Adiabatic Frequency Conversion Using a Time-Varying Epsilon-Near-Zero Metasurface

Kai Pang; M. Zahirul Alam; Yiyu Zhou; Cong Liu; Orad Reshef; Karapet Manukyan; Matt Voegtle; Anuj Pennathur; Cindy Tseng; Xinzhou Su; Hao Song; Zhe Zhao; Runzhou Zhang; Haoqian Song; Nanzhe Hu; Ahmed Almaiman; Jahan M. Dawlaty; Robert W. Boyd; Moshe Tur; Alan E. Willner

doi:10.1021/acs.nanolett.1c00550

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Adiabatic Frequency Conversion Using a Time-Varying Epsilon-Near-Zero Metasurface

Journal article

Peer reviewed

Adiabatic Frequency Conversion Using a Time-Varying Epsilon-Near-Zero Metasurface

Kai Pang, M. Zahirul Alam, Yiyu Zhou, Cong Liu, Orad Reshef, Karapet Manukyan, Matt Voegtle, Anuj Pennathur, Cindy Tseng, Xinzhou Su, …

Nano letters, Vol.21(14), pp.5907-5913

28/07/2021

DOI: https://doi.org/10.1021/acs.nanolett.1c00550

PMID: 34251831

Abstract

Chemistry

Chemistry, Multidisciplinary

Chemistry, Physical

Materials Science

Materials Science, Multidisciplinary

Nanoscience & Nanotechnology

Physical Sciences

Physics

Physics, Applied

Physics, Condensed Matter

Science & Technology

Science & Technology - Other Topics

Technology

A time-dependent change in the refractive index of a material leads to a change in the frequency of an optical beam passing through that medium. Here, we experimentally demonstrate that this effect.known as adiabatic frequency conversion (AFC)-can be significantly enhanced by a nonlinear epsilon-near-zero-based (ENZ-based) plasmonic metasurface. Specifically, by using a 63-nm-thick metasurface, we demonstrate a large, tunable, and broadband frequency shift of up to similar to 11.2 THz with a pump intensity of 4 GW/cm(2). Our results represent a decrease of similar to 10 times in device thickness and 120 times in pump peak intensity compared with the cases of bare, thicker ENZ materials for the similar amount of frequency shift. Our findings might potentially provide insights for designing efficient time-varying metasurfaces for the manipulation of ultrafast pulses.

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Title: Adiabatic Frequency Conversion Using a Time-Varying Epsilon-Near-Zero Metasurface
Creators - without role: Kai Pang - University of Southern California
M. Zahirul Alam - University of Ottawa
Yiyu Zhou - University of Rochester
Cong Liu - University of Southern California
Orad Reshef - University of Ottawa
Karapet Manukyan - University of Southern California
Matt Voegtle - University of Southern California
Anuj Pennathur - University of Southern California
Cindy Tseng - University of Southern California
Xinzhou Su - University of Southern California
Hao Song - University of Southern California
Zhe Zhao - University of Southern California
Runzhou Zhang - University of Southern California
Haoqian Song - Univ Southern Calif, Dept Elect & Comp Engn, Los Angeles, CA 90089 USA
Nanzhe Hu - University of Southern California
Ahmed Almaiman - University of Southern California
Jahan M. Dawlaty - University of Southern California
Robert W. Boyd - University of Ottawa
Moshe Tur - Tel Aviv University
Alan E. Willner - Univ Southern Calif, Dept Elect & Comp Engn, Los Angeles, CA 90089 USA
Publication Details: Nano letters, Vol.21(14), pp.5907-5913
Publisher: Amer Chemical Soc
Number of pages: 7
Grant note: Banting Postdoctoral Fellowship from NSERC; Natural Sciences and Engineering Research Council of Canada (NSERC) Canada Research Chairs (CRC) program; Canada Research Chairs RGPIN/2017-06880 / Natural Sciences and Engineering Research Council of Canada (NSERC) Canada First Research Excellence Fund (CFREF) W911NF-18-0369 / Defense Advanced Research Projects Agency (DARPA) under the NLM Nascent Light-Matter Interactions program Qualcomm Innovation Fellowship (QIF)
Identifiers: 9949810508331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article