About Me
I am a theoretical physicist currently working as a Brain Pool Research Fellow at Asia Pacific Center for Theoretical Physics ( APCTP ), Pohang ( South Korea ).
My research focuses on leveraging advanced quantum information theoretic techniques to probe the intricate entanglement structures inherent in strongly coupled quantum field theories (QFTs). Specifically, I am deeply interested in understanding how these structures relate to the enigmatic phenomena surrounding black hole information loss paradox and the realm of quantum gravity. By delving into this domain, I aim to explore the emergence of classical spacetime from entanglement, echoing the notion of 'it from qubits'.
I am intrigued by the concept of quantum chaos and its profound connection to black holes, known for their unparalleled ability to rapidly scramble information. In this context, I am involved in exploring various manifestations of complexity derived from quantum information theory promises to yield novel insights into the interior of black holes.
In addition to these primary interests, I have actively pursued research endeavors involving the application of conformal bootstrap techniques and the study of higher spin symmetries. These investigations are geared towards elucidating momentum space correlators within strongly coupled QFTs, thereby contributing to a deeper understanding of fundamental physical phenomena.
My research focuses on leveraging advanced quantum information theoretic techniques to probe the intricate entanglement structures inherent in strongly coupled quantum field theories (QFTs). Specifically, I am deeply interested in understanding how these structures relate to the enigmatic phenomena surrounding black hole information loss paradox and the realm of quantum gravity. By delving into this domain, I aim to explore the emergence of classical spacetime from entanglement, echoing the notion of 'it from qubits'.
I am intrigued by the concept of quantum chaos and its profound connection to black holes, known for their unparalleled ability to rapidly scramble information. In this context, I am involved in exploring various manifestations of complexity derived from quantum information theory promises to yield novel insights into the interior of black holes.
In addition to these primary interests, I have actively pursued research endeavors involving the application of conformal bootstrap techniques and the study of higher spin symmetries. These investigations are geared towards elucidating momentum space correlators within strongly coupled QFTs, thereby contributing to a deeper understanding of fundamental physical phenomena.