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Main Authors: Stroud, Jasper R., Plusquellic, David F.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.04314
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author Stroud, Jasper R.
Plusquellic, David F.
author_facet Stroud, Jasper R.
Plusquellic, David F.
contents We describe an electro-optic dual-comb system that operates in the near-infrared (near-IR) region to generate optical frequency combs in the near-UV by sum frequency generation in two configurations. The near-IR frequency combs are generated using chirped pulses that down convert the optical information into the radio frequency (RF) domain by a difference in the chirp bandwidths. Near (UV) combs at twice the near-IR bandwidth are obtained by sum frequency generation in a nonlinear crystal and detected by a hybrid photon counting detection system. We compare the results of studies of Rb near 420 nm using two optical arrangements where the near-IR combs are mixed in the crystal as combined or as separated beams. While the latter method enables phase retrievals, the combined beam method is superior for phase stability, power throughput for detection, and ease of alignment. High order interleaving enables near-UV bandwidths near 4 cm-1 for faint photonic sensing and spectroscopic applications. The harmonic generation method is easily extendable across much of the titanium sapphire tuning range.
format Preprint
id arxiv_https___arxiv_org_abs_2411_04314
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Frequency-doubled chirped-pulse dual-comb generation in the near-UV: Combined vs separated beam investigations of Rb atoms near 420 nm
Stroud, Jasper R.
Plusquellic, David F.
Optics
We describe an electro-optic dual-comb system that operates in the near-infrared (near-IR) region to generate optical frequency combs in the near-UV by sum frequency generation in two configurations. The near-IR frequency combs are generated using chirped pulses that down convert the optical information into the radio frequency (RF) domain by a difference in the chirp bandwidths. Near (UV) combs at twice the near-IR bandwidth are obtained by sum frequency generation in a nonlinear crystal and detected by a hybrid photon counting detection system. We compare the results of studies of Rb near 420 nm using two optical arrangements where the near-IR combs are mixed in the crystal as combined or as separated beams. While the latter method enables phase retrievals, the combined beam method is superior for phase stability, power throughput for detection, and ease of alignment. High order interleaving enables near-UV bandwidths near 4 cm-1 for faint photonic sensing and spectroscopic applications. The harmonic generation method is easily extendable across much of the titanium sapphire tuning range.
title Frequency-doubled chirped-pulse dual-comb generation in the near-UV: Combined vs separated beam investigations of Rb atoms near 420 nm
topic Optics
url https://arxiv.org/abs/2411.04314