2026 David P. DiVincenzo: Physics Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Physics	83	2721	2591	247	236	308	63464

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Physics

2721

2591

247

236

308

63464

Research.com Recognitions

1999 - Fellow of American Physical Society (APS) Citation For contributions to the theory of quasicrystals, and to the theory of quantum information

Overview

David P. DiVincenzo is affiliated with RWTH Aachen University in Germany. Their research spans multiple core fields including Physics and Astronomy as well as Computer Science. Within these domains, DiVincenzo has contributed extensively to subfields such as Atomic and Molecular Physics, and Optics; Artificial Intelligence; Condensed Matter Physics; Statistical and Nonlinear Physics; and Electrical and Electronic Engineering.

The scientist's main topics of work highlight a focus on aspects of quantum science and technology. Key areas include Quantum Information and Cryptography, Quantum and Electron Transport Phenomena, Quantum Computing Algorithms and Architecture, Physics of Superconductivity and Magnetism, Quantum Many-Body Systems, Cold Atom Physics and Bose-Einstein Condensates, and Quantum Mechanics and Applications.

DiVincenzo has published research regularly in prominent scientific venues. Frequent publication sites include arXiv (Cornell University) with 14 papers, Quantum Science and Technology with 4, Physical Review X with 3, Nature Physics with 2, and Physical Review A with 2 contributions.

Evangelos Varvelis (7 papers)
Christoph Berke (5 papers)
Simon Trebst (5 papers)
Alexander Altland (5 papers)
Martin Rymarz (5 papers)

Recent notable papers authored or coauthored by DiVincenzo include:

"Transmon platform for quantum computing challenged by chaotic fluctuations," 2022, Nature Communications
"Observation of Josephson harmonics in tunnel junctions," 2024, Nature Physics
"Circuit quantization with time-dependent magnetic fields for realistic geometries," 2022, npj Quantum Information
"Exact rotating wave approximation," 2020, Annals of Physics
"Hardware-Encoding Grid States in a Nonreciprocal Superconducting Circuit," 2021, Physical Review X

Recognition for their contributions includes being named a Fellow of the American Physical Society in 1999 for work related to the theory of quasicrystals and the theory of quantum information.

Best Publications

Quantum computation with quantum dots

Daniel Loss;Daniel Loss;David P. DiVincenzo;David P. DiVincenzo

9195
Citations
Mixed State Entanglement and Quantum Error Correction

Charles H. Bennett;Charles H. Bennett;Charles H. Bennett;David P. DiVincenzo;David P. DiVincenzo;David P. DiVincenzo;John A. Smolin;John A. Smolin;John A. Smolin;William K. Wootters;William K. Wootters;William K. Wootters

7735
Citations
Elementary gates for quantum computation.

Adriano Barenco;Charles H. Bennett;Richard Cleve;David P. DiVincenzo

5655
Citations
The Physical Implementation of Quantum Computation

David P. DiVincenzo

3539
Citations
Quantum information and computation

Charles H. Bennett;David P. DiVincenzo

3342
Citations
Quantum information processing using quantum dot spins and cavity QED

Atac Imamoglu;David D. Awschalom;Guido Burkard;David P. DiVincenzo

2671
Citations
Coupled quantum dots as quantum gates

Guido Burkard;Daniel Loss;David P. DiVincenzo

1930
Citations
Two-bit gates are universal for quantum computation

David P. DiVincenzo

1582
Citations
Quantum nonlocality without entanglement

Charles H. Bennett;David P. DiVincenzo;Christopher A. Fuchs;Tal Mor

1426
Citations
Universal quantum computation with the exchange interaction.

D. P. DiVincenzo;D. Bacon;J. Kempe;J. Kempe;G. Burkard

1214
Citations
Electron-spin-resonance transistors for quantum computing in silicon-germanium heterostructures

Rutger Vrijen;Eli Yablonovitch;Kang Wang;Hong Wen Jiang

1182
Citations
Remote State Preparation

Charles H. Bennett;David P. DiVincenzo;Peter W. Shor;John A. Smolin

1029
Citations
Self-consistent effective-mass theory for intralayer screening in graphite intercalation compounds

D. P. DiVincenzo;E. J. Mele

932
Citations
Unextendible product bases and bound entanglement

Charles H. Bennett;David P. DiVincenzo;Tal Mor;Tal Mor;Peter W. Shor

896
Citations
Optimal universal and state-dependent quantum cloning

Dagmar Bruß;David P. DiVincenzo;Artur Ekert;Christopher A. Fuchs

751
Citations
Fault-Tolerant Error Correction with Efficient Quantum Codes.

David P. DiVincenzo;Peter W. Shor

535
Citations
Suppression of tunneling by interference in half-integer-spin particles.

Daniel Loss;David P. DiVincenzo;G. Grinstein

428
Citations
Unextendible Product Bases, Uncompletable Product Bases and Bound Entanglement

David P. DiVincenzo;Tal Mor;Peter W. Shor;John A. Smolin

426
Citations
Quantum data hiding

D.P. DiVincenzo;D.W. Leung;B.M. Terhal

412
Citations
Quantum Information and Computation

Richard Jozsa;Noah Linden;Sandu Popescu

2
Citations