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Self-evolving photonic crystals for ultrafast photonics

Engineering and Technology

Self-evolving photonic crystals for ultrafast photonics

T. Inoue, R. Morita, et al.

Explore an innovative self-evolving photonic crystal that dynamically changes its photonic band structure through carrier-photon interactions! This groundbreaking research by Takuya Inoue, Ryohei Morita, Kazuki Nigo, Masahiro Yoshida, Menaka De Zoysa, Kenji Ishizaki, and Susumu Noda showcases impressive short-pulse generation capabilities, opening new avenues in nanophotonic materials.... show more
Abstract
Ultrafast dynamics in nanophotonic materials is attracting increasing attention for both fundamental science and device functionality. Typically, such dynamics relies on external stimuli (optical pumping or voltage pulses), which become impractical at larger optical powers due to increased control energy. The authors demonstrate a self-evolving photonic crystal concept where the spatial profile of the photonic band dynamically changes through carrier–photon interactions under continuous uniform current injection. Using this approach, they experimentally realize short-pulse generation with peak power of 80 W and pulse width <30 ps in a 1-mm-diameter GaAs-based photonic crystal. These self-evolving carrier–photon dynamics broaden the potential of nanophotonic materials and enable diverse scientific and industrial applications.
Publisher
Nature Communications
Published On
Jan 27, 2023
Authors
Takuya Inoue, Ryohei Morita, Kazuki Nigo, Masahiro Yoshida, Menaka De Zoysa, Kenji Ishizaki, Susumu Noda
DOI
https://doi.org/10.1038/s41467-022-35599-2
Tags
photonic crystal
carrier-photon interactions
short-pulse generation
GaAs
nanophotonic materials
dynamic band structure
current injection

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