Abstract
We report the design of benzocyclobutene microring resonator of symmetric coupling made of a readily available polymer with a higher isolation of 43.8 dB, a finesse of 34, and a Q value of 1.5×105. The FDTD method predicts a drop efficiency of almost 80% for a gap of 0.55 μm.
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References
B.E. Little, S.T. Chu, and W. Pan, IEEE Photon Technology Letters,12(2000),323.
C.F. Kane, and R.R. Krchnavek, IEEE Photon Technology Letters,7(1995),535.
C. Ozturk, Y-J, Chiu, and N. Dagli. IEEE Laser Electro-Optics, 15(2002),1573.
P. Rabiei, W.H. Steier, and C. Zhang, IEEE Lightwave Technology,20(2002),1968.
J. Veldhuis, L.E. Veen, and P.V. Lambeck, IEEE Lightwave Technology,17(1999),85.
P.P. Absil, J.V. Hryniewicz, and B.E. Little, IEEE Photon Technology Letters,13(2001),49.
C. Arnaud, P. Feron, and M. Boustimi, IEEE Electronics Letters, 39(2003),1249.
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This work was supported by National Nature Science Foundation of China (No:60377021)supported by Key laboratory Foundation (No.51472040205DZ0201)
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Zhang, Lx., Liu, Yz., Ou, Zh. et al. Design of high isolation benzocyclobutene microring resonator. Optoelectron. Lett. 3, 356–358 (2007). https://doi.org/10.1007/s11801-007-7003-5
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DOI: https://doi.org/10.1007/s11801-007-7003-5