[Oct.1] Physics Special Seminar - Dr. Sungkun Hong(University of Stutt…
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물리학과 특별세미나 안내
물리학과에서는 아래와 같이 특별세미나를 개최하오니, 관심 있는 분들의 많은 참여를 부탁드립니다.
○ 연사: 홍성근 박사 (University of Stuttgart)
○ 일시: 2025. 10. 1.(수), 오후 2시
○ 장소: 공학3동 302호 (세미나실)
○ 제목: Exploring the Quantum Motion of Levitated Particles
○ 문의처: 물리학과 행정팀 (T.054-279-3711)
Quantum levitodynamics is a thriving new field in quantum science that aims to control the quantum motion of micro- and nanoparticles levitated,e.g., in optical tweezers. In recent years, the field has made remarkable progress in achieving quantum control over optically levitated dielectric nanoparticles. These advances open exciting opportunities for the development of novel quantum technologies and for testing quantum physics beyond the microscopic domain. In this talk, I will provide a brief overview of the field and present my group’s research activities, with a particular focus on our efforts to realize nontrivial quantum states of particle motion at new length and mass scales.
Announcement on Physics Special Seminar
The Department of Physics will hold a Special Seminar as follows. The Special Seminar is open to all POSTECH members. Your participation will be greatly appreciated.
○ Speaker: Dr. Sungkun Hong(University of Stuttgart)
○ Date(Time): Wednesday, Ocotober 1, 2025 (2:00 p.m.)
○ Place: Science Bldg. III, Room 302
○ Title: Exploring the Quantum Motion of Levitated Particles
○ Contact: Department of Physics Administrative Office (T.054-279-3711)
Quantum levitodynamics is a thriving new field in quantum science that aims to control the quantum motion of micro- and nanoparticles levitated,e.g., in optical tweezers. In recent years, the field has made remarkable progress in achieving quantum control over optically levitated dielectric nanoparticles. These advances open exciting opportunities for the development of novel quantum technologies and for testing quantum physics beyond the microscopic domain. In this talk, I will provide a brief overview of the field and present my group’s research activities, with a particular focus on our efforts to realize nontrivial quantum states of particle motion at new length and mass scales.