Spectrally narrow, long-term stable optical frequency reference based on a Eu$^{3+}$:Y$_{2}$SiO$_{5}$ crystal at cryogenic temperature

Alexander Nevsky; Andrei Troshyn; Ingo Ernsting; Qun-feng Chen; Sergey Vasilyev; Steffen Kayser; Stephan Schiller

arxiv: 1107.3764 · v3 · pith:YHBMPAUAnew · submitted 2011-07-19 · ⚛️ physics.optics · physics.atom-ph

Spectrally narrow, long-term stable optical frequency reference based on a Eu³⁺:Y₂SiO₅ crystal at cryogenic temperature

Qun-feng Chen , Andrei Troshyn , Ingo Ernsting , Steffen Kayser , Sergey Vasilyev , Alexander Nevsky , Stephan Schiller This is my paper

classification ⚛️ physics.optics physics.atom-ph

keywords frequencyspectralholeholeslaserlinewidthlong-termreference

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Using an ultrastable continuous-wave laser at 580 nm we performed spectral hole burning of Eu$^{3+}$:Y$_{2}$SiO$_{5}$ at very high spectral resolution. Essential parameters determining the usefulness as a "macroscopic" frequency reference: linewidth, temperature sensitivity, long-term stability were characterized, using a H-maser stabilized frequency comb. Spectral holes with linewidth as low as 6 kHz were observed and the upper limit of the drift of the hole frequency was determined to be on the order of 5$\pm$3 mHz/s. We discuss necessary requirements for achieving ultra-high-stability in laser frequency stabilization to these spectral holes.

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Spectrally narrow, long-term stable optical frequency reference based on a Eu³⁺:Y₂SiO₅ crystal at cryogenic temperature

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