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Biswajeet Guha
Biswajeet Guha
Intel Corporation
Verified email at cornell.edu
Title
Cited by
Cited by
Year
Near-field radiative cooling of nanostructures
B Guha, C Otey, CB Poitras, S Fan, M Lipson
Nano letters 12 (9), 4546-4550, 2012
2682012
Athermal silicon microring resonators with titanium oxide cladding
B Guha, J Cardenas, M Lipson
Optics express 21 (22), 26557-26563, 2013
2182013
CMOS-compatible athermal silicon microring resonators
B Guha, BBC Kyotoku, M Lipson
Optics express 18 (4), 3487-3493, 2010
2172010
Demonstration of strong near-field radiative heat transfer between integrated nanostructures
R St-Gelais, B Guha, L Zhu, S Fan, M Lipson
Nano letters 14 (12), 6971-6975, 2014
1912014
Minimizing temperature sensitivity of silicon Mach-Zehnder interferometers
B Guha, A Gondarenko, M Lipson
Optics express 18 (3), 1879-1887, 2010
1492010
High q sic microresonators
J Cardenas, M Zhang, CT Phare, SY Shah, CB Poitras, B Guha, M Lipson
Optics express 21 (14), 16882-16887, 2013
922013
Athermal silicon microring electro-optic modulator
B Guha, K Preston, M Lipson
Optics letters 37 (12), 2253-2255, 2012
762012
Fiber-waveguide evanescent coupler
M Lipson, B Guha
US Patent 9,746,612, 2017
182017
Passively-thermally-stabilized photonic apparatus, method, and applications
M Lipson, B Guha
US Patent 8,457,453, 2013
182013
Controlling thermo-optic response in microresonators using bimaterial cantilevers
B Guha, M Lipson
Optics Letters 40 (1), 103-106, 2014
122014
Athermal optical devices based on composite structures
M Lipson, B Guha
US Patent 10,295,739, 2019
92019
Fiber-waveguide evanescent coupler
M Lipson, B Guha
US Patent App. 15/688,374, 2018
92018
Athermal silicon ring resonator with bi-material cantilever for passive thermal feedback
B Guha, M Lipson
CLEO: Science and Innovations, CTu3F. 4, 2013
22013
Fiber-waveguide evanescent coupler
M LIPSON, B GUHA
12017
CMOS-compatible temperature insensitive silicon microring modulator
B Guha, K Preston, M Lipson
CLEO: Science and Innovations, CThP3, 2011
12011
CMOS-compatible temperature insensitive silicon microring resonators
B Guha, BBC Kyotoku, M Lipson
CLEO/QELS: 2010 Laser Science to Photonic Applications, 1-2, 2010
12010
Near-field radiative heat transfer between integrated nanostructures using silicon carbide
R St-Gelais, L Zhu, B Guha, S Fan, M Lipson
CLEO: QELS_Fundamental Science, FTh4E. 1, 2015
2015
Thermal control of nanophotonic structures: Towards low power optical interconnects and energy applications
B Guha
Cornell University, 2014
2014
Non-contact cooling using radiative heat transfer at nanoscale gaps
B Guha, C Otey, CB Poitras, S Fan, M Lipson
Quantum Electronics and Laser Science Conference, QTh1F. 2, 2012
2012
Supplementary Information: Near-field Radiative Cooling of Nanostructures
B Guha, C Otey, CB Poitras, S Fan, M Lipson
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