Hawking radiation from an analogue bouncing geometry

García Martín-Caro, Alberto; García-Moreno, Gerardo; Olmedo Nieto, Javier Antonio; Sánchez Velázquez, Jose M.

doi:10.1103/PhysRevD.108.L061701

PhysRevD.108.L061701.pdf (4.305Mo)

Identificadores

URI: https://hdl.handle.net/10481/93673

DOI: 10.1103/PhysRevD.108.L061701

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Editorial

APS125

Date

2023-07-17

Referencia bibliográfica

García Martín Caro, A. et. al. Phys. Rev. D 108, L061701. [https://doi.org/10.1103/PhysRevD.108.L061701]

Patrocinador

Spanish Government through the Projects No. PID2020-118159GBC43, No. PID2020-119632GB-I00, and PID2019- 105943GB-I00 (with FEDER contribution); Xunta de Galici (Grant No. INCITE09.296.035PR and Centro singular de investigación de Galicia accreditation 2019–2022),; Spanish Consolider-Ingenio 2010 Programme CPAN (CSD2007-00042); European Union ERDF; Spanish Ministry of Science, Innovation and Universities, and the European Social Fund for his predoctoral funding (ref. PRE2018-086479); the Spanish Government fellowship FPU20/01684; Severo Ochoa Grant No. CEX2021-001131-S funded by MCIN/AEI/10.13039/ 501100011033; “Operative Program FEDER2014-2020 Junta de Andalucía-Consejería de Economía y Conocimiento” under Project No. E-FQM- 262-UGR18 by Universidad de Granada; Spanish Agencia Estatal de Investigación through the grant “IFT Centro de Excelencia Severo Ochoa CEX2020-001007-S.”

Résumé

We propose a setting that simulates Hawking radiation from an analogue bouncing geometry, i.e., a collapsing geometry that reverts its collapse after a finite time, in a setup consisting of a coplanar waveguide terminated in superconducting quantum-interference devices at both ends. We demonstrate experimental feasibility of the proposed setup within the current technology. Our analysis illustrates the resilience of Hawking radiation under changes in the physics at energy scales much larger than the temperature, supporting the idea that regular alternatives to black holes would also emit Hawking radiation.

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