English

Photon Bose-Condensate as a Tunable Terahertz Laser Source without Inversion

Quantum Gases 2025-01-03 v2

Abstract

We develop a theoretical model for a tunable coherent terahertz radiation source based on the long-lived Bose condensate of photons. In the device we propose, the original photon pumping is performed incoherently by a blackbody radiation emitter. The photons thus produced Bose-condense by the inelastic relaxation on a two-dimensional electron gas in a perpendicular magnetostatic field. The process involves neither population inversion nor light wave amplification the standard laser sources are built on. The coherence and tunability of the light emitted by such a photon condensate are provided and supported by the discrete spectrum of the electron gas in the quantizing magnetic field. The device is a compact-size semiconductor crystal. We propose the design and perform the realistic calculations of the physical properties and limiting factors for the terahertz photon Bose-condensate resonator. We show that our terahertz source can deliver the highly coherent light emission in the frequency range of 3-30 THz for the magnetic field induction of the order of 2 T, with the upper emission frequency limit adjustable by the strength of the magnetic field applied.

Keywords

Cite

@article{arxiv.2304.02174,
  title  = {Photon Bose-Condensate as a Tunable Terahertz Laser Source without Inversion},
  author = {Timofey V. Maximov and Igor V. Bondarev and Igor L. Kurbakov and Yurii E. Lozovik},
  journal= {arXiv preprint arXiv:2304.02174},
  year   = {2025}
}

Comments

The results of this article have been totally reconsidered and require too many corrections to be implemented to be publishable

R2 v1 2026-06-28T09:50:04.300Z