Journal of Infrared and Millimeter Waves, Volume. 39, Issue 3, 279(2020)
CMOS compatible multichannel mid-infrared photonic crystal sensor
[1] Turduev M., Giden I. H., Babayiğit C.. Mid-infrared t-shaped photonic crystal waveguide for optical refractive index sensing. Sensors & Actuators B Chemical, 245, 765-773(2017).
[2] J. E. Baker, R. Sriram, and B. L. Miller, Recognition-mediated particle detection under microfluidic flow with waveguide-coupled 2D photonic crystals: towards integrated photonic virus detectors. Lab on A Chip,, 17, 1570-1577(2017).
[3] Lin P. T., Singh V., Hu J., Richardson K.. Mid-infrared chemical sensors on-a-chip using air-clad pedestal silicon waveguides, 13, 2161-2166(2013).
[4] Soref R. A., Emelett S. J., Buchwald W. R.. Journal of Optics A Pure & Applied Optics, 8, 840-848(2006).
[5] Petrov A. Y., Eich M.. Applied Physics Letters, 85, 4866-4868(2004).
[6] Akahane Y., Asano T., Song B. S.. High-Q photonic nanocavity in a two-dimensional photonic crystal. Nature, 425, 944-947(2003).
[7] Song B. S., Noda S., Asano T.. Ultra-high-Q photonic double- heterostructure nanocavity. Nature Materials, 4, 207-210(2005).
[8] Mekis A., Chen J. C., Kurland I. I.. High transmission through sharp bends in photonic crystal waveguides. Physical Review Letters, 77, 3787-3790(1996).
[9] Frandsen L., Harpøth A., Borel P.. Broadband photonic crystal waveguide 60° bend obtained utilizing topology optimization. Optics Express, 12, 5916-5921(2004).
[10] Fan S. H., Johnson S. G., Joannopoulos J. D.. Waveguide branches in photonic crystals. Journal of the Optical Society of America B, 18, 162-165(2001).
[11] Manzacca G., Paciotti D., Marchese A.. 2D photonic crystal cavity-based WDM multiplexer. Photonics and Nanostructures-Fundamentals and Applications, 5, 164-170(2007).
[12] Takano H., Song B. S., Asano T.. Highly efficient multi-channel drop filter in a two-dimensional hetero photonic crystal. Optics Express, 14, 3491-3496(2006).
[13] Li W., Zhang X., Lin X.. Enhanced wavelength sensitivity of the self-collimation superprism effect in photonic crystals via slow light. Optics Letters, 39, 4486-4489(2014).
[14] Zhang Z., Satpathy S.. bloch wave solution of maxwell's equations. Physical Review Letters, 65, 2650-2653(1990).
[15] Ren G., Zheng W. H., Zhang Y. J.. Mode analysis and design of a low-loss photonic crystal 60° waveguide bend. Journal of Lightwave Technology, 26, 2215-2218(2008).
[16] Ryu H. Y., Notomi M., Lee Y. H.. Applied Physics Letters, 83, 4294-4296(2003).
[17] Fan S., Villeneuve P. R., Joannopoulos J. D.. Channel drop filters in photonic crystals. Optics Express, 3, 4-11(1998).
[18] Joannopoulos J. D., Johnson S. G., Winn J. N.. Photonic crystals: molding the flow of light. World Publishing Corporation, 6-228(2013).
[19] Zhang Y. N., Y.Zhao Q. Wang, Measurement of methane concentration with cryptophane Einfiltrated photonic crystal microcavity. Sensors and Actuators B,, 209, 431-437(2015).
[20] Kurt H., Erim and N M. N.. Erim, Various photonic crystal bio-sensor configurations based on optical surface modes. Sensors and Actuators B, 165, 68-75(2012).
[21] Lin T., Zhang X. W., Zhou G.Y.. Design of an ultra-compact slotted photonic crystal nanobeam cavity for biosensing. Journal of the Optical Society of America B, 32, 1788-1791(2015).
[22] Liu and H Y.. W. M. Salemink, Photonic crystal-based all-optical on-chip sensor. Optics Express, 20, 19912-19920(2012).
[23] Yun M.J., Wan Y., Liang J.. Multi-channel biosensor based on photonic crystal waveguide and microcavities. Optik, 123, 1920-1922(2012).
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Yi ZHOU, Lei WANG, Jun LI, Xue-Lei YANG, Feng-Yuan GAN, Ying-Xuan ZHAO, Chao QIU, Wei LI. CMOS compatible multichannel mid-infrared photonic crystal sensor[J]. Journal of Infrared and Millimeter Waves, 2020, 39(3): 279
Category: Materials and Devices
Received: Nov. 12, 2019
Accepted: --
Published Online: Jul. 7, 2020
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