Watt‐Level Second‐Order Topological Charge Ultrafast Green Vortex Laser with Quasi ‐2D PEA2(CsPbBr3)n‐1PbBr4 Perovskite Films Saturable Absorber

Liu, Zehua; Li, Jingzhen; Zhang, Ling; Zhang, Yu; Yang, Song; Bai, Zhenxu; Wang, Yulei; Lu, Zhiwei; Yan, Dapeng; Qi, Yaoyao; Zhang, XingWang

doi:10.1002/adom.202401165

Advanced Optical Materials

2024

DOI: 10.1002/adom.202401165

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Watt‐Level Second‐Order Topological Charge Ultrafast Green Vortex Laser with Quasi ‐2D PEA₂(CsPbBr₃)_n‐1PbBr₄ Perovskite Films Saturable Absorber

Zehua Liu,

Jingzhen Li,

Ling Zhang

et al.

Abstract: Ultrafast vortex beams have significant scientific and practical value because of their unique phase properties in both the longitudinal and transverse modes, enabling multi‐dimensional quantum control of light fields. Directly generating watt‐level ultrafast vortex beams with large angular momentum has remained a major challenge due to the limitations of mode‐locked materials and existing spatiotemporal mode‐locking generation methods. In this study, quasi‐2D PEA2(CsPbBr3)n‐1PbBr4 perovskite films are prepare… Show more

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Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)₂(CsPbBr₃)_n−1PbBr₄ Perovskite Saturable Absorber

Zhang,

Li,

et al. 2024

ACS Photonics

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Visible pulsed vortex beams with controllable temporal profiles and customizable transverse modes are of great scientific and practical interest. The generation of visible pulsed vortex beams from lasers remains a significant challenge due to the limited availability of well-developed saturable absorbers (SAs) in the visible spectrum. Here, we report the generation of 640 nm passively Q-switched vortex beams from a Pr:YLF all-solid-state laser, for the first time to the best of our knowledge, using quasi-2D (PEA) 2 (CsPbBr 3 ) n−1 PbBr 4 perovskites as the SA. Stable pulsed TEM 0,0 mode generation with a tunable pulse duration from 826.5 to 371.2 ns and a corresponding repetition rate from 63.7 to 121.3 kHz was achieved. Additionally, customizable transverse modes were generated from the Pr:YLF laser cavity using a noncollinear pumping technique to precisely manage the gain and loss characteristics of intracavity transverse modes. A first-order vortex beam at 640 nm was obtained through astigmatic mode conversion from the passively Q-switched Pr:YLF laser. These results present a new paradigm in generating visible pulsed vortex beams, offering excellent application potential in underwater communication and super-resolution imaging.

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Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)₂(CsPbBr₃)_n−1PbBr₄ Perovskite Saturable Absorber

Zhang,

Li,

et al. 2024

ACS Photonics

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Watt‐Level Second‐Order Topological Charge Ultrafast Green Vortex Laser with Quasi ‐2D PEA₂(CsPbBr₃)_n‐1PbBr₄ Perovskite Films Saturable Absorber

Cited by 1 publication

References 42 publications

Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)₂(CsPbBr₃)_n−1PbBr₄ Perovskite Saturable Absorber

Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)₂(CsPbBr₃)_n−1PbBr₄ Perovskite Saturable Absorber

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Watt‐Level Second‐Order Topological Charge Ultrafast Green Vortex Laser with Quasi ‐2D PEA2(CsPbBr3)n‐1PbBr4 Perovskite Films Saturable Absorber

Cited by 1 publication

References 42 publications

Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)2(CsPbBr3)n−1PbBr4 Perovskite Saturable Absorber

Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)2(CsPbBr3)n−1PbBr4 Perovskite Saturable Absorber

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Product

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Watt‐Level Second‐Order Topological Charge Ultrafast Green Vortex Laser with Quasi ‐2D PEA₂(CsPbBr₃)_n‐1PbBr₄ Perovskite Films Saturable Absorber

Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)₂(CsPbBr₃)_n−1PbBr₄ Perovskite Saturable Absorber

Spatial–Temporal Manipulations of Visible Pulsed Vortex Beams in a Q-Switched Pr:YLF Laser with a (PEA)₂(CsPbBr₃)_n−1PbBr₄ Perovskite Saturable Absorber