Nanophotonics (Feb 2024)

Ultrafast acousto-optic modulation at the near-infrared spectral range by interlayer vibrations

  • Park Tae Gwan,
  • Kim Chaeyoon,
  • Oh Eon-Taek,
  • Na Hong Ryeol,
  • Chun Seung-Hyun,
  • Lee Sunghun,
  • Rotermund Fabian

DOI
https://doi.org/10.1515/nanoph-2023-0769
Journal volume & issue
Vol. 13, no. 7
pp. 1059 – 1068

Abstract

Read online

The acousto-optic modulation over a broad near-infrared (NIR) spectrum with high speed, excellent integrability, and relatively simple scheme is crucial for the application of next-generation opto-electronic and photonic devices. This study aims to experimentally demonstrate ultrafast acousto-optic phenomena in the broad NIR spectral range of 0.77–1.1 eV (1130–1610 nm). Hundreds of GHz of light modulation are revealed in an all-optical configuration by combining ultrafast optical spectroscopy and light–sound conversion in 10–20 nm-thick bismuth selenide (Bi2Se3) van der Waals thin films. The modified optical transition energy and the line shape in the NIR band indicate phonon–photon interactions, resulting in a modulation of optical characteristics by the photoexcited interlayer vibrations in Bi2Se3. This all-optical, ultrafast acousto-optic modulation approach may open avenues for next-generation nanophotonic applications, including optical communications and processing, due to the synergistic combination of large-area capability, high photo-responsivity, and frequency tunability in the NIR spectral range.

Keywords