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Lawrence Chen (2017)
Subwavelength grating waveguide devices in silicon-on-insulators for integrated microwave photonics (Invited Paper)Chinese Optics Letters, 15
S. V., T. Monro (2008)
A full vectorial model for pulse propagation in emerging waveguides with subwavelength structures part I: Kerr nonlinearity.Optics express, 17 4
G. Morrison (1986)
Editorial. Secondary Ion Mass SpectrometryAnalytical Chemistry, 58
Zecen Zhang, G. Ng, H. Qiu, Wanjun Wang, Xin Guo, M. Rouifed, Chongyang Liu, Hong Wang (2017)
Compact microring resonators integrated with grating couplers working at 2 μm wavelength on silicon-on-insulator platform.Applied optics, 56 19
Zhengsen Ruan, L. Shen, Shuang Zheng, Jian Wang (2017)
Subwavelength grating slot (SWGS) waveguide on silicon platform.Optics express, 25 15
Ichael, Averley, ichard, Ojko, Icolás, J. A.F., Aeger (2015)
Design of Broadband SubWavelength Grating Couplers with Low Back Reflection
Lu Liu, Qingzhong Deng, Zhiping Zhou (2016)
Subwavelength-grating-assisted broadband polarization-independent directional coupler.Optics letters, 41 7
Y. Yue, Lin Zhang, Jian Wang, R. Beausoleil, A. Willner (2010)
Highly efficient nonlinearity reduction in silicon-on-insulator waveguides using vertical slots.Optics express, 18 21
V. Almeida, Qianfan Xu, C. Barrios, M. Lipson (2004)
Guiding and confining light in void nanostructure.Optics letters, 29 11
Jian Wang (2016)
Chip-scale optical interconnects and optical data processing using silicon photonic devicesPhotonic Network Communications, 31
Han Yun, Yun Wang, Fan Zhang, Zeqin Lu, Stephen Lin, L. Chrostowski, N. Jaeger (2016)
Broadband 2 × 2 adiabatic 3 dB coupler using silicon-on-insulator sub-wavelength grating waveguides.Optics letters, 41 13
D. Dai, Sailing He (2009)
A silicon-based hybrid plasmonic waveguide with a metal cap for a nano-scale light confinement.Optics express, 17 19
J. Penadés, C. Alonso‐Ramos, A. Khokhar, M. Nedeljkovic, L. Boodhoo, A. Ortega-Moñux, Í. Molina-Fernández, P. Cheben, G. Mashanovich (2014)
Suspended SOI waveguide with sub-wavelength grating cladding for mid-infrared.Optics letters, 39 19
Zhechao Wang, N. Zhu, Yongbo Tang, L. Wosinski, D. Dai, Sailing He (2009)
Ultracompact low-loss coupler between strip and slot waveguides.Optics letters, 34 10
M. Rouifed, C. Littlejohns, G. Tina, H. Qiu, T. Hu, Zecen Zhang, Chongyong Liu, G. Reed, Hong Wang (2016)
Low Loss SOI Waveguides and MMIs at the MIR Wavelength of $2~\mu$ mIEEE Photonics Technology Letters, 28
P. Bock, P. Cheben, J. Schmid, J. Lapointe, A. Delâge, S. Janz, G. Aers, Danxia Xu, A. Densmore, T. Hall (2010)
Subwavelength grating periodic structures in silicon-on-insulator: a new type of microphotonic waveguide.Optics express, 18 19
(1986)
Nanoscale etching in inductively coupled plasmas
E. Stanton, N. Volet, J. Bowers (2017)
Low-loss arrayed waveguide grating at 2.0 μm2017 Conference on Lasers and Electro-Optics (CLEO)
AbstractWe propose, design, fabricate and characterize a subwavelength grating slot (SWGS) waveguide on silicon platform at short-wave infrared (SWIR) wavelength of 2 μm. The mode guiding mechanism, i.e. SWGS mode, is a combination of surface-enhanced supermode and Bloch mode. We also design and fabricate a low-loss strip-to-SWGS mode converter. We further demonstrate chip-scale direct modulation data transmission at 2 μm through the fabricated SWGS waveguides. Favorable operation performance is achieved in the experiment.
Nanophotonics – de Gruyter
Published: May 24, 2018
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