Nonlocal scalar quantum field theory from causal sets
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- 作者:Alessio Belenchia (1) (2)
Dionigi M. T. Benincasa (1) (2)
Stefano Liberati (1) (2)
1. SISSA 鈥?International School for Advanced Studies ; Via Bonomea 265 ; 34136 ; Trieste ; Italy
2. INFN ; Sezione di Trieste ; Via Valerio 2 ; 34127 ; Trieste ; Italy - 关键词:Effective field theories ; Models of Quantum Gravity ; Space ; Time Symmetries
- 刊名:Journal of High Energy Physics
- 出版年:2015
- 出版时间:March 2015
- 年:2015
- 卷:2015
- 期:3
- 全文大小:587 KB
- 参考文献:1. Liberati, S (2013) Tests of Lorentz invariance: a 2013 update. Class. Quant. Grav. 30: pp. 133001 CrossRef
2. Mattingly, D (2005) Modern tests of Lorentz invariance. Living Rev. Rel. 8: pp. 5
3. Amelino-Camelia, G (2013) Quantum-spacetime phenomenology. Living Rev. Rel. 16: pp. 5
4. Hossenfelder, S (2013) Minimal length scale scenarios for quantum gravity. Living Rev. Rel. 16: pp. 2
5. Gielen, S, Oriti, D (2014) Quantum cosmology from quantum gravity condensates: cosmological variables and lattice-refined dynamics. New J. Phys. 16: pp. 123004 CrossRef
6. Ashtekar, A, Singh, P (2011) Loop quantum cosmology: a status report. Class. Quant. Grav. 28: pp. 213001 CrossRef
7. Barrau, A, Rovelli, C, Vidotto, F (2014) Fast radio bursts and white hole signals. Phys. Rev. D 90: pp. 127503
8. Niedermaier, M, Reuter, M (2006) The asymptotic safety scenario in quantum gravity. Living Rev. Rel. 9: pp. 5
9. S. Surya, / Directions in causal set quantum gravity, arXiv:1103.6272 [INSPIRE].
10. J. Henson, / The causal set approach to quantum gravity, in / Approaches to quantum gravity. Towards a new understanding of space and time, D. Oriti ed., Cambridge University Press (2006) [gr-qc/0601121] [INSPIRE].
11. Benincasa, DMT, Dowker, F (2010) The scalar curvature of a causal set. Phys. Rev. Lett. 104: pp. 181301 CrossRef
12. R.D. Sorkin, / Does locality fail at intermediate length-scales, in / Approaches to quantum gravity. Towards a new understanding of space and time, D. Oriti ed., Cambridge University Press (2006) [gr-qc/0703099] [INSPIRE].
13. Aslanbeigi, S, Saravani, M, Sorkin, RD (2014) Generalized causal set d鈥橝lembertians. JHEP 06: pp. 024 CrossRef
14. Glaser, L (2014) A closed form expression for the causal set d鈥橝lembertian. Class. Quant. Grav. 31: pp. 095007 CrossRef
15. Dowker, F, Glaser, L (2013) Causal set d鈥橝lembertians for various dimensions. Class. Quant. Grav. 30: pp. 195016 CrossRef
16. S. Johnston, / Correction terms for propagators and d鈥?em class="a-plus-plus">Alembertians due to spacetime discreteness, arXiv:1411.2614 [INSPIRE].
17. Afshordi, N, Aslanbeigi, S, Sorkin, RD (2012) A distinguished vacuum state for a quantum field in a curved spacetime: formalism, features and cosmology. JHEP 08: pp. 137 CrossRef
18. Barci, DG, Oxman, LE, Rocca, M (1996) Canonical quantization of nonlocal field equations. Int. J. Mod. Phys. A 11: pp. 2111 CrossRef
19. Marolf, D (2015) Emergent gravity requires (kinematic) non-locality. Phys. Rev. Lett. 114: pp. 031104 CrossRef
20. Jaccard, M, Maggiore, M, Mitsou, E (2013) Nonlocal theory of massive gravity. Phys. Rev. D 88: pp. 044033
21. D.G. Barci, C.G. Bollini, L.E. Oxman and M.C. Rocca, / Nonlocal pseudodifferential operators, hep-th/9606183 [INSPIRE].
22. Barnaby, N, Kamran, N (2008) Dynamics with infinitely many derivatives: the initial value problem. JHEP 02: pp. 008 CrossRef
23. R.L.P.G. do Amaral and E.C. Marino, / Canonical quantization of theories containing fractional powers of the d鈥?em class="a-plus-plus">Alembertian operator, / J. Phys. A 25 (1992) 5183 [INSPIRE].
24. Bollini, CG, Giambiagi, JJ (1987) Lagrangian procedures for higher order field equations. Rev. Bras. Fis. 17: pp. 14
25. Gradshteyn, IS, Ryzhik, IM (2007) Tables of integrals, series, and products. Academic Press, San Diego U.S.A
26. Greenberg, OW (1961) Generalized free fields and models of local field theory. Annals Phys. 16: pp. 158 CrossRef
27. Bollini, CG, Oxman, LE (1992) Propagator for complex mass fields. Int. J. Mod. Phys. A 7: pp. 6845 CrossRef
28. Wheeler, JA, Feynman, RP (1945) Interaction with the absorber as the mechanism of radiation. Rev. Mod. Phys. 17: pp. 157 CrossRef
29. Gonzalez Dom铆nguez, A, Trione, SE (1979) On the Laplace transforms of retarded, Lorentz invariant functions. Adv. Math. 31: pp. 51 CrossRef
30. Bollini, CG, Oxman, LE (1993) Unitarity and complex mass fields. Int. J. Mod. Phys. A 8: pp. 3185 CrossRef
31. Johnston, S (2009) Feynman propagator for a free scalar field on a causal set. Phys. Rev. Lett. 103: pp. 180401 CrossRef
32. A. Belenchia, D. Benincasa and S. Liberati, in preparation.
ditors">Olver, FWJ, Lozier, DW, Boisvert, RF, Clark, CW eds. (2010) NIST handbook of mathematical functions. Cambridge University Press, New York U.S.A
33. Barci, DG, Oxman, LE (1997) Asymptotic states in nonlocal field theories. Mod. Phys. Lett. A 12: pp. 493 CrossRef - 刊物类别:Physics and Astronomy
- 刊物主题:Physics
Elementary Particles and Quantum Field Theory
Quantum Field Theories, String Theory - 出版者:Springer Berlin / Heidelberg
- ISSN:1029-8479
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