Hybrid quantum-classical computing

Simulating 2D lattice gauge theories on a qudit quantum computer

Authors: Michael Meth, Jan F. Haase, Jinglei Zhang, Claire Edmunds, Lukas Postler, Alex Steiner, Andrew J. Jena, Luca Dellantonio, Rainer Blatt, Peter Zoller, Thomas Monz, Philipp Schindler, Christine Muschik, Martin Ringbauer

Open Access: arXiv:2310.12110

Hybrid quantum-classical computing

Hybrid variational quantum eigensolvers: merging computational models

Authors: Albie Chan, Zheng Shi, Luca Dellantonio, Wolfgang Dür, Christine A. Muschik

Open Access: arXiv:2305.19200

Hybrid quantum-classical computing

Simulating gauge theories with variational quantum eigensolvers in superconducting microwave cavities

Authors: Jinglei Zhang, Ryan Ferguson, Stefan Kühn, Jan F. Haase, C.M. Wilson, Karl Jansen, Christine A. Muschik

Journal: Quantum 7, 1148 (2023)

Open Access: arXiv:2108.08248

Hybrid quantum-classical computing

Towards simulating 2D effects in lattice gauge theories on a quantum computer

Authors: D. Paulson, L. Dellantonio, J. Haase, A. Celi, A. Kan, A. Jena, C. Kokail, R. van Bijnen, K. Jansen, P. Zoller, and C. Muschik
Journal: PRX Quantum 2, 030334 (2021).
Open Access: arXiv:2008.09252

Hybrid quantum-classical computing

Self-verifying variational quantum simulation of the lattice Schwinger model

Authors: C. Kokail, C. Maier, R. van Bijnen, T. Brydges, M. Joshi, P. Jurcevic, C. Muschik, P. Silvi, R. Blatt, C. Roos, and P. Zoller
Journal: Nature 569, 355 (2019).
Open Access: arXiv:1810.03421
Press release: Scaling up quantum simulations