Publication Date:
2018-05-05
Description:
Author(s): M. Fischer, A. Sperlich, H. Kraus, T. Ohshima, G. V. Astakhov, and V. Dyakonov Microwaves (MWs) are at the heart of many technologies, e . g . for communication, timekeeping, remote sensing, and quantum information processing. Masers can boost faint MW signals quite nicely, but not under real-world conditions. The authors demonstrate efficient population inversion of optically pumped vacancy-related spins in SiC, at room temperature, and find realistic operating conditions for a SiC maser to serve as a continuous-wave amplifier. These spins can also be coherently coupled to superconducting cavities efficiently at cryogenic temperatures. These findings suggest this SiC system as a promising platform for MW photonics and quantum electronics. [Phys. Rev. Applied 9, 054006] Published Fri May 04, 2018
Electronic ISSN:
2331-7019
Topics:
Physics
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