2026 Guifre Vidal: Physics Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Physics	75	3358	3193	1589	1480	188	43501

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Physics

3358

3193

1589

1480

188

43501

Overview

Guifre Vidal is a researcher affiliated with Google in the United States. Their work spans multiple fields, primarily focusing on Physics and Astronomy as well as Computer Science. Within these broad areas, their subfields of study include Atomic and Molecular Physics and Optics, Artificial Intelligence, Condensed Matter Physics, Nuclear and High Energy Physics, and Hardware and Architecture.

The main topics of their research cover diverse aspects of quantum science and computing. These topics include Quantum many-body systems, Quantum Computing Algorithms and Architecture, Physics of Superconductivity and Magnetism, Quantum and electron transport phenomena, Quantum Information and Cryptography, Parallel Computing and Optimization Techniques, and Algebraic structures and combinatorial models.

Guifre Vidal has contributed to multiple research publications, frequently publishing in venues such as arXiv (Cornell University), Physical Review B, PRX Quantum, SciPost Physics Core, and Physical Review Applied. Notable recent papers authored or co-authored by Vidal include:

Density Matrix Renormalization Group with Tensor Processing Units, 2023, PRX Quantum
Dynamics of Transmon Ionization, 2022, Physical Review Applied
Simulation of Quantum Many-Body Dynamics with Tensor Processing Units: Floquet Prethermalization, 2022, PRX Quantum
Large Scale Quantum Chemistry with Tensor Processing Units, 2022, Journal of Chemical Theory and Computation
Conformal Fields and Operator Product Expansion in Critical Quantum Spin Chains, 2020, Physical Review Letters

The researcher collaborates frequently with a number of colleagues, including Jackson Beall, Martin Ganahl, Markus Hauru, Adam G. M. Lewis, and Yijian Zou. These collaborations reflect a consistent effort across various topics within their core research areas.

Guifre Vidal's publication record illustrates a strong presence in studies related to quantum many-body systems and applications of tensor processing units in quantum simulations. Their research intersects experimental and theoretical approaches, contributing to developments in quantum information science and computational methods.

Best Publications

Computable measure of entanglement

G. Vidal;R. F. Werner

5490
Citations
Three qubits can be entangled in two inequivalent ways

W. Dür;G. Vidal;J. I. Cirac

4178
Citations
Entanglement in quantum critical phenomena.

G. Vidal;José Ignacio Latorre;E. Rico;A. Kitaev

3107
Citations
Efficient classical simulation of slightly entangled quantum computations.

Guifré Vidal

2686
Citations
Efficient simulation of one-dimensional quantum many-body systems.

Guifré Vidal

2005
Citations
Entanglement renormalization

Guifre Vidal

1261
Citations
Time-dependent density-matrix renormalization-group using adaptive effective Hilbert spaces

A J Daley;C Kollath;U Schollwöck;G Vidal

1147
Citations
Class of quantum many-body states that can be efficiently simulated.

G. Vidal

994
Citations
Classical simulation of infinite-size quantum lattice systems in two spatial dimensions.

J Jordan;R Orus;G Vidal;Frank Verstraete

993
Citations
Time-dependent density-matrix renormalization-group using adaptive effective Hilbert spaces

A. J. Daley;C. Kollath;U. Schollwoeck;G. Vidal

830
Citations
Mixed-state dynamics in one-dimensional quantum lattice systems: A time-dependent superoperator renormalization algorithm

Michael Zwolak;Guifré Vidal

721
Citations
Robustness of entanglement

Guifré Vidal;Rolf Tarrach

715
Citations
Ground state entanglement in quantum spin chains

J. I. Latorre;E. Rico;G. Vidal

635
Citations
On the characterization of entanglement

Guifre Vidal

604
Citations
Classical simulation of quantum many-body systems with a tree tensor network

Y.-Y. Shi;L.-M. Duan;G. Vidal

583
Citations
Entanglement of pure states for a single copy

Guifré Vidal

556
Citations
Infinite time-evolving block decimation algorithm beyond unitary evolution

Roman Orus;Guifre Vidal

514
Citations
Tensor Network Renormalization

Glen Evenbly;Guifre Vidal

401
Citations
Simulation of two-dimensional quantum systems on an infinite lattice revisited: Corner transfer matrix for tensor contraction

Román Orús;Guifré Vidal

392
Citations
Role of entanglement and correlations in mixed-state quantum computation

Animesh Datta;Guifre Vidal

342
Citations