Livine,et al. Effective 3d Quantum Gravity and Non-Commutative Quantum Field Theory , 2005 .

[2] G. Hooft,et al. Three-dimensional Einstein gravity: Dynamics of flat space , 1984 .

[3] Lee Smolin,et al. Prospects for constraining quantum gravity dispersion with near term observations , 2009, 0906.3731.

[4] R. E. Hughes,et al. A limit on the variation of the speed of light arising from quantum gravity effects , 2009, Nature.

[5] M. Arzano,et al. A bound on Planck-scale modifications of the energy-momentum composition rule from atomic interferometry , 2009, 0912.2712.

[6] Lee Smolin,et al. Principle of relative locality , 2011, 1101.0931.

[7] L. Smolin. On the intrinsic entropy of the gravitational field , 1985 .

[8] Quantum Mechanics of a Point Particle in 2+1 Dimensional Gravity , 1997, gr-qc/9708054.

[9] Tony Rothman,et al. Can Gravitons be Detected? , 2006 .

[10] A. Kirillov,et al. Test of Lorentz invariance through observation of the longitudinal development of ultrahigh-energy extensive air showers , 2001 .

[11] L. Smolin,et al. Gamma ray burst delay times probe the geometry of momentum space , 2011, 1103.5626.

[12] A. Einstein. Zur Elektrodynamik bewegter Körper , 1905 .

[13] Quantum theory's last challenge , 2000, Nature.

[14] On the Electrodynamics of Moving Bodies , 1998 .