Research Areas
Theoretical and experimental research of the foundations of quantum mechanics: wave function, measurement, entanglement.
A computational test of quantum contextuality, and even simpler proofs of quantumness
Arxiv.org
May 10, 2024
Atul Singh Arora, Kishor Bharti, Alexandru Cojocaru, Andrea Coladangelo
Quantifying the accuracy of steady states obtained from the universal Lindblad equation
Physical Review B
May 20, 2024
Frederik Nathan and Mark S. Rudner
Bloch oscillation phases investigated by multipath Stückelberg atom interferometry
Physical Review Research
April 24, 2024
Tahiyat Rahman, Anna Wirth-Singh, Andrew Ivanov, Daniel Gochnauer, Emmett Hough, and Subhadeep Gupta
Using Hardware, Software, and algorithms to realize solutions to problems intractable on classical computers and to secure communication protected by the laws of quantum mechanics. The development of quantum networks for scaling both communication and computation systems.
Artificial-Intelligence-Driven Shot Reduction in Quantum Measurement
Arxiv.org
May 3, 2024
Senwei Liang, Linghua Zhu, Xiaolin Liu, Chao Yang, Xiaosong Li
Quantum copy-protection of compute-and-compare programs in the quantum random oracle model
Quantum
May 2, 2024
Andrea Coladangelo, Christian Majenz, and Alexander Poremba
The quantum cartpole: A benchmark environment for non-linear reinforcement learning
SciPost
May 7, 2024
Kai Meinerz, Simon Trebst, Mark Rudner, Evert van Nieuwenburg
Research of materials to enable quantum technologies and the study and synthesis of materials whose properties emerge from quantum interactions.
Ferromagnetism and Topology of the Higher Flat Band in a Fractional Chern Insulator
Arxiv.org
June 13, 2024
B. Andrei Bernevig, Liang Fu, Ting Cao, Di Xiao, Xiaodong Xu
Near-visible topological edge states in a silicon nitride platform
Optical Materials Express
June 1, 2024
Arnab Manna, Hannah Rarick, Rui Chen, Mohammad Hafezi, and Arka Majumdar
Using controlled quantum systems to simulate quantum field theories and quantum many-body systems. This broad area ranges from simulation of fundamental physics to materials properties.
Quantum simulations of hadron dynamics in the Schwinger model using 112 qubits
Physical Review D
June 10, 2024
Roland C. Farrell, Marc Illa, Anthony N. Ciavarella, and Martin J. Savage
Scalable Circuits for Preparing Ground States on Digital Quantum Computers: The Schwinger Model Vacuum on 100 Qubits
PRX Quantum
April 18, 2024
Roland C. Farrell, Marc Illa, Anthony N. Ciavarella, and Martin J. Savage
Using quantum coherence and entanglement to achieve new limits in sensing.