Metal Halide Perovskites toward Electrically Pumped Lasers,Laser & Photonics Reviews

当前位置： X-MOL 学术 › Laser Photonics Rev. › 论文详情

Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)

Metal Halide Perovskites toward Electrically Pumped Lasers
Laser & Photonics Reviews ( IF 9.8 ) Pub Date : 2022-07-22 , DOI: 10.1002/lpor.202200189
Anqi Liu ₁ , Gangyun Guan ₁ , Xiaomei Chai ₁ , Nannan Feng ₁ , Min Lu ₁ , Xue Bai ₁ , Yu Zhang ₁

Affiliation

The rapid development of lasers since their launch has given a new lease to traditional optical technology and immensely boosted the development of natural science. Benefiting from the salient light absorption and light emission traits, perovskite lasers show incalculable prospects in applications of optical storage, optical interconnects, high-quality displays, on-chip photonic communications, etc. For perovskite lasers, device structure and working principle rather than just material property are also profound, especially for the realization and assessment of electrically pumped lasers, which is the prerequisite for the ultimate practical application of perovskite lasers. With this in mind, the key characteristic parameters of possible future electrically pumped lasers are discussed herein, and a systematic review of perovskite lasers is presented in a sequential order of development. To begin, the components of lasers are introduced in detail, with an emphasis on optical microcavities and diverse proposed working mechanisms, followed by introductions of representative advances in pulsed optically pumped perovskite lasers with various lasing modes, as well as state-of-the-art developments in lasing phenomenon under continuous-wave optical pumping. Finally, the challenges and fruitful progress toward electrically pumped perovskite lasers are discussed emphatically. It is hoped that this review will promote the realization of perovskite electrically pumped lasers and commercialization of perovskite lasers.

中文翻译：

金属卤化物钙钛矿用于电泵浦激光器

激光自问世以来的飞速发展，为传统光学技术提供了新的契机，极大地推动了自然科学的发展。得益于显着的光吸收和发光特性，钙钛矿激光器在光存储、光互连、高质量显示、片上光子通信等领域的应用前景不可估量。对于钙钛矿激光器而言，器件结构和工作原理不仅仅是材料特性也很深刻，特别是对于电泵浦激光器的实现和评估，这是钙钛矿激光器最终实际应用的前提。考虑到这一点，本文讨论了未来可能的电泵浦激光器的关键特性参数，并按发展的顺序介绍了钙钛矿激光器的系统评价。首先，详细介绍了激光器的组成部分，重点介绍了光学微腔和提出的各种工作机制，然后介绍了具有各种激光模式的脉冲光泵浦钙钛矿激光器的代表性进展，以及最新进展。连续波光泵浦下激光现象的艺术发展。最后，重点讨论了电泵浦钙钛矿激光器面临的挑战和取得的丰硕成果。希望本次综述能够促进钙钛矿电泵浦激光器的实现和钙钛矿激光器的商业化。重点介绍了光学微腔和提出的各种工作机制，然后介绍了具有各种激光模式的脉冲光泵浦钙钛矿激光器的代表性进展，以及连续波光泵浦下激光现象的最新发展。最后，重点讨论了电泵浦钙钛矿激光器面临的挑战和取得的丰硕成果。希望本次综述能够促进钙钛矿电泵浦激光器的实现和钙钛矿激光器的商业化。重点介绍了光学微腔和提出的各种工作机制，然后介绍了具有各种激光模式的脉冲光泵浦钙钛矿激光器的代表性进展，以及连续波光泵浦下激光现象的最新发展。最后，重点讨论了电泵浦钙钛矿激光器面临的挑战和取得的丰硕成果。希望本次综述能够促进钙钛矿电泵浦激光器的实现和钙钛矿激光器的商业化。重点讨论了电泵浦钙钛矿激光器所面临的挑战和卓有成效的进展。希望本次综述能够促进钙钛矿电泵浦激光器的实现和钙钛矿激光器的商业化。重点讨论了电泵浦钙钛矿激光器所面临的挑战和卓有成效的进展。希望本次综述能够促进钙钛矿电泵浦激光器的实现和钙钛矿激光器的商业化。

更新日期：2022-07-22

点击分享查看原文

点击收藏

阅读更多本刊最新论文本刊介绍/投稿指南11