Mona Jarrahi
Cytowane przez
Cytowane przez
All-optical machine learning using diffractive deep neural networks
X Lin, Y Rivenson, NT Yardimci, M Veli, Y Luo, M Jarrahi, A Ozcan
Science 361 (6406), 1004-1008, 2018
Significant performance enhancement in photoconductive terahertz optoelectronics by incorporating plasmonic contact electrodes
CW Berry, N Wang, MR Hashemi, M Unlu, M Jarrahi
Nature communications 4 (1), 1622, 2013
High-power terahertz generation using large-area plasmonic photoconductive emitters
NT Yardimci, SH Yang, CW Berry, M Jarrahi
IEEE Transactions on Terahertz Science and Technology 5 (2), 223-229, 2015
7.5% optical-to-terahertz conversion efficiency offered by photoconductive emitters with three-dimensional plasmonic contact electrodes
SH Yang, MR Hashemi, CW Berry, M Jarrahi
IEEE Transactions on Terahertz Science and Technology 4 (5), 575-581, 2014
Electronically-controlled beam-steering through vanadium dioxide metasurfaces
MRM Hashemi, SH Yang, T Wang, N Sepúlveda, M Jarrahi
Scientific reports 6 (1), 35439, 2016
Gold-patched graphene nano-stripes for high-responsivity and ultrafast photodetection from the visible to infrared regime
S Cakmakyapan, PK Lu, A Navabi, M Jarrahi
Light: Science & Applications 7 (1), 20, 2018
Terahertz generation using plasmonic photoconductive gratings
CW Berry, M Jarrahi
New Journal of Physics 14 (10), 105029, 2012
Design of task-specific optical systems using broadband diffractive neural networks
Y Luo, D Mengu, NT Yardimci, Y Rivenson, M Veli, M Jarrahi, A Ozcan
Light: Science & Applications 8 (1), 112, 2019
Generation of high power pulsed terahertz radiation using a plasmonic photoconductive emitter array with logarithmic spiral antennas
CW Berry, MR Hashemi, M Jarrahi
Applied Physics Letters 104 (8), 081122, 2014
Advanced Photoconductive Terahertz Optoelectronics Based on Nano-Antennas and Nano-Plasmonic Light Concentrators
M Jarrahi
Terahertz Science and Technology, IEEE Transactions on 5 (3), 391 - 397, 2015
Analysis of periodic metallic nano-slits for efficient interaction of terahertz and optical waves at nano-scale dimensions
BY Hsieh, M Jarrahi
Journal of Applied Physics 109 (8), 084326, 2011
High sensitivity terahertz detection through large-area plasmonic nano-antenna arrays
NT Yardimci, M Jarrahi
Scientific reports 7 (1), 42667, 2017
Nanostructure‐enhanced photoconductive terahertz emission and detection
NT Yardimci, M Jarrahi
Small 14 (44), 1802437, 2018
Switchable scattering meta-surfaces for broadband terahertz modulation
M Unlu, MR Hashemi, CW Berry, S Li, SH Yang, M Jarrahi
Scientific reports 4 (1), 5708, 2014
High power terahertz generation using 1550 nm plasmonic photomixers
CW Berry, MR Hashemi, S Preu, H Lu, AC Gossard, M Jarrahi
Applied Physics Letters 105 (1), 011121, 2014
A high-power broadband terahertz source enabled by three-dimensional light confinement in a plasmonic nanocavity
NT Yardimci, S Cakmakyapan, S Hemmati, M Jarrahi
Scientific reports 7 (1), 4166, 2017
Terahertz pulse shaping using diffractive surfaces
M Veli, D Mengu, NT Yardimci, Y Luo, J Li, Y Rivenson, M Jarrahi, ...
Nature Communications 12 (1), 37, 2021
Globally stable microresonator Turing pattern formation for coherent high-power THz radiation on-chip
SW Huang, J Yang, SH Yang, M Yu, DL Kwong, T Zelevinsky, M Jarrahi, ...
Physical Review X 7 (4), 041002, 2017
Spectrally encoded single-pixel machine vision using diffractive networks
J Li, D Mengu, NT Yardimci, Y Luo, X Li, M Veli, Y Rivenson, M Jarrahi, ...
Science Advances 7 (13), eabd7690, 2021
Principles of impedance matching in photoconductive antennas
CW Berry, M Jarrahi
Journal of Infrared, Millimeter, and Terahertz Waves 33, 1182-1189, 2012
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