Q Factor Optical Communications Assignment

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Z. Shao, Y. Chen, H. Chen, Y. Zhang, F. Zhang, J. Jian, Z. Fan, L. Liu, C. Yang, L. Zhou, and S. Yu, “Ultra-low temperature silicon nitride photonic integration platform,” Opt. Express 24(3), 1865–1872 (2016).
[Crossref] [PubMed]

H. Li, B. Dong, Z. Zhang, H. F. Zhang, and C. Sun, “A transparent broadband ultrasonic detector based on an optical micro-ring resonator for photoacoustic microscopy,” Sci. Rep. 4(1), 4496 (2015).
[Crossref] [PubMed]

D. J. Moss, R. Morandotti, A. L. Gaeta, and M. Lipson, “New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics,” Nat. Photonics 7(8), 597–607 (2013).
[Crossref]

S. Romero-García, F. Merget, F. Zhong, H. Finkelstein, and J. Witzens, “Silicon nitride CMOS-compatible platform for integrated photonics applications at visible wavelengths,” Opt. Express 21(12), 14036–14046 (2013).
[Crossref] [PubMed]

S. Romero-García, F. Merget, F. Zhong, H. Finkelstein, and J. Witzens, “Silicon nitride CMOS-compatible platform for integrated photonics applications at visible wavelengths,” Opt. Express 21(12), 14036–14046 (2013).
[Crossref] [PubMed]

K. Luke, A. Dutt, C. B. Poitras, and M. Lipson, “Overcoming Si3N4 film stress limitations for high quality factor ring resonators,” Opt. Express 21(19), 22829–22833 (2013).
[Crossref] [PubMed]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

A. Gondarenko, J. S. Levy, and M. Lipson, “High confinement micron-scale silicon nitride high Q ring resonator,” Opt. Express 17(14), 11366–11370 (2009).
[Crossref] [PubMed]

E. S. Hosseini, S. Yegnanarayanan, A. H. Atabaki, M. Soltani, and A. Adibi, “High Quality Planar Silicon Nitride Microdisk Resonators for Integrated Photonics in the Visible Wavelength Range,” Opt. Express 17(17), 14543–14551 (2009).
[Crossref] [PubMed]

J. T. Robinson, L. Chen, and M. Lipson, “On-chip gas detection in silicon optical microcavities,” Opt. Express 16(6), 4296–4301 (2008).
[Crossref] [PubMed]

K. Ikeda, R. E. Saperstein, N. Alic, and Y. Fainman, “Thermal and Kerr nonlinear properties of plasma-deposited silicon nitride/ silicon dioxide waveguides,” Opt. Express 16(17), 12987–12994 (2008).
[Crossref] [PubMed]

W. D. Sacher and J. K. Poon, “Dynamics of microring resonator modulators,” Opt. Express 16(20), 15741–15753 (2008).
[Crossref] [PubMed]

F. Ay and A. Aydinli, “Comparative investigation of hydrogen bonding in silicon based PECVD grown dielectrics for optical waveguides,” Opt. Mater. 26(1), 33–46 (2004).
[Crossref]

D. G. Rabus, M. Hamacher, U. Troppenz, and H. Heidrich, “Optical filters based on ring resonators with integrated semiconductor optical amplifiers in GaInAsP-InP,” IEEE. J. Sel. Top. Quant. 8(6), 1405–1411 (2002).
[Crossref]

F. Ay and A. Aydinli, “Comparative investigation of hydrogen bonding in silicon based PECVD grown dielectrics for optical waveguides,” Opt. Mater. 26(1), 33–46 (2004).
[Crossref]

F. Ay and A. Aydinli, “Comparative investigation of hydrogen bonding in silicon based PECVD grown dielectrics for optical waveguides,” Opt. Mater. 26(1), 33–46 (2004).
[Crossref]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

O. Dubray, M. A. Seyedi, C. H. Chen, B. Charbonnier, A. Descos, M. Fiorentino, R. G. Beausoleil, and S. Menezo, “30Gbit/s PAM-4 transmission by modulating a dual silicon ring resonator modulator,” Optical Interconnects Conference, (IEEE, 2016), pp 6–7.
[Crossref]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

M. La Notte, B. Troia, T. Muciaccia, C. E. Campanella, F. De Leonardis, and V. M. Passaro, “Recent advances in gas and chemical detection by Vernier effect-based photonic sensors,” Sensors (Basel)14(3), 4831–4855 (2014) (basel).
[Crossref] [PubMed]

O. Dubray, M. A. Seyedi, C. H. Chen, B. Charbonnier, A. Descos, M. Fiorentino, R. G. Beausoleil, and S. Menezo, “30Gbit/s PAM-4 transmission by modulating a dual silicon ring resonator modulator,” Optical Interconnects Conference, (IEEE, 2016), pp 6–7.
[Crossref]

O. Dubray, M. A. Seyedi, C. H. Chen, B. Charbonnier, A. Descos, M. Fiorentino, R. G. Beausoleil, and S. Menezo, “30Gbit/s PAM-4 transmission by modulating a dual silicon ring resonator modulator,” Optical Interconnects Conference, (IEEE, 2016), pp 6–7.
[Crossref]

Z. Shao, Y. Chen, H. Chen, Y. Zhang, F. Zhang, J. Jian, Z. Fan, L. Liu, C. Yang, L. Zhou, and S. Yu, “Ultra-low temperature silicon nitride photonic integration platform,” Opt. Express 24(3), 1865–1872 (2016).
[Crossref] [PubMed]

Z. Shao, Y. Chen, H. Chen, Z. Fan, L. Liu, C. Yang, L. Zhou, Y. Zhang, and S. Yu, “Silicon nitride-based integrated photonic devices suitable for operating in the visible to infrared wavelength range,” in Asia Communications and Photonics Conference (Optical Society of America, 2015), pp. u1B-u2B.
[Crossref]

Z. Shao, Y. Chen, H. Chen, Y. Zhang, F. Zhang, J. Jian, Z. Fan, L. Liu, C. Yang, L. Zhou, and S. Yu, “Ultra-low temperature silicon nitride photonic integration platform,” Opt. Express 24(3), 1865–1872 (2016).
[Crossref] [PubMed]

Z. Shao, Y. Chen, H. Chen, Z. Fan, L. Liu, C. Yang, L. Zhou, Y. Zhang, and S. Yu, “Silicon nitride-based integrated photonic devices suitable for operating in the visible to infrared wavelength range,” in Asia Communications and Photonics Conference (Optical Society of America, 2015), pp. u1B-u2B.
[Crossref]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

M. La Notte, B. Troia, T. Muciaccia, C. E. Campanella, F. De Leonardis, and V. M. Passaro, “Recent advances in gas and chemical detection by Vernier effect-based photonic sensors,” Sensors (Basel)14(3), 4831–4855 (2014) (basel).
[Crossref] [PubMed]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

O. Dubray, M. A. Seyedi, C. H. Chen, B. Charbonnier, A. Descos, M. Fiorentino, R. G. Beausoleil, and S. Menezo, “30Gbit/s PAM-4 transmission by modulating a dual silicon ring resonator modulator,” Optical Interconnects Conference, (IEEE, 2016), pp 6–7.
[Crossref]

H. Li, B. Dong, Z. Zhang, H. F. Zhang, and C. Sun, “A transparent broadband ultrasonic detector based on an optical micro-ring resonator for photoacoustic microscopy,” Sci. Rep. 4(1), 4496 (2015).
[Crossref] [PubMed]

O. Dubray, M. A. Seyedi, C. H. Chen, B. Charbonnier, A. Descos, M. Fiorentino, R. G. Beausoleil, and S. Menezo, “30Gbit/s PAM-4 transmission by modulating a dual silicon ring resonator modulator,” Optical Interconnects Conference, (IEEE, 2016), pp 6–7.
[Crossref]

W. Bogaerts, P. De Heyn, T. Van Vaerenbergh, K. De Vos, S. Kumar Selvaraja, T. Claes, P. Dumon, P. Bienstman, D. Van Thourhout, and R. Baets, “Silicon microring resonators,” Laser Photonics Rev. 6(1), 47–73 (2012).
[Crossref]

Z. Shao, Y. Chen, H. Chen, Y. Zhang, F. Zhang, J. Jian, Z. Fan, L. Liu, C. Yang, L. Zhou, and S. Yu, “Ultra-low temperature silicon nitride photonic integration platform,” Opt. Express 24(3), 1865–1872 (2016).
[Crossref] [PubMed]

Z. Shao, Y. Chen, H. Chen, Z. Fan, L. Liu, C. Yang, L. Zhou, Y. Zhang, and S. Yu, “Silicon nitride-based integrated photonic devices suitable for operating in the visible to infrared wavelength range,” in Asia Communications and Photonics Conference (Optical Society of America, 2015), pp. u1B-u2B.
[Crossref]

S. Romero-García, F. Merget, F. Zhong, H. Finkelstein, and J. Witzens, “Silicon nitride CMOS-compatible platform for integrated photonics applications at visible wavelengths,” Opt. Express 21(12), 14036–14046 (2013).
[Crossref] [PubMed]

S. Romero-García, F. Merget, F. Zhong, H. Finkelstein, and J. Witzens, “Silicon nitride CMOS-compatible platform for integrated photonics applications at visible wavelengths,” Opt. Express 21(12), 14036–14046 (2013).
[Crossref] [PubMed]

O. Dubray, M. A. Seyedi, C. H. Chen, B. Charbonnier, A. Descos, M. Fiorentino, R. G. Beausoleil, and S. Menezo, “30Gbit/s PAM-4 transmission by modulating a dual silicon ring resonator modulator,” Optical Interconnects Conference, (IEEE, 2016), pp 6–7.
[Crossref]

D. J. Moss, R. Morandotti, A. L. Gaeta, and M. Lipson, “New CMOS-compatible platforms based on silicon nitride and Hydex for nonlinear optics,” Nat. Photonics 7(8), 597–607 (2013).
[Crossref]

«ТРАНСТЕКСТ» задрожал, как ракета перед стартом. Шифровалка содрогалась. Стратмор сжимал ее все сильнее.

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