Ultrafast All-optical Tuning of Direct-gap Semiconductor Metasurfaces

Overview

Journal Nat Commun

Specialty Biology

Date 2017 May 14

PMID 28500308

Citations 48

Authors

Maxim R Shcherbakov

Sheng Liu

Varvara V Zubyuk

Aleksandr Vaskin

Polina P Vabishchevich

Gordon Keeler

Thomas Pertsch

Tatyana V Dolgova

Isabelle Staude

Igal Brener

Andrey A Fedyanin

Affiliations

Soon will be listed here.

Abstract

Optical metasurfaces are regular quasi-planar nanopatterns that can apply diverse spatial and spectral transformations to light waves. However, metasurfaces are no longer adjustable after fabrication, and a critical challenge is to realise a technique of tuning their optical properties that is both fast and efficient. We experimentally realise an ultrafast tunable metasurface consisting of subwavelength gallium arsenide nanoparticles supporting Mie-type resonances in the near infrared. Using transient reflectance spectroscopy, we demonstrate a picosecond-scale absolute reflectance modulation of up to 0.35 at the magnetic dipole resonance of the metasurfaces and a spectral shift of the resonance by 30 nm, both achieved at unprecedentedly low pump fluences of less than 400 μJ cm. Our findings thereby enable a versatile tool for ultrafast and efficient control of light using light.Metasurfaces are not adjustable after fabrication, and a critical challenge is to realise a technique of tuning their optical properties that is both fast and efficient. Here, Shcherbakov et al. realise an ultrafast tunable metasurface with picosecond-scale large absolute reflectance modulation at low pump fluences.

Citing Articles

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