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Generation of Spatiotemporal Vortex Pulses by Resonant Diffractive Grating.
Che, Zhiyuan; Liu, Wenzhe; Ye, Junyi; Shi, Lei; Chan, C T; Zi, Jian.
Affiliation
  • Che Z; State Key Laboratory of Surface Physics, Key Laboratory of Micro- and Nano-Photonic Structures (Ministry of Education), and Department of Physics, Fudan University, Yangpu District, Shanghai, 200433, China.
  • Liu W; Department of Physics, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, 999077, China.
  • Ye J; State Key Laboratory of Surface Physics, Key Laboratory of Micro- and Nano-Photonic Structures (Ministry of Education), and Department of Physics, Fudan University, Yangpu District, Shanghai, 200433, China.
  • Shi L; State Key Laboratory of Surface Physics, Key Laboratory of Micro- and Nano-Photonic Structures (Ministry of Education), and Department of Physics, Fudan University, Yangpu District, Shanghai, 200433, China.
  • Chan CT; Institute for Nanoelectronic Devices and Quantum Computing, Fudan University, Yangpu District, Shanghai, 200438, China.
  • Zi J; Collaborative Innovation Center of Advanced Microstructures, Nanjing University, Gulou District, Nanjing, 210093, China.
Phys Rev Lett ; 132(4): 044001, 2024 Jan 26.
Article in En | MEDLINE | ID: mdl-38335365
ABSTRACT
Spatiotemporal vortex pulses are wave packets that carry transverse orbital angular momentum, exhibiting exotic structured wave fronts that can twist through space and time. Existing methods to generate these pulses require complex setups like spatial light modulators or computer-optimized structures. Here, we demonstrate a new approach to generate spatiotemporal vortex pulses using just a simple diffractive grating. The key is constructing a phase vortex in frequency-momentum space by leveraging symmetry, resonance, and diffraction. Our approach is applicable to any wave system. We use a liquid surface wave (gravity wave) platform to directly demonstrate and observe the real-time generation and evolution of spatiotemporal vortex pulses. This straightforward technique provides opportunities to explore pulse dynamics and potential applications across different disciplines.
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Full text: 1 Database: MEDLINE Language: En Year: 2024 Type: Article
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Full text: 1 Database: MEDLINE Language: En Year: 2024 Type: Article