|Effect of size and roughness on light transmission in a waveguide: Experiments and model|
KK Lee, DR Lim, HC Luan, A Agarwal, J Foresi, LC Kimerling
Applied Physics Letters 77 (11), 1617-1619, 2000
|Correlation between leakage current density and threading dislocation density in SiGe p-i-n diodes grown on relaxed graded buffer layers|
LM Giovane, HC Luan, AM Agarwal, LC Kimerling
Applied Physics Letters 78 (4), 541-543, 2001
|Controlling propagation and coupling of waveguide modes using phase-gradient metasurfaces|
Z Li, MH Kim, C Wang, Z Han, S Shrestha, AC Overvig, M Lu, A Stein, ...
Nature nanotechnology 12 (7), 675, 2017
|Fabrication and testing of planar chalcogenide waveguide integrated microfluidic sensor|
J Hu, V Tarasov, A Agarwal, L Kimerling, N Carlie, L Petit, K Richardson
Optics Express 15 (5), 2307-2314, 2007
|Nonlinear Group IV photonics based on silicon and germanium: from near-infrared to mid-infrared|
L Zhang, AM Agarwal, LC Kimerling, J Michel
Nanophotonics 3 (4-5), 247-268, 2014
|Design guidelines for optical resonator biochemical sensors|
J Hu, X Sun, A Agarwal, LC Kimerling
JOSA B 26 (5), 1032-1041, 2009
|Methods of forming polycrystalline semiconductor waveguides for optoelectronic integrated circuits, and devices formed thereby|
JS Foresi, AM Agarwal, MR Black, DM Koker, LC Kimerling
US Patent 5,841,931, 1998
|Mid-infrared materials and devices on a Si platform for optical sensing|
V Singh, PT Lin, N Patel, H Lin, L Li, Y Zou, F Deng, C Ni, J Hu, ...
Science and technology of advanced materials 15 (1), 014603, 2014
|Mid-infrared integrated photonics on silicon: a perspective|
H Lin, Z Luo, T Gu, LC Kimerling, K Wada, A Agarwal, J Hu
Nanophotonics 7 (2), 393-420, 2017
|Optical transmission losses in polycrystalline silicon strip waveguides: effects of waveguide dimensions, thermal treatment, hydrogen passivation, and wavelength|
L Liao, DR Lim, AM Agarwal, X Duan, KK Lee, LC Kimerling
Journal of electronic materials 29 (12), 1380-1386, 2000
|Planar waveguide-coupled, high-index-contrast, high-Q resonators in chalcogenide glass for sensing|
J Hu, N Carlie, NN Feng, L Petit, A Agarwal, K Richardson, L Kimerling
Optics letters 33 (21), 2500-2502, 2008
|Si-CMOS-compatible lift-off fabrication of low-loss planar chalcogenide waveguides|
J Hu, V Tarasov, N Carlie, NN Feng, L Petit, A Agarwal, K Richardson, ...
Optics Express 15 (19), 11798-11807, 2007
|Low‐loss polycrystalline silicon waveguides for silicon photonics|
AM Agarwal, L Liao, JS Foresi, MR Black, X Duan, LC Kimerling
Journal of Applied Physics 80 (11), 6120-6123, 1996
|Pushing the limits of CMOS optical parametric amplifiers with USRN: Si 7 N 3 above the two-photon absorption edge|
KJA Ooi, DKT Ng, T Wang, AKL Chee, SK Ng, Q Wang, LK Ang, ...
Nature communications 8 (1), 1-10, 2017
|Nonlinear conversion efficiency in Kerr frequency comb generation|
C Bao, L Zhang, A Matsko, Y Yan, Z Zhao, G Xie, AM Agarwal, ...
Optics letters 39 (21), 6126-6129, 2014
|On-chip mid-infrared gas detection using chalcogenide glass waveguide|
Z Han, P Lin, V Singh, L Kimerling, J Hu, K Richardson, A Agarwal, ...
Applied Physics Letters 108 (14), 141106, 2016
|Demonstration of high-Q mid-infrared chalcogenide glass-on-silicon resonators|
H Lin, L Li, Y Zou, S Danto, JD Musgraves, K Richardson, S Kozacik, ...
Optics letters 38 (9), 1470-1472, 2013
|Integrated chalcogenide waveguide resonators for mid-IR sensing: leveraging material properties to meet fabrication challenges|
N Carlie, JD Musgraves, B Zdyrko, I Luzinov, J Hu, V Singh, A Agarwal, ...
Optics express 18 (25), 26728-26743, 2010
|Comparison of the optical, thermal and structural properties of Ge–Sb–S thin films deposited using thermal evaporation and pulsed laser deposition techniques|
JD Musgraves, N Carlie, J Hu, L Petit, A Agarwal, LC Kimerling, ...
Acta Materialia 59 (12), 5032-5039, 2011
|Losses in polycrystalline silicon waveguides|
JS Foresi, MR Black, AM Agarwal, LC Kimerling
Applied physics letters 68 (15), 2052-2054, 1996