Communications Physics (Oct 2023)

Maser threshold characterization by resonator Q-factor tuning

  • Christoph W. Zollitsch,
  • Stefan Ruloff,
  • Yan Fett,
  • Haakon T. A. Wiedemann,
  • Rudolf Richter,
  • Jonathan D. Breeze,
  • Christopher W. M. Kay

DOI
https://doi.org/10.1038/s42005-023-01418-3
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 6

Abstract

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Abstract Whereas the laser is nowadays an ubiquitous technology, applications for its microwave analog, the maser, remain highly specialized, despite the excellent low-noise microwave amplification properties. The widespread application of masers is typically limited by the need of cryogenic temperatures. The recent realization of a continuous-wave room-temperature maser, using NV− centers in diamond, is a first step towards establishing the maser as a potential platform for microwave research and development, yet its design is far from optimal. Here, we design and construct an optimized setup able to characterize the operating space of a maser using NV− centers. We focus on the interplay of two key parameters for emission of microwave photons: the quality factor of the microwave resonator and the degree of spin level-inversion. We characterize the performance of the maser as a function of these two parameters, identifying the parameter space of operation and highlighting the requirements for maximal continuous microwave emission.