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利用传输矩阵和散射矩阵方法, 具体计算了单通道和双通道结构完美相干吸收效应的产生条件, 并分析了其之间的相关性.结果表明, 单、双通道结构各自都有大量可选条件能促 使完美相干吸收效应的发生, 且在入射波长及其相应介质折射率等参数不变的情况下, 双通道完美相干吸收效应产生所对应的介质长度与单通道完美相干吸收效应产生所对应的 介质长度具有二倍关系.如波长为756 nm的光入射Si介质,完美相干吸收可以在介质长度分别为3.701 和7.402 m的单通道结构和双通道结构中发生. 该研究对促进完美相干吸收效应在光调制、光开关、光学探测等方面应用以及光学通 信和计算领域的硅基集成光子器件设计都具有积极意义.Detailed analyses and the correlations of coherent perfect absorption (CPA) in single-channel and two-channel structures are performed by the transfer matrix and scattering matrix method. The results show that there are many possibilities for single-channel and two-channel structures to satisfy the occurring of CPA. Moreover, with the same incident wavelength and refractive index of dielectric, the length of dielectric for two-channel CPA is twice that for single-channel. For instance, it is 3.701 m/7.402 m for single-/two-channel CPA as 756 nm wavelength is incident on Si material. Our results facilitate the application of CPA in optical modulator, switches, detector, etc., and they are also of significance for Si-based integration of optical circuits in optical communication and computer.
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Keywords:
- coherent perfect absorption /
- single-channel /
- two-channel /
- length of dielectric
[1] Chong Y D, Ge L, Cao H, Stone A D 2010 Phys. Rev. Lett. 105 053901
[2] Wan W, Chong Y, Ge L, Noh H, Stone A D, Cao H 2011 Science 331 889
[3] Shen Y, Fan D H, Fu J W, Yu G P 2011 Acta Phys. Sin. 60 117302 (in Chinese) [沈云, 范定寰, 傅继武, 于国萍 2011 60 117302]
[4] Shen Y, Yu G P, Wang G P 2011 Appl. Phys. Lett. 99 221926
[5] Siegman A E 1989 Phys. Rev. A 39 1253
[6] Hamel W A, Woerdman J P 1989 Phys. Rev. A 40 2785
[7] Yan R H, Simes R J, Coldren L A 1989 IEEE Photon. Technol. Lett. 1 273
[8] Law K K, Yan R H, Merz J L, Coldren L A 1990 Appl. Phys. Lett. 56 1886
[9] Law K K, Yan R H, Coldren L A, Merz J L 1990 Appl. Phys. Lett. 57 1345
[10] Heffernan J F, Moloney M H, Hegarty J, Roberts J S, Whitehead M 1991 Appl. Phys. Lett. 58 2877
[11] Kishino K, Ünlü M S, Chyi J I, Reed J, Arsenault L, Morkoc H 1991 IEEE J. Quantum Electron. 27 2025
[12] Ünlü M S, Kishino K, Liaw H J, Morkoc H 1992 J. Appl. Phys. 71 4049
[13] Wang H, Li Y P 2001 Acta Phys. Sin. 50 2172 (in Chinese) [王辉, 李永平 2001 50 2172]
[14] Palik E D 1985 Handbook of Optical Constants of Solids (London: Academic Press)
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[1] Chong Y D, Ge L, Cao H, Stone A D 2010 Phys. Rev. Lett. 105 053901
[2] Wan W, Chong Y, Ge L, Noh H, Stone A D, Cao H 2011 Science 331 889
[3] Shen Y, Fan D H, Fu J W, Yu G P 2011 Acta Phys. Sin. 60 117302 (in Chinese) [沈云, 范定寰, 傅继武, 于国萍 2011 60 117302]
[4] Shen Y, Yu G P, Wang G P 2011 Appl. Phys. Lett. 99 221926
[5] Siegman A E 1989 Phys. Rev. A 39 1253
[6] Hamel W A, Woerdman J P 1989 Phys. Rev. A 40 2785
[7] Yan R H, Simes R J, Coldren L A 1989 IEEE Photon. Technol. Lett. 1 273
[8] Law K K, Yan R H, Merz J L, Coldren L A 1990 Appl. Phys. Lett. 56 1886
[9] Law K K, Yan R H, Coldren L A, Merz J L 1990 Appl. Phys. Lett. 57 1345
[10] Heffernan J F, Moloney M H, Hegarty J, Roberts J S, Whitehead M 1991 Appl. Phys. Lett. 58 2877
[11] Kishino K, Ünlü M S, Chyi J I, Reed J, Arsenault L, Morkoc H 1991 IEEE J. Quantum Electron. 27 2025
[12] Ünlü M S, Kishino K, Liaw H J, Morkoc H 1992 J. Appl. Phys. 71 4049
[13] Wang H, Li Y P 2001 Acta Phys. Sin. 50 2172 (in Chinese) [王辉, 李永平 2001 50 2172]
[14] Palik E D 1985 Handbook of Optical Constants of Solids (London: Academic Press)
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