Conference on “Quantum Simulations of Fundamental Physics”

Last decade has witnessed drastic progress in quantum simulations. Unprecedented programmability has been accomplished in various quantum systems, such as atom tweezer arrays, optical lattices, trapped ions, and superconducting qubits. This has opened up new opportunities for quantum simulations. Quantum simulations of Fermi-Hubbard models are reaching new regimes with cold atoms in optical lattices, and in tweezer arrays. Multi-orbital superfluids are witnessing charge, spin, and orbital intertwined orders, of vital interests to strongly correlated condensed matter systems. Exotic quantum many-body states with intrinsic topological order with long-range quantum entanglement have been prepared. Large scale quantum simulations of Hamiltonians that encode difficult computation problems are bringing novel routes to reach practical quantum advantage. Simulating quantum field theories provide non-perturbative approaches to treat scattering process and bound state problems in high energy physics. The conference covers recent innovation across different programmable quantum platforms in both theory and experiment. This includes quantum schemes and protocols to process quantum information, perform difficult optimization problems, simulate strongly correlated fermions, and emulate high energy processes. The technological requirements to reach practical quantum advantage will be discussed. It is aimed to stimulate and foster interactions between leading experts in the field to bring fresh theoretical ideas closer to the exciting frontiers ranging from simulating fundamental physics to application in quantum technology.

Sessions （tentative）：

Hamiltonian learning

Fermionic Quantum Simulations

Quantum simulations with atom tweezer arrays

Quantum many-body dynamics and dynamical phase transitions

Quantum simulations of quantum field theories

High orbital optical lattices 

Date：

Conference on November 16^th -18^th , 2023

Student lectures on the day before. (XL)

Location：

TBA

Organizing Committee：

Xiaopeng Li (Fudan University)

Youjin Deng (University of Science and Technology of China)

Lu-Ming Duan (Tsinghua University)

W. Vincent Liu (University of Pittsburgh)

Peter Zoller (University of Innsbruck)

Invited Speakers：

Bo Zhao（University of Science and Technology of China）

Daniel Gonzalez（Innsbruck University）

David Weld  (University of California, Santa Barbara)

Denis V. Vasilyev（Innsbruck University）

Erhai Zhao（George Mason University）

Haibin Wu（East Normal University of China）

Hui Zhai（Tsinghua University）

Jaewook Ahn  (Korea Advanced Institute of Science and Technology )

Jian Lin（Ningbo University）

Jing Zhang（Shanxi University）

Jörg Schmiedmayer（Vienna Center for Quantum Science and Technology）

Kun Chen（Flatiron Institute）

Lei Feng （Fudan University）

Long Zhang（Huazhong University of Science and Technology）

Michael Brune（Laboratoire Kastler Brossel, France）

Mingpu Qin（Shanghai Jiaotong University）

Mingsheng Zhan（Wuhan Institute of Physics and Mathematics Chinese Academy of Sciences）

Nikolay Prokof'ev (University of Massachusetts)

Robert Ott （Innsbruck University）

Sayan Choudhury （Harish-Chandra Research Institute）

Shiliang Zhu（South China Normal University）

Torsten V. Zache（University of Innsbruck ）

Wei Li（Institute Theoretical Physics, Chinese Academy of Sciences）

Xiaoji Zhou（Peking University）

Xiongjun Liu（Peking University）

Yu-Ao Chen（University of Science and Technology of China）

Yukai Wu（Tsinghua University）

Zhen-Sheng Yuan（University of Science and Technology of China）

Sponsor Institutions：

University of Science and Technology of China

Fudan University, Shanghai, China

Tsinghua University