Tunability of Sb2Se3 phase change material for multi-domain optoelectronics

IF 7.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Krishna Murali, Litty Thekkekara, Md. Ataur Rahman, Suvankar Sen, Vladlen Shvedov, Yana Izdebskaya, Chengjun Zou, Sherif Abdulkader Tawfik, Ilya Shadrivov, Sharath Sriram, Madhu Bhaskaran
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引用次数: 0

Abstract

Phase change materials play an essential role in the development of tuneable optics by overcoming the limitations possessed by conventional optics due to their static behaviour. Due to their non-volatile nature, chalcogenide materials attained attention beyond other phase change materials. Antimony-based chalcogenides are promising due to low absorption loss, optimal refractive index change, and compatibility with silicon integration. This study optimises near-stoichiometric sputtered SbSe thin films and investigates their compositional, physical, and optical properties change by thermal, optical, and electrical stimuli. We further extend the investigation to the induced intermediate states in the SbSe thin film for multi-bit operation for tunable photonics and phase-change memory with a current switching ratio of 10 during a phase transition. The findings are integral to the realisation of high-capacity optical switches and routers, displays with larger colour distribution, and photonic memories with high computational capabilities.
用于多域光电子学的 Sb2Se3 相变材料的可调谐性
相变材料克服了传统光学因其静态行为而具有的局限性,在可调光学的发展中发挥着至关重要的作用。由于其不挥发的特性,掺镱材料比其他相变材料更受关注。基于锑的钙化物具有低吸收损耗、最佳折射率变化以及与硅集成的兼容性等优点,因此前景广阔。本研究优化了近全度溅射硒化锑薄膜,并研究了其成分、物理和光学特性在热、光和电刺激下的变化。我们进一步将研究扩展到硒化锑薄膜中的诱导中间态,以实现可调谐光子学和相变存储器的多比特操作,在相变过程中的电流开关比为 10。这些发现对于实现大容量光交换机和路由器、色彩分布更广的显示器以及具有高计算能力的光子存储器是不可或缺的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Applied Materials Today
Applied Materials Today Materials Science-General Materials Science
CiteScore
14.90
自引率
3.60%
发文量
393
审稿时长
26 days
期刊介绍: Journal Name: Applied Materials Today Focus: Multi-disciplinary, rapid-publication journal Focused on cutting-edge applications of novel materials Overview: New materials discoveries have led to exciting fundamental breakthroughs. Materials research is now moving towards the translation of these scientific properties and principles.
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