Soham Saha
Soham Saha
PhD Student, Purdue University
Email verificata su purdue.edu - Home page
Titolo
Citata da
Citata da
Anno
Low-loss plasmon-assisted electro-optic modulator
C Haffner, D Chelladurai, Y Fedoryshyn, A Josten, B Baeuerle, W Heni, ...
Nature 556 (7702), 483-486, 2018
1552018
Roadmap on plasmonics
MI Stockman, K Kneipp, SI Bozhevolnyi, S Saha, A Dutta, J Ndukaife, ...
Journal of Optics 20 (4), 043001, 2018
1552018
Drug susceptibility of Mycobacterium tuberculosis in a rural area of Bangladesh and its relevance to the national treatment regimens
A Van Deun, KJM Aung, S Chowdhury, S Saha, A Pankaj, A Ashraf, ...
The International Journal of Tuberculosis and Lung Disease 3 (2), 143-148, 1999
481999
Roadmap on metasurfaces
O Quevedo-Teruel, H Chen, A Daz-Rubio, G Gok, A Grbic, G Minatti, ...
Journal of Optics 21 (7), 073002, 2019
452019
Hybrid plasmonic waveguides formed by metal coating of dielectric ridges
VA Zenin, S Choudhury, S Saha, VM Shalaev, A Boltasseva, ...
Optics express 25 (11), 12295-12302, 2017
242017
Rib microring resonators in lithium niobate on insulator
SY Siew, SS Saha, M Tsang, AJ Danner
IEEE Photonics Technology Letters 28 (5), 573-576, 2015
242015
Negative refraction in time-varying strongly coupled plasmonic-antenna–epsilon-near-zero systems
V Bruno, C DeVault, S Vezzoli, Z Kudyshev, T Huq, S Mignuzzi, A Jacassi, ...
Physical review letters 124 (4), 043902, 2020
202020
On-chip hybrid photonic-plasmonic waveguides with ultrathin titanium nitride films
S Saha, A Dutta, N Kinsey, AV Kildishev, VM Shalaev, A Boltasseva
ACS Photonics 5 (11), 4423-4431, 2018
182018
Broadband, high‐speed, and large‐amplitude dynamic optical switching with yttrium‐doped cadmium oxide
S Saha, BT Diroll, J Shank, Z Kudyshev, A Dutta, SN Chowdhury, TS Luk, ...
Advanced Functional Materials 30 (7), 1908377, 2020
92020
Fabrication and characterization of optical devices on lithium niobate on insulator chips
S Saha, SS Yohanes, D Jun, A Danner, M Tsang
Procedia Engineering 140, 183-186, 2016
92016
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
Plasmonic interconnects using zirconium nitride
A Dutta, N Kinsey, S Saha, U Guler, VM Shalaev, A Boltasseva
CLEO: Applications and Technology, JW2A. 86, 2016
62016
Broadband Ultrafast Dynamics of Refractory Metals: TiN and ZrN
BT Diroll, S Saha, VM Shalaev, A Boltasseva, RD Schaller
Advanced Optical Materials 8 (19), 2000652, 2020
52020
Superconductivity Behavior in Epitaxial Films Points to Surface Magnetic Disorder
NA Saveskul, NA Titova, EM Baeva, AV Semenov, AV Lubenchenko, ...
Physical Review Applied 12 (5), 054001, 2019
42019
Bypassing Loss in Plasmonic Modulators
C Haffner, D Chelladurai, Y Fedoryshyn, A Josten, B Baeuerle, W Heni, ...
CLEO: QELS_Fundamental Science, FTh4H. 1, 2018
42018
Fabrication and characterization of microring resonators in titanium diffused lithium niobate
SS Yohanes, D Jun, SS Saha, S Hussain, M Tsang, AJ Danner
2014 International Conference on Optical MEMS and Nanophotonics, 45-46, 2014
32014
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
Ultrafast tunable metasurface with transparent conducting oxide antenna array
S Saha, A Dutta, C DeVault, VM Shalaev, A Boltasseva
CLEO: QELS_Fundamental Science, FTh4M. 4, 2018
22018
Extraordinarily large permittivity modulation in zinc oxide for dynamic nanophotonics
S Saha, A Dutta, C DeVault, BT Diroll, RD Schaller, Z Kudyshev, X Xu, ...
Materials Today, 2020
12020
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
Il sistema al momento non pu eseguire l'operazione. Riprova pi tardi.
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