Chinese Journal of Quantum Electronics, Volume. 20, Issue 3, 278(2003)
Characteristic Analysis of Optical Microcavities with Different Refractive Index Distribution
[1] [1] Gorodetsky M L et al. Ultimate Q of optical microsphere resonators [J]. Opt. Lett., 1996, 21(7): 453-455
[2] [2] Sandoghdar V et al. Very low threshold whispering-gallery-mode microsphere laser [J]. Phys. Rev. A, 1996,54(3): 1777-1780
[3] [3] Laine J P et al. Acceleration sensor based on high-Q optical microsphere resonator and pedestal antiresonant reflecting waveguide coupler [J]. Sensors and Actuators A, 2001, 93:1-7
[4] [4] Little B E et al. Analytic theory of coupling from tapered fibers and half-blocks into microsphere resonators [J].J. Lightwave Tech., 1999, 17(4): 704-715
[5] [5] Gorodetsky M L et al. High-Q optical whispering-gallery microresonators: precession approach for spherical mode analysis and emission patterns with prism couplers [J]. Opt. Comm., 1994, 113:133-143
[6] [6] Hagness S C et al. FDTD microcavity simulations: design and experimental realization of waveguide-coupled single-mode ring and whispering-gallery-mode disk resonators [J]. IEEE J. Lightwave Tech., 1997, 15(11): 2154-2165
[7] [7] Taflove A. Computational Electrodynamics the Finite-Difference Time-Domain Method [M]. New York: Artech House, 1995. 51-105
[8] [8] Taflove A. Advances in Computational Electrodynamics: The Finite-Difference Time-Domain Method [M]. New York: Artech House, 1998. 263-296
Get Citation
Copy Citation Text
[in Chinese], [in Chinese], [in Chinese]. Characteristic Analysis of Optical Microcavities with Different Refractive Index Distribution[J]. Chinese Journal of Quantum Electronics, 2003, 20(3): 278