Foundations of Quantum Theory

Foundations of Quantum Theory

We delve into the core principles that underpin quantum mechanics. Our research explores concepts like entanglement entropy, aiming to deepen our understanding of quantum information and the fundamental behavior of quantum systems. By developing theoretical models, we strive to provide insights into the complex, often counterintuitive nature of quantum phenomena.

Gravitational anomaly and large diffeomorphism

Modular Anomalies in (2+1) and (3+1)-D Edge Theories

Moon Jip Park, Chen Fang, B. Andrei Bernevig, Matthew J. Gilbert

Phys. Rev. B, 95, 235130, (2017)

Coupled wire models of interacting Dirac nodal superconductors

Moon Jip Park, Syed Raza, Matthew J. Gilbert, Jeffrey C. Y. Teo

Phys. Rev. B, 98, 184514 (2018)

Exceptional Classifications of Non-Hermitian Systems

Jung-Wan Ryu, Jae-Ho Han, Chang-Hwan Yi, Moon Jip Park*, Hee Chul Park* Communications Physics 7, 109 (2024)

Eigenstate Switching of Topologically Ordered States

Cheol Hun Yeom, Beom Hyun Kim, Moon Jip Park

arXiv:2402.17280 (2024)

Quantum Information & Open Quantumness

Floquet Chiral Quantum Walk in Quantum Computer

Chan Bin Bark, Youngseok Kim, Moon Jip Park

Phys. Rev. B 109, L201117 (2024)

PT-symmetric Non-Hermitian Hopf metal

Seik Pak, Cheol Hun Yeom, Sonu Verma, Moon Jip Park

Physical Review Research 6, L012053 (2024)

Collective non-Hermitian skin effect: Point-gap topology and the doublon-holon excitations in non-reciprocal many-body systems

Beom Hyun Kim, Jae-Ho Han, Moon Jip Park

Communications Physics 7, 73 (2024)

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