Frequency Conversion in a High $Q$-Factor Sapphire Whispering Gallery Mode Resonator due to Paramagnetic Nonlinearity

Frequency Conversion in a High $Q$ -Factor Sapphire Whispering Gallery Mode Resonator due to Paramagnetic Nonlinearity

Daniel L. Creedon, Karim Benmessai, and Michael E. Tobar

Phys. Rev. Lett. 109, 143902 – Published 4 October 2012

Abstract

Nonlinear frequency conversion is a well known and widely exploited family of effects in optics, often arising from a Kerr nonlinearity in a crystal medium. Here, we report high stability frequency conversion in the microwave regime due to a $χ^{(3)}$ nonlinearity in sapphire introduced by a dilute concentration of paramagnetic spins. First, we produce a high stability comb from two microwave fields at 12.029 and 12.037 GHz corresponding to two high $Q$ -factor whispering gallery (WG) modes within the electron spin resonance bandwidth of the ${Fe}^{3 +}$ ion. The resulting comb is generated by a cascaded four-wave mixing effect with a 7.7 MHz repetition rate. Then, by suppressing four-wave mixing by increasing the threshold power, third harmonic generation is achieved in a variety of WG modes coupled to various species of paramagnetic ion within the sapphire.

Received 11 June 2012

DOI:https://doi.org/10.1103/PhysRevLett.109.143902

Authors & Affiliations

Daniel L. Creedon^*, Karim Benmessai, and Michael E. Tobar

ARC Centre of Excellence for Engineered Quantum Systems, University of Western Australia, 35 Stirling Highway, Crawley, Western Australia 6009, Austsralia

^*daniel.creedon@uwa.edu.au

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Issue

Vol. 109, Iss. 14 — 5 October 2012

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