Deesha Shah
Deesha Shah
Email verificata su purdue.edu
Titolo
Citata da
Citata da
Anno
Epidermal photonic devices for quantitative imaging of temperature and thermal transport characteristics of the skin
L Gao, Y Zhang, V Malyarchuk, L Jia, KI Jang, RC Webb, H Fu, Y Shi, ...
Nature communications 5 (1), 1-10, 2014
1972014
Optics and nonlinear buckling mechanics in large-area, highly stretchable arrays of plasmonic nanostructures
L Gao, Y Zhang, H Zhang, S Doshay, X Xie, H Luo, D Shah, Y Shi, S Xu, ...
Acs Nano 9 (6), 5968-5975, 2015
802015
Ultrabright room-temperature sub-nanosecond emission from single nitrogen-vacancy centers coupled to nanopatch antennas
SI Bogdanov, MY Shalaginov, AS Lagutchev, CC Chiang, D Shah, ...
Nano letters 18 (8), 4837-4844, 2018
722018
Optical properties of plasmonic ultrathin TiN films
D Shah, H Reddy, N Kinsey, VM Shalaev, A Boltasseva
Advanced Optical Materials 5 (13), 1700065, 2017
692017
Controlling the plasmonic properties of ultrathin TiN films at the atomic level
D Shah, A Catellani, H Reddy, N Kinsey, V Shalaev, A Boltasseva, ...
ACS Photonics 5 (7), 2816-2824, 2018
322018
Photonic spin Hall effect in robust phase gradient metasurfaces utilizing transition metal nitrides
K Chaudhuri, A Shaltout, D Shah, U Guler, A Dutta, VM Shalaev, ...
ACS Photonics 6 (1), 99-106, 2018
202018
Ultrafast quantum photonics enabled by coupling plasmonic nanocavities to strongly radiative antennas
SI Bogdanov, OA Makarova, X Xu, ZO Martin, AS Lagutchev, M Olinde, ...
Optica 7 (5), 463-469, 2020
132020
Determining the band alignment of TbAs:GaAs and TbAs:In0.53Ga0.47As
CC Bomberger, LR Vanderhoef, A Rahman, D Shah, DB Chase, ...
Applied Physics Letters 107 (10), 102103, 2015
92015
Deterministic integration of single nitrogen-vacancy centers into nanopatch antennas
SI Bogdanov, OA Makarova, AS Lagutchev, D Shah, CC Chiang, S Saha, ...
arXiv preprint arXiv:1902.05996, 2019
82019
Ultrabright room-temperature single-photon emission from nanodiamond nitrogen-vacancy centers with sub-nanosecond excited-state lifetime
S Bogdanov, MY Shalaginov, A Lagutchev, CC Chiang, D Shah, ...
arXiv preprint arXiv:1711.09481, 2017
42017
Modulating phase by metasurfaces with gated ultra-thin TiN films
H Jiang, H Reddy, D Shah, ZA Kudyshev, S Choudhury, D Wang, Y Jiang, ...
Nanoscale 11 (23), 11167-11172, 2019
32019
Transdimensional material platforms for tunable metasurface design
J Rho, D Shah, ZA Kudyshev, S Saha, VM Shalaev, A Boltasseva
MRS Bulletin 45 (3), 188-195, 2020
22020
Ultra-thin plasmonic metal nitrides: Tailoring optical properties to photonic applications
H Reddy, D Shah, N Kinsey, VM Shalaev, A Boltasseva
2017 International Conference on Optical MEMS and Nanophotonics (OMN), 1-2, 2017
22017
Chip‐Compatible Quantum Plasmonic Launcher
CC Chiang, SI Bogdanov, OA Makarova, X Xu, S Saha, D Shah, ...
Advanced Optical Materials 8 (20), 2000889, 2020
12020
A quantum plasmonic launcher for integrated ultrafast single-photon sources
CC Chiang, SI Bogdanov, OA Makarova, X Xu, S Saha, D Shah, D Wang, ...
2020 Conference on Lasers and Electro-Optics (CLEO), 1-2, 2020
12020
Emerging materials for tailorable nanophotonic devices
Z Wang, D Shah, K Chaudhuri, A Catellani, M Alhabeb, H Reddy, X Meng, ...
2018 12th International Congress on Artificial Materials for Novel Wave…, 2018
12018
Optical properties of ultrathin plasmonic TiN films
D Shah, H Reddy, N Kinsey, VM Shalaev, A Boltasseva
CLEO: Science and Innovations, SM4K. 3, 2017
12017
Evolution of the optical properties in atomically thin plasmonic titanium nitride
D Shah, VM Shalaev, A Boltasseva
Optical Components and Materials XVIII 11682, 1168212, 2021
2021
Hybrid magneto photonic material structure for plasmon assisted magnetic switching
AH Chu, B Beauchamp, D Shah, A Boltasseva, VM Shalaev, EE Marinero
Optical Materials Express 10 (12), 3107-3118, 2020
2020
Single‐Photon Sources: Chip‐Compatible Quantum Plasmonic Launcher (Advanced Optical Materials 20/2020)
CC Chiang, SI Bogdanov, OA Makarova, X Xu, S Saha, D Shah, ...
Advanced Optical Materials 8 (20), 2070079, 2020
2020
Il sistema al momento non pu eseguire l'operazione. Riprova pi tardi.
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