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Literature DB >> 15762450

Observation of Kerr nonlinearity in microcavities at room temperature.

Abstract

We have devised and experimentally verified a method for observation of the optical Kerr effect in microcavities at room temperature. The technique discriminates against the much larger and typically dominant thermal component of nonlinearity by using its relatively slow frequency response. Measurement of the Kerr coefficient or equivalently of the third-order nonlinear susceptibility of the cavity material is demonstrated for a silica microcavity. With this approach, useful information about the characteristic thermal response time in microresonators can also be acquired.

Entities: Chemical

Year: 2005 PMID： 15762450 DOI： 10.1364/ol.30.000427

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

5 in total

1. Probing material absorption and optical nonlinearity of integrated photonic materials.

Authors: Maodong Gao; Qi-Fan Yang; Qing-Xin Ji; Heming Wang; Lue Wu; Boqiang Shen; Junqiu Liu; Guanhao Huang; Lin Chang; Weiqiang Xie; Su-Peng Yu; Scott B Papp; John E Bowers; Tobias J Kippenberg; Kerry J Vahala
Journal: Nat Commun Date: 2022-06-09 Impact factor: 17.694

Observation of Kerr nonlinearity in microcavities at room temperature.

1. Probing material absorption and optical nonlinearity of integrated photonic materials.

2. Cavity ring-up spectroscopy for ultrafast sensing with optical microresonators.

3. Exploration of multiphoton entangled states by using weak nonlinearities.

4. All-optical tunable buffering with coupled ultra-high Q whispering gallery mode microcavities.

5. Spiral resonators for on-chip laser frequency stabilization.