Abstract
We solve for a system that emits acceleration radiation at two different temperatures. The equilibrium states occur asymptotically in Planck distributions and transition non-thermally. The model is simple enough to obtain a global solution for the radiation spectrum analytically. We present it as a potentially useful model for investigation of non-thermal vacuum acceleration radiation in the presence of final (initial) asymptotic thermodynamic horizon(less) states in equilibrium.
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Funding
M.G. is funded by grant no. BR05236454 by the Ministry of Education and Science of the Republic of Kazakhstan and the FY2018-SGP-1-STMM Faculty Dev. Competitive Research Grant no. 090118FD5350. A.M. acknowledges the support of Grant No. 110119FD4534.
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Paper presented at the Fourth Zeldovich meeting, an international conference in honor of Ya.B. Zeldovich held in Minsk, Belarus, on September 7–11, 2020. Published by the recommendation of the special editors: S.Ya. Kilin, R. Ruffini, and G.V. Vereshchagin.
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Good, M.R., Mitra, A. & Zarikas, V. Dual-Temperature Acceleration Radiation. Astron. Rep. 65, 942–946 (2021). https://doi.org/10.1134/S1063772921100115
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DOI: https://doi.org/10.1134/S1063772921100115