강연 / 세미나
Director's Seminarㅣ Orthosymplectic bow varieties
분야Field | |||
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날짜Date | 2023-04-19 ~ 2023-04-19 | 시간Time | 14:00 ~ 16:00 |
장소Place | CGP Main Hall | 초청자Host | |
연사Speaker | Norton Lee | 소속Affiliation | IBS Center for Geometry and Physics |
TOPIC | Director's Seminarㅣ Orthosymplectic bow varieties | ||
소개 및 안내사항Content | This seminar will be a continuous series of talks on "Quantum Entanglement and related topics". Quantum entanglement is one of the most fundamental features of quantum mechanics. It is a physical phenomenon that performing a local measure may instantaneously affect the outcome of local measurements far away. The concept of entanglement occurs in various areas such as in quantum information theory, communication and quantum computing. A rich field of research concerns the understanding of the role of entanglement in many body systems. In that regard, the theory can be applied to the study of knots and links in 3 manifolds by the `replica trick'. In this seminar, we will aim at learning the basics of quantum entanglement theory, understanding their applications to related areas such as Chern-Simons theory, and black hole dynamics and searching for other possible mathematical applications. |
학회명Field | Director's Seminarㅣ Orthosymplectic bow varieties | ||
---|---|---|---|
날짜Date | 2023-04-19 ~ 2023-04-19 | 시간Time | 14:00 ~ 16:00 |
장소Place | CGP Main Hall | 초청자Host | |
소개 및 안내사항Content | This seminar will be a continuous series of talks on "Quantum Entanglement and related topics". Quantum entanglement is one of the most fundamental features of quantum mechanics. It is a physical phenomenon that performing a local measure may instantaneously affect the outcome of local measurements far away. The concept of entanglement occurs in various areas such as in quantum information theory, communication and quantum computing. A rich field of research concerns the understanding of the role of entanglement in many body systems. In that regard, the theory can be applied to the study of knots and links in 3 manifolds by the `replica trick'. In this seminar, we will aim at learning the basics of quantum entanglement theory, understanding their applications to related areas such as Chern-Simons theory, and black hole dynamics and searching for other possible mathematical applications. |
성명Field | Director's Seminarㅣ Orthosymplectic bow varieties | ||
---|---|---|---|
날짜Date | 2023-04-19 ~ 2023-04-19 | 시간Time | 14:00 ~ 16:00 |
소속Affiliation | IBS Center for Geometry and Physics | 초청자Host | |
소개 및 안내사항Content | This seminar will be a continuous series of talks on "Quantum Entanglement and related topics". Quantum entanglement is one of the most fundamental features of quantum mechanics. It is a physical phenomenon that performing a local measure may instantaneously affect the outcome of local measurements far away. The concept of entanglement occurs in various areas such as in quantum information theory, communication and quantum computing. A rich field of research concerns the understanding of the role of entanglement in many body systems. In that regard, the theory can be applied to the study of knots and links in 3 manifolds by the `replica trick'. In this seminar, we will aim at learning the basics of quantum entanglement theory, understanding their applications to related areas such as Chern-Simons theory, and black hole dynamics and searching for other possible mathematical applications. |
성명Field | Director's Seminarㅣ Orthosymplectic bow varieties | ||
---|---|---|---|
날짜Date | 2023-04-19 ~ 2023-04-19 | 시간Time | 14:00 ~ 16:00 |
호실Host | 인원수Affiliation | Norton Lee | |
사용목적Affiliation | 신청방식Host | IBS Center for Geometry and Physics | |
소개 및 안내사항Content | This seminar will be a continuous series of talks on "Quantum Entanglement and related topics". Quantum entanglement is one of the most fundamental features of quantum mechanics. It is a physical phenomenon that performing a local measure may instantaneously affect the outcome of local measurements far away. The concept of entanglement occurs in various areas such as in quantum information theory, communication and quantum computing. A rich field of research concerns the understanding of the role of entanglement in many body systems. In that regard, the theory can be applied to the study of knots and links in 3 manifolds by the `replica trick'. In this seminar, we will aim at learning the basics of quantum entanglement theory, understanding their applications to related areas such as Chern-Simons theory, and black hole dynamics and searching for other possible mathematical applications. |