Mikhail Y. Shalaginov
Mikhail Y. Shalaginov
MIT & 2Pi Optics
Verified email at - Homepage
Cited by
Cited by
Broadband transparent optical phase change materials for high-performance nonvolatile photonics
Y Zhang, JB Chou, J Li, H Li, Q Du, A Yadav, S Zhou, MY Shalaginov, ...
Nature communications 10 (1), 4279, 2019
Electrically reconfigurable non-volatile metasurface using low-loss optical phase-change material
Y Zhang, C Fowler, J Liang, B Azhar, MY Shalaginov, S Deckoff-Jones, ...
Nature Nanotechnology 16 (6), 661-666, 2021
A deep learning approach for objective-driven all-dielectric metasurface design
S An, C Fowler, B Zheng, MY Shalaginov, H Tang, H Li, L Zhou, J Ding, ...
Acs Photonics 6 (12), 3196-3207, 2019
Reconfigurable all-dielectric metalens with diffraction-limited performance
MY Shalaginov, S An, Y Zhang, F Yang, P Su, V Liberman, JB Chou, ...
Nature communications 12 (1), 1225, 2021
Ultra-thin high-efficiency mid-infrared transmissive Huygens meta-optics
L Zhang, J Ding, H Zheng, S An, H Lin, B Zheng, Q Du, G Yin, J Michon, ...
Nature communications 9 (1), 1481, 2018
Material platforms for integrated quantum photonics
S Bogdanov, MY Shalaginov, A Boltasseva, VM Shalaev
Optical Materials Express 7 (1), 111-132, 2017
Multifunctional metasurface design with a generative adversarial network
S An, B Zheng, H Tang, MY Shalaginov, L Zhou, H Li, M Kang, ...
Advanced Optical Materials 9 (5), 2001433, 2021
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
Ultra-compact nonvolatile phase shifter based on electrically reprogrammable transparent phase change materials
C Ríos, Q Du, Y Zhang, CC Popescu, MY Shalaginov, P Miller, C Roberts, ...
PhotoniX 3 (1), 26, 2022
Single-element diffraction-limited fisheye metalens
MY Shalaginov, S An, F Yang, P Su, D Lyzwa, AM Agarwal, H Zhang, ...
Nano Letters 20 (10), 7429-7437, 2020
Enhancement of single‑photon emission from nitrogen‑vacancy centers with TiN/(Al, Sc) N hyperbolic metamaterial
MY Shalaginov, VV Vorobyov, J Liu, M Ferrera, AV Akimov, A Lagutchev, ...
Laser & Photonics Reviews 9 (1), 120-127, 2015
Broadband enhancement of spontaneous emission from nitrogen-vacancy centers in nanodiamonds by hyperbolic metamaterials
MY Shalaginov, S Ishii, J Liu, A Kildishev, VM Shalaev
CLEO: QELS_Fundamental Science, 2013
Myths and truths about optical phase change materials: A perspective
Y Zhang, C Ríos, MY Shalaginov, M Li, A Majumdar, T Gu, J Hu
Applied Physics Letters 118 (21), 2021
Design for quality: reconfigurable flat optics based on active metasurfaces
MY Shalaginov, SD Campbell, S An, Y Zhang, C Ríos, EB Whiting, Y Wu, ...
Nanophotonics 9 (11), 3505-3534, 2020
Deep learning modeling approach for metasurfaces with high degrees of freedom
S An, B Zheng, MY Shalaginov, H Tang, H Li, L Zhou, J Ding, AM Agarwal, ...
Optics Express 28 (21), 31932-31942, 2020
Multi‐level electro‐thermal switching of optical phase‐change materials using graphene
C Ríos, Y Zhang, MY Shalaginov, S Deckoff-Jones, H Wang, S An, ...
Advanced Photonics Research 2 (1), 2000034, 2021
Hybrid plasmonic bullseye antennas for efficient photon collection
SKH Andersen, S Bogdanov, O Makarova, Y Xuan, MY Shalaginov, ...
Acs Photonics 5 (3), 692-698, 2018
Finite-width plasmonic waveguides with hyperbolic multilayer cladding
VE Babicheva, MY Shalaginov, S Ishii, A Boltasseva, AV Kildishev
Optics express 23 (8), 9681-9689, 2015
Plasmonic waveguides cladded by hyperbolic metamaterials
S Ishii, MY Shalaginov, VE Babicheva, A Boltasseva, AV Kildishev
Optics letters 39 (16), 4663-4666, 2014
Lasing Action with Gold Nanorod Hyperbolic Metamaterials
R Chandrasekar, Z Wang, X Meng, MY Shalaginov, A Lagutchev, YL Kim, ...
arXiv:1609.05168 [physics.optics], 2016
The system can't perform the operation now. Try again later.
Articles 1–20