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Frequency comb generation threshold via second-harmonic excitation in <i> <b> <i>χ</i> </b> </i>(2) optical microresonators

Jan Szabados, Boris Sturman, Ingo Breunig

2020APL Photonics23 citationsDOIOpen Access PDF

Abstract

We investigate the threshold of χ(2) frequency comb generation in lithium niobate whispering gallery microresonators theoretically and experimentally. When generating a frequency comb via second-harmonic excitation, also commonly known as second-harmonic generation, the threshold for the onset of cascaded second-order processes leading to a comb is found to be ∼85 µW. The second-harmonic generation efficiency up to this value is in excellent agreement with a previously known theoretical framework. This framework is extended here, showing that the onset of cascaded χ(2) processes and the maximum of the second-harmonic generation efficiency coincide. The model introduced here allows us to determine the frequency comb generation threshold analytically. Furthermore, we observe that the frequency distance between the comb lines is a function of the pump power. It changes from four free spectral ranges at the oscillation threshold to one free spectral range at 590 µW.

Topics & Concepts

Frequency combOptical frequency combOpticsFree spectral rangeRange (aeronautics)Materials scienceExcitationComb filterComb generatorWhispering-gallery wavePhysicsOptoelectronicsOscillation (cell signaling)Sum-frequency generationOptical pumpingLithium niobateCascadeQ factorFunction (biology)Advanced Fiber Laser TechnologiesPhotorefractive and Nonlinear OpticsPhotonic and Optical Devices
Frequency comb generation threshold via second-harmonic excitation in <i> <b> <i>χ</i> </b> </i>(2) optical microresonators | Litcius