Investigation of the possibility of creating a solid-state YB3+:ER3+ laser with increased stability of the radiation frequency
| Authors: Choban T.V., Zhirnov А.А. |  |
| Published in issue: #5(46)/2020 | |
| DOI: 10.18698/2541-8009-2020-5-613 | |
Category: Instrument Engineering, Metrology, Information-Measuring Instruments and Systems | Chapter: Laser and opto-electronic systems |
|
Keywords: solid-state laser, resonator, frequency fluctuations, spectrum, wavelength stability, modeling, Fabry-Perot interferometer, degrees of freedom, vibration, sensitivity |
|
| Published: 30.05.2020 | |
Today, various fields of science and technology use instruments, an important functional unit of which is a laser that emits in the region of 1.5 μm and has high stability of the generated wavelength. In this work, the possibility was studied of creating a radiation source that meets these requirements. The design was proposed of a solid-state laser based on Er3+:Yb3+ phosphate glass, the causes were investigated of frequency fluctuations in such a scheme, and experimental setups were proposed to determine the nature of the dependence of the radiation frequency fluctuations on component vibrations resonator.
References
[1] Pniov A., Zhirnov A., Shelestov D., et al. Yb,Er:glass Microlaser at 1.5 μm for optical fibre sensing: development, characterization and noise reduction. ACTA IMEKO, 2016, vol. 5, no. 4, pp. 24–28.
[2] Zhirnov A.A. Fazochuvstvitel’nyy reflektometr na osnove perestraivaemogo po chastote izlucheniya tverdotel’nogo itterbiy-erbievogo lazera. Diss . … kand. tekh. nauk [Phase sensitive reflectometer based on frequency-tuned solid-state Yb-Er laser. Kand. tech. sci. diss.]. Moscow, Bauman MSTU Publ., 2019 (in Russ.).
[3] Sverchkov S.E. 1.5 mkm itterbiy-erbievye lazery s diodnoy nakachkoy – elementnaya baza i generatsionnye vozmozhnosti. Diss. dok. fiz.-mat. nauk [1.5 μm Yb-Er lasers with diode pumping – element base and generation possibilities. Kand. doc. phys.-math. sci. diss.]. Moscow, IOF RAN Publ., 2005 (in Russ.).
[4] Taccheo S., Laporta P., Longhi S., et al. Diode-pumped bulk erbium-ytterbium lasers. Applied Phys. B, 1996, vol. 63, no. 5, pp. 425–436. DOI: https://doi.org/10.1007/BF01828937
[5] Tarasov L.V. Fizika lazera [Laser physics]. Moscow, Librokom Publ., 2011 (in Russ.).
[6] Svelto O. Principles of lasers. Plenum Press, 1989. (Russ. ed.: Printsipy lazerov. Sankt-Petersburg, Lan’ Publ., 2008.)
[7] Choban T.V., Zhirnov A.A., Chernutsky A.O., et al. Φ-OTDR based on tunable Yb-Er:phosphate-glass laser. J. Phys.: Conf. Ser., 2019, vol. 1410, art. 012108. DOI: https://doi.org/10.1088/1742-6596/1410/1/012108
[8] Tsepulin V.G., Perchik A.V., Tolstoguzov V.L., et al. Thin film thickness measurement error reduction by wavelength selection in spectrophotometry. J. Phys.: Conf. Ser., 2015, vol. 584, art. 012011. DOI: https://doi.org/10.1088/1742-6596/584/1/012011