All-solid-state, tunable, single-frequency source of yellow light for high-resolution spectroscopy

Petelski, Tomasz; Conroy, Richard; Bencheikh, Kamel; Mlynek, J.; Schiller, S.

doi:10.1364/ol.26.001013

Cited by 30 publications

(11 citation statements)

References 9 publications

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“…A solid-state laser source based on a cw-OPO has been used to obtain spectral holes with linewidth below 1 MHz [14]. By coincidence, the 580 nm wavelength is very close to the 1 S 0 -3 P 0 clock transition in neutral Yb (578 nm).…”

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confidence: 99%

Spectrally Narrow, Long-Term Stable Optical Frequency Reference Based on aEu3+∶Y2SiO5Crystal at Cryogenic Temperature

et al. 2011

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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 a very high spectral resolution. The essential parameters determining the usefulness as a macroscopic frequency reference, linewidth, temperature sensitivity, and long-term stability, were characterized using a H-maser stabilized frequency comb. Spectral holes with a linewidth as low as 6 kHz were observed and the upper limit of the drift of the hole frequency was determined to be 5±3 mHz/s. We discuss the necessary requirements for achieving ultrahigh stability in laser frequency stabilization to these spectral holes.

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confidence: 99%

Spectrally Narrow, Long-Term Stable Optical Frequency Reference Based on aEu3+∶Y2SiO5Crystal at Cryogenic Temperature

et al. 2011

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“…The doubly resonant consists of three arms: one shared and two separate. The separate arms include the laser crys 1 The article is published in the original. tals and permit independent alignment of the lasers.…”

Section: Methodsmentioning

confidence: 99%

“…In recent years, much attention has been paid to efficient, compact all solid state visible wavelength lasers for some applications, such as fluorescence spectroscopy, display, flow cytometry, and underwater communications [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20]. Lasers emitting in the blue range are useful in many fields, such as medicine, lithography, communications, display or biology.…”

Section: Introductionmentioning

confidence: 99%

494 nm blue laser based on sum-frequency mixing of diode pumped Nd3+ lasers

Zou

Wang

2011

Laser Phys.

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We report for the first time a continuous wave (CW) blue radiation at 494 nm by intracavity sum frequency generation of 912 nm Nd:GdVO 4 laser and 1079 nm Nd:YAlO 3 (Nd:YAP) laser. Using type I crit ical phase matching LiB 3 O 5 (LBO) crystal, 494 nm blue laser was obtained by 912 and 1079 nm intra cavity sum frequency mixing, and output power of 179 mW was demonstrated. At the output power level of 179 mW, the output power stability is better than 3.5% and laser beam quality M 2 factor is 1.21.

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“…The first QPM CW SRO operation was reported by Myers et al [141] in a 50-mm-long PPLN crystal with a threshold of 3 W. To get efficient and stable output, the pump power should be several times the oscillation threshold, and this can done by utilizing high-power single-frequency pumping sources [142], reducing the threshold by choosing a suitable interaction length [143], or using high-power broadband lasers as the pumps [144]. To extend the output spectral region to shorter wavelengths, especially in the visible, one can exploit frequency-doubled green laser as the pump to obtain red or yellow light, as well as cascading a SHG/SFG process to get blue light [77,145,146]. One of the challenges of the nonlinear materials used in CW OPO operation is the light absorption, and weak absorption losses will raise the pump threshold to several tens of watts.…”

Section: Quasi-phase-matched Optical Parametric Oscillatorsmentioning

confidence: 99%

Engineered quasi-phase-matching for laser techniques [Invited]

Zhu

2013

Photon. Res.

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The quasi-phase-matching (QPM) technique has drawn increasing attention due to its promising applications in areas such as nonlinear frequency conversion for generating new laser light sources. In this paper, we will briefly review the main achievements in this field. We give a brief introduction of the invention of QPM theory, followed by the QPM-material fabrication techniques. When combing QPM with the solid-state laser techniques, various laser light sources, such as single-wavelength visible lasers and ultraviolet lasers, red-green-blue three-fundamentalcolor lasers, optical parametric oscillators in different temporal scales, and passive mode-locking lasers based on cascaded second-order nonlinearity, have been presented. The QPM technique has been extended to quantum optics recently, and prospects for the studies are bright.

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All-solid-state, tunable, single-frequency source of yellow light for high-resolution spectroscopy

Cited by 30 publications

References 9 publications

Spectrally Narrow, Long-Term Stable Optical Frequency Reference Based on aEu3+∶Y2SiO5Crystal at Cryogenic Temperature

Spectrally Narrow, Long-Term Stable Optical Frequency Reference Based on aEu3+∶Y2SiO5Crystal at Cryogenic Temperature

494 nm blue laser based on sum-frequency mixing of diode pumped Nd3+ lasers

Engineered quasi-phase-matching for laser techniques [Invited]

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