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Grisha Spektor
Grisha Spektor
NIST- National Institute of Standards and Technology
Bestätigte E-Mail-Adresse bei colorado.edu
Titel
Zitiert von
Zitiert von
Jahr
Revealing the subfemtosecond dynamics of orbital angular momentum in nanoplasmonic vortices
G Spektor, D Kilbane, AK Mahro, B Frank, S Ristok, L Gal, P Kahl, ...
Science 355 (6330), 1187-1191, 2017
2512017
Metafocusing by a metaspiral plasmonic lens
G Spektor, A David, B Gjonaj, G Bartal, M Orenstein
Nano letters 15 (9), 5739-5743, 2015
1122015
Short-range surface plasmonics: Localized electron emission dynamics from a 60-nm spot on an atomically flat single-crystalline gold surface
B Frank, P Kahl, D Podbiel, G Spektor, M Orenstein, L Fu, T Weiss, ...
Science Advances 3 (7), e1700721, 2017
992017
Mixing the light spin with plasmon orbit by nonlinear light-matter interaction in gold
G Spektor, D Kilbane, AK Mahro, M Hartelt, E Prinz, M Aeschlimann, ...
Physical Review X 9 (2), 021031, 2019
432019
Sub-100 nm focusing of short wavelength plasmons in homogeneous 2D space
B Gjonaj, A David, Y Blau, G Spektor, M Orenstein, S Dolev, G Bartal
Nano letters 14 (10), 5598-5602, 2014
402014
Functional meta lenses for compound plasmonic vortex field generation and control
E Prinz, G Spektor, M Hartelt, AK Mahro, M Aeschlimann, M Orenstein
Nano Letters 21 (9), 3941-3946, 2021
292021
Orbital angular momentum multiplication in plasmonic vortex cavities
G Spektor, E Prinz, M Hartelt, AK Mahro, M Aeschlimann, M Orenstein
Science Advances 7 (33), eabg5571, 2021
232021
Spin-patterned plasmonics: Towards optical access to topological-insulator surface states
G Spektor, A David, G Bartal, M Orenstein, A Hayat
Optics Express 23 (25), 32759-32765, 2015
232015
Orbital angular momentum in nanoplasmonic vortices
E Prinz, M Hartelt, G Spektor, M Orenstein, M Aeschlimann
ACS Photonics 10 (2), 340-367, 2023
192023
Asymmetric wave propagation in planar chiral fibers
D Shemuly, ZM Ruff, AM Stolyarov, G Spektor, SG Johnson, Y Fink, ...
Optics Express 21 (2), 1465-1472, 2013
192013
Universal visible emitters in nanoscale integrated photonics
G Spektor, D Carlson, Z Newman, JL Skarda, N Sapra, L Su, S Jammi, ...
Optica 10 (7), 871-879, 2023
112023
Linearly dichroic plasmonic lens and hetero-chiral structures
G Spektor, A David, B Gjonaj, L Gal, G Bartal, M Orenstein
Optics Express 24 (3), 2436-2442, 2016
92016
Plasmonic lens having a surface pattern providing linear-polarization-independent plasmonic focusing and circular polarization dependent plasmonic focusing
M Orenstein, G Spektor
US Patent 9,921,344, 2018
62018
A scalable infrastructure for strontium optical clocks
AR Ferdinand, ZL Newman, W Zhu, S Jammi, G Spektor, DR Carlson, ...
CLEO: Science and Innovations, STu5O. 1, 2022
32022
Constructing a magneto-optical trap using transmissive metasurfaces
W Zhu, L Chen, J Song, J Yang, O Koksal, Z Wang, A Ferdinand, S Jammi, ...
CLEO: Science and Innovations, SM2G. 7, 2023
12023
Towards a Strontium Optical Clock System with Metasurface Optics and Integrated Nonlinear Photonics
AR Ferdinand, DR Carlson, ZL Newman, S Jammi, W Zhu, Z Luo, ...
CLEO: Science and Innovations, SM2K. 2, 2023
12023
Photonic bandgap microcombs at 1064 nm
G Spektor, J Zang, A Dan, TC Briles, GM Brodnik, H Liu, JA Black, ...
APL Photonics 9 (2), 2024
2024
Tantalum pentoxide: a new material platform for high-performance dielectric metasurface optics in the ultraviolet and visible region
C Zhang, L Chen, Z Lin, J Song, D Wang, M Li, O Koksal, Z Wang, ...
Light: Science & Applications 13 (1), 23, 2024
2024
Soliton Microcombs at 1064 nm Enabled by a Nanophotonic Bandgap
J Zang, G Spektor, TC Briles, GM Brodnik, H Liu, JA Black, DR Carlson, ...
CLEO: Science and Innovations, STh3J. 7, 2023
2023
Alignment-free Sr MOT with integrated metasurfaces for a compact Sr optical clock
S Jammi, AR Ferdinand, W Zhu, G Spektor, Z Newman, J Song, O Koksal, ...
CLEO: Science and Innovations, SW4O. 2, 2023
2023
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