Associate Professor at Shanxi University, China
Pixian Jin is a dedicated researcher in quantum optics and laser technology π¬, currently working at the State Key Laboratory of Quantum Optics and Quantum Optics Devices at Shanxi University, China π¨π³. He obtained his Ph.D. in Physics in 2018 π, focusing on continuously tunable single-frequency lasers. With extensive experience in optical engineering and laser technology π‘, he has contributed significantly to high-power, low-noise laser systems. His work has been widely published in top-tier journals π, and he actively participates in cutting-edge research projects in quantum optics and laser development.
Professional ProfileΒ
Education & Experience ππ¨βπ¬
π Education:
- Ph.D. in Physics (2018) β Shanxi University ποΈ
- M.E. in Optical Engineering (2014) β Shanxi University π‘
- B.S. in Physics (2012) β Shanxi University βοΈ
π Experience:
- 2018βPresent: Researcher, Quantum Optics & Laser Devices, Shanxi University π¬
- Research Focus: All-solid-state laser technology, single-frequency lasers, quantum optics devices π‘
Professional Development ππ
Pixian Jin has played a crucial role in advancing laser technology and quantum optics. His research on high-power, single-frequency lasers has led to significant improvements in laser stability and tunability π¦. He has worked on projects funded by Chinaβs National Natural Science Foundation and the Ministry of Science and Technology, focusing on cutting-edge optical technologies π‘. His expertise extends to solid-state lasers, nonlinear optics, and frequency tuning mechanisms, contributing to the development of advanced laser systems. Through collaborations with leading scientists π¨βπ« and publishing impactful research π, he continues to drive innovation in quantum optics and laser engineering.
Research Focus π¬βοΈ
Pixian Jinβs research revolves around laser technology and quantum optics devices. His work includes developing all-solid-state continuous-wave single-frequency lasers, focusing on high-power and low-intensity noise performance π. He has contributed to innovations in tunable single-frequency lasers, optimizing their stability and efficiency for practical applications π. His research also delves into frequency-tunable Ti:sapphire lasers, laser noise reduction, and nonlinear optics. With numerous publications and collaborations, his contributions advance the precision and efficiency of quantum and optical laser systems π. His expertise is shaping the future of quantum optics and photonics applications π‘.
Awards & Honors πποΈ
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National Natural Science Foundation of China Grant Recipient (2022, 2019) π
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Applied Basic Research Program of Shanxi Province Awardee (2019) ποΈ
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Key Project of the Ministry of Science and Technology Contributor (2017) π¬
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Outstanding Researcher in Quantum Optics Devices, Shanxi University π
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Multiple Publications in Prestigious Optical Journals π
Publication Top Notes
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Title: Performance Improvement of Single-Frequency CW Laser Using a Temperature Controller Based on Machine Learning
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Title: Low-intensity-noise single-frequency CW 1080 nm laser by employing a laser crystal with the small stimulated-emission cross section
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Title: Modulation-Noise-Free Continuously Tunable Single-Frequency CW Ti:Sapphire Laser With Intracavity-Locked Birefringent Etalon
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Title: Direct generation of a stable multi-beam pulsed 355 nm UV laser based on a micro-lens array
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Title: Realization of a continuous-wave single-frequency tunable Nd:CYA laser