Associate Professor at Shanxi University, China
Pixian Jin is a dedicated researcher in quantum optics and laser technology 🔬, currently working at the State Key Laboratory of Quantum Optics and Quantum Optics Devices at Shanxi University, China 🇨🇳. He obtained his Ph.D. in Physics in 2018 🎓, focusing on continuously tunable single-frequency lasers. With extensive experience in optical engineering and laser technology 💡, he has contributed significantly to high-power, low-noise laser systems. His work has been widely published in top-tier journals 📚, and he actively participates in cutting-edge research projects in quantum optics and laser development.
Professional Profile
Education & Experience 🎓👨🔬
📌 Education:
- Ph.D. in Physics (2018) – Shanxi University 🏛️
- M.E. in Optical Engineering (2014) – Shanxi University 📡
- B.S. in Physics (2012) – Shanxi University ⚛️
📌 Experience:
- 2018–Present: Researcher, Quantum Optics & Laser Devices, Shanxi University 🔬
- Research Focus: All-solid-state laser technology, single-frequency lasers, quantum optics devices 💡
Professional Development 🚀📚
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 🔦. He has worked on projects funded by China’s National Natural Science Foundation and the Ministry of Science and Technology, focusing on cutting-edge optical technologies 💡. 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 👨🏫 and publishing impactful research 📖, he continues to drive innovation in quantum optics and laser engineering.
Research Focus 🔬⚛️
Pixian Jin’s 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 🚀. He has contributed to innovations in tunable single-frequency lasers, optimizing their stability and efficiency for practical applications 🏆. 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 🌟. His expertise is shaping the future of quantum optics and photonics applications 📡.
Awards & Honors 🏆🎖️
🏅 National Natural Science Foundation of China Grant Recipient (2022, 2019) 🎓
🏅 Applied Basic Research Program of Shanxi Province Awardee (2019) 🏛️
🏅 Key Project of the Ministry of Science and Technology Contributor (2017) 🔬
🏅 Outstanding Researcher in Quantum Optics Devices, Shanxi University 🏆
🏅 Multiple Publications in Prestigious Optical Journals 📚
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