About the Role
Our research group is actively recruiting enthusiastic Master’s and PhD students interested in exploring the cutting-edge fields of quantum field theory, quantum gravity, and quantum information theory.
Research topics include:
• Holography, Emergent Quantum Spacetime, Quantum Gravity
• Black Hole Information Paradox and Interior Physics of Black Holes
• Quantum Field Theory
• Quantum Information Theory
• Quantum Simulation and Quantum Computing
Depending on students’ individual interests and expertise, they can engage in one or more of the following specialized projects, with comprehensive training and practical research experience provided:
Available research projects:
• Conformal Field Theory (CFT), Large N models, Collective Field Theory
• SYK model and Black Holes
• AdS/CFT and dS/CFT Correspondence
• Island formula and Random Matrix Models
• Multipartite Entanglement, Quantum Error Correction, Hayden-Preskill protocol
• Matrix Models and 2D String Theory
• Numerical Bootstrap (conformal/cosmological)
• Quantum Computing using Qiskit
We warmly invite applications from highly motivated students with a strong curiosity and passion for high energy theory and quantum information theory.
Requirements
About Our Group
Our research group focuses on quantum field theory and quantum gravity, with holography and the reconstruction of quantum spacetime as central research themes. In particular, we explore the fundamental connection between gravity and quantum mechanics through black hole physics and the black hole information paradox, deeply investigating multipartite quantum entanglement and entanglement structures in spacetime using quantum information theory. Our goal is to achieve a new quantum-level understanding of emergent spacetime and the internal structures of black holes.
We actively utilize advanced theoretical frameworks along with cutting-edge numerical approaches such as quantum computing and quantum simulation. Our group offers opportunities to participate in various seminars, workshops, and academic conferences, and actively supports international collaboration programs with renowned overseas research institutions. Our ongoing projects align closely with the latest trends in quantum gravity, holography, and quantum information, providing excellent opportunities to collaborate with leading international researchers in theoretical physics.
We warmly welcome students who are eager to tackle the fundamental questions of modern theoretical physics in a creative and challenging research environment.