Optics and Precision Engineering, Volume. 30, Issue 4, 403(2022)
Research on generating broad-spectrum Kerr optical frequency comb and dispersion control based on magnesium fluoride crystal micro-resonator
[1] K J VAHALA. Optical microcavities. Nature, 424, 839-846(2003).
[2] S C YANG, Y WANG, H D SUN. Advances and prospects for whispering gallery mode microcavities. Advanced Optical Materials, 3, 1136-1162(2015).
[3] W XU, C X XU, F F QIN et al. Whispering-gallery mode lasing from polymer microsphere for humidity sensing. Chinese Optics Letters, 16(2018).
[4] Z W PAN, C F ZHANG, C F XIE et al. Resonator integrated optic gyro based on multilevel laser frequency lock-in technique. Chinese Optics Letters, 16(2018).
[5] M L GORODETSKY, A A SAVCHENKOV, V S ILCHENKO. Ultimate Q of optical microsphere resonators. Optics Letters, 21, 453-455(1996).
[6] C WANG, M J BUREK, Z LIN et al. Integrated high quality factor lithium niobate microdisk resonators. Optics Express, 22, 30924(2014).
[7] D K ARMANI, T J KIPPENBERG, S M SPILLANE et al. Ultra-high-Q toroid microcavity on a chip. Nature, 421, 925-928(2003).
[8] D FARNESI, A BARUCCI, S BERNESCHI et al. High Q silica microbubble resonators, 8264, 241-246(2012).
[9] M PÖLLINGER, D O'SHEA, F WARKEN et al. Ultrahigh-Q tunable whispering-gallery-mode microresonator. Physical Review Letters, 103(2009).
[10] S B PAPP, P DEL'HAYE, S A DIDDAMS. Mechanical stabilization of a microrod-resonator optical frequency comb, 1-3(2012).
[11] I S GRUDININ, V S ILCHENKO, L MALEKI. Ultrahigh optical Q factors of crystalline resonators in the linear regime. Physical Review A, 74(2006).
[12] T HERR, V BRASCH, J D JOST et al. Temporal solitons in optical microresonators. Nature Photonics, 8, 145-152(2014).
[13] R W BOYD. Nonlinear optics(2020).
[14] G GARDOSI, B J MANGAN et al. Photonic microresonators created by slow optical cooking. ACS Photonics, 8, 436-442(2021).
[15] Y Z YAN, C L ZOU, S B YAN et al. Packaged silica microsphere-taper coupling system for robust thermal sensing application. Optics Express, 19, 5753-5759(2011).
[16] S WAN, R NIU, Z Y WANG et al. Frequency stabilization and tuning of breathing solitons in Si3N4 microresonators. Photonics Research, 8, 1342(2020).
[17] M Y WANG, Y YANG, L J MENG et al. Fabrication and packaging for high-Q CaF2 crystalline resonators with modal modification. Chinese Optics Letters, 17, 111401(2019).
[18] W Q WANG, Z Z LU, W F ZHANG et al. Robust soliton crystals in a thermally controlled microresonator. Optics Letters, 43, 2002-2005(2018).
[19] V BRASCH, M GEISELMANN, T HERR et al. Photonic chip-based optical frequency comb using soliton Cherenkov radiation. Science, 351, 357-360(2016).
[20] C ZHOU, J B DU, Z Y HE. Wideband dispersion flattening for whispering gallery mode microresonators fabricated by laser micromachining. IEEE Photonics Journal, 9, 1-8(2017).
[21] [21] 21闫树斌, 马可贞, 李明慧, 等. 面向陀螺应用的硅基大尺寸楔角型谐振腔[J]. 红外与激光工程, 2015, 44(2): 747-751. doi: 10.3969/j.issn.1007-2276.2015.02.063YANS B, MAK Z, LIM H, et al. Large dimension wedge-resonator on silicon chip for gyro application[J]. Infrared and Laser Engineering, 2015, 44(2): 747-751.(in Chinese). doi: 10.3969/j.issn.1007-2276.2015.02.063
Get Citation
Copy Citation Text
Yu YANG, Lei ZHANG, Keyi WANG. Research on generating broad-spectrum Kerr optical frequency comb and dispersion control based on magnesium fluoride crystal micro-resonator[J]. Optics and Precision Engineering, 2022, 30(4): 403
Category: Modern Applied Optics
Received: Aug. 31, 2021
Accepted: --
Published Online: Mar. 4, 2022
The Author Email: WANG Keyi (kywang@ustc.edu.cn)