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. 2022 Jul;34(26):e2108261.
doi: 10.1002/adma.202108261. Epub 2022 May 20.

Structural Phase Transitions between Layered Indium Selenide for Integrated Photonic Memory

Tiantian Li  1 Yong Wang  2 Wei Li  2   3 Dun Mao  1 Chris J Benmore  4 Igor Evangelista  2 Huadan Xing  1 Qiu Li  1 Feifan Wang  1 Ganesh Sivaraman  5 Anderson Janotti  2 Stephanie Law  2 Tingyi Gu  1
Affiliations

Structural Phase Transitions between Layered Indium Selenide for Integrated Photonic Memory

Tiantian Li et al. Adv Mater. 2022 Jul.

Abstract

The primary mechanism of optical memoristive devices relies on phase transitions between amorphous and crystalline states. The slow or energy-hungry amorphous-crystalline transitions in optical phase-change materials are detrimental to the scalability and performance of devices. Leveraging an integrated photonic platform, nonvolatile and reversible switching between two layered structures of indium selenide (In2 Se3 ) triggered by a single nanosecond pulse is demonstrated. The high-resolution pair distribution function reveals the detailed atomistic transition pathways between the layered structures. With interlayer "shear glide" and isosymmetric phase transition, switching between the α- and β-structural states contains low re-configurational entropy, allowing reversible switching between layered structures. Broadband refractive index contrast, optical transparency, and volumetric effect in the crystalline-crystalline phase transition are experimentally characterized in molecular-beam-epitaxy-grown thin films and compared to ab initio calculations. The nonlinear resonator transmission spectra measure of incremental linear loss rate of 3.3 GHz, introduced by a 1.5 µm-long In2 Se3 -covered layer, resulted from the combinations of material absorption and scattering.

Keywords: In 2Se 3; all-optical switching; optical memory; optical switching; structural phase transitions.

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