Bio

Dr. Chen received his PhD from Washington University in St. Louis in 2018. He then held a postdoctoral fellowship at the Center for Quantum Sensors at Washington University (2019-2022). He continued his research there as a postdoc (2022-2024) and then as a staff scientist (2024). In 2024, he became an Assistant Professor at NC State. Dr. Chen currently leads an experimental research lab that leverages the extreme controllability and flexibility of superconducting circuits to explore quantum physics and applications.

Group webpage: https://chengroup.wordpress.ncsu.edu/

Google Scholar Profile: https://scholar.google.com/citations?user=_zXAju0AAAAJ&hl

Area(s) of Expertise

Superconducting Quantum Circuits, Quantum Control and Dissipation Engineering, Non-Hermitian Physics.

Publications

• Engineering Nonequilibrium Steady States through Floquet Liouvillians , Physical Review Letters (2025)
• Higher-order exceptional points in composite non-Hermitian systems , Physical Review Research (2025)
• Chiral Bell-State Transfer via Dissipative Liouvillian Dynamics , Physical Review Letters (2024)
• Constraining work fluctuations of non-Hermitian dynamics across the exceptional point of a superconducting qubit , Physical Review Research (2024)
• Observing parity-time symmetry breaking in a Josephson parametric amplifier , Physical Review Research (2023)
• Speeding Up Entanglement Generation by Proximity to Higher-Order Exceptional Points , Physical Review Letters (2023)
• Decoherence-Induced Exceptional Points in a Dissipative Superconducting Qubit , Physical Review Letters (2022)
• Fully integrated parity–time-symmetric electronics , Nature Nanotechnology (2022)
• Fully integrated topological electronics , Scientific Reports (2022)
• Topological Quantum State Control through Exceptional-Point Proximity , Physical Review Letters (2022)

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