Quantum information and computation, and their connections to various disciplines in physics, such as high energy physics, condensed matter physics, statistical physics.
Zi-Wen Liu, Christopher Perry, Yechao Zhu, Dax Enshan Koh, Scott Aaronson, Doubly infinite separation of quantum information and communication, Phys. Rev. A 93, 012347 (2016), arXiv: 1507.03546
Aram Harrow, Linghang Kong, Zi-Wen Liu, Saeed Mehraban, Peter Shor, A Separation of Out-of-time-ordered Correlator and Entanglement, arXiv: 1906.02219
Zi-Wen Liu, Andreas Winter, Resource theories of quantum channels and the universal role of resource erasure, arXiv: 1904.04201
Lu Li, Kaifeng Bu, Zi-Wen Liu, Quantifying the resource content of quantum channels: An operational approach, arXiv: 1812.02572
Can Gokler, Artemy Kolchinsky, Zi-Wen Liu, Iman Marvian, Peter Shor, Oles Shtanko, Kevin Thompson, David Wolpert, Seth Lloyd, When is a bit worth much more than kTln2?, arXiv: 1705.09598
Artemy Kolchinsky, Iman Marvian, Can Gokler, Zi-Wen Liu, Peter Shor, Oles Shtanko, Kevin Thompson, David Wolpert, Seth Lloyd, Maximizing free energy gain, arXiv: 1705.00041
Seth Lloyd, Zi-Wen Liu, Stefano Pirandola, Vazrik Chiloyan, Yongjie Hu, Samuel Huberman, Gang Chen, No energy transport without discord, arXiv: 1510.05035
Seminars
Resource theory of quantum channels and the universal role of resource erasure, AQIS'19, KIAS, Korea
One-shot resource theory and no-go theorems for distillation, with applications to quantum computation, Shandong University, China
One-shot resource theory and no-go theorems for distillation, with applications to quantum computation, UESTC, China
One-shot resource theory and no-go theorems for distillation, with applications to quantum computation, Quantum Information and String Theory 2019, Kyoto University, Japan
Generalized entanglement entropies of quantum designs, Universitat Autonoma de Barcelona, Spain
Resource theory of quantum channels and the universal role of resource erasure, Beyond i.i.d. in information theory 2018, Cambridge University, UK
Resource theories of quantum channels, Hong Kong-Shenzhen Workshop in Quantum Information Science, SUSTech, China
Entanglement, quantum randomness, and complexity beyond scrambling, International Workshop on Physics of Information, SUSTech, China
Entanglement, quantum randomness, and complexity beyond scrambling, UESTC, China
Entropic scrambling complexities, MIT, United States
Resource destroying maps, with new applications, AQIS'17, Singapore
Generalized entanglement entropies of quantum designs, AQIS'17, Singapore
A theory of resource destruction, ETH Zurich, Switzerland
Doubly infinite separation of quantum information and communication, CEQIP'16, Czech Republic
On the role of quantum correlations in thermodynamics, Nanjing University, China
PIRSA:18010084, Entanglement, quantum randomness, and complexity beyond scrambling , 2018-01-24, Perimeter Institute Quantum Discussions