Compact Generator of an Optical Frequency Comb Based on Distributed-Feedback Laser Diode and High-Q Optical Microcavity

Compact Generator of an Optical Frequency Comb Based on Distributed-Feedback Laser Diode and High-Q Optical Microcavity

Optical frequency combs are a unique tool for fundamental metrology and spectroscopy; they are also used in various applications. High- Q microcavities are promising for generating coherent frequency combs. An approach based on the pulling effect, which is well-known in radiophysics, is proposed. Th...

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Veröffentlicht in:Journal of experimental and theoretical physics 2023-06, Vol.136 (6), p.699-703
Hauptverfasser: Ruzhitskaya, D. D., Vorob’ev, K. A., Bulygin, F. V., Kuzin, A. Yu, Min’kov, K. N.
Format: Artikel
Sprache:eng
Schlagworte:
Atoms
Classical and Quantum Gravitation
Distributed feedback lasers
Elementary Particles
Magnesium fluorides
Microcavities
Microwaves
Molecules
Optical frequency
Optics
Particle and Nuclear Physics
Physics
Physics and Astronomy
Quantum Field Theory
Relativity Theory
Semiconductor lasers
Solid State Physics
Solitary waves
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Zusammenfassung:Optical frequency combs are a unique tool for fundamental metrology and spectroscopy; they are also used in various applications. High- Q microcavities are promising for generating coherent frequency combs. An approach based on the pulling effect, which is well-known in radiophysics, is proposed. The use of this effect makes it possible to develop a compact, commercially available source of an optical comb and microwave radiation based on a compact distributed-feedback laser diode with a low output power of 6 mW and a microcavity based on magnesium fluoride with a Q factor of 10 9 . Different generation modes of optical frequency combs, corresponding to different numbers of generated solitons at a pump power of 6 mW and a wavelength of 1550 nm, as well as spectrally pure microwave radiation at a frequency of 12.94 GHz, are demonstrated.
ISSN:1063-7761
1090-6509
DOI:10.1134/S1063776123060092