2026 Seigo Tarucha: Physics Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Physics	78	3129	2972	104	101	717	37048

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Physics

3129

2972

104

101

717

37048

Overview

Seigo Tarucha is affiliated with the University of Tokyo in Japan and has conducted extensive research primarily in the fields of Physics and Astronomy as well as Engineering. Their work encompasses a wide range of subfields including Atomic and Molecular Physics, and Optics, Electrical and Electronic Engineering, Artificial Intelligence, Condensed Matter Physics, and Materials Chemistry.

The scientist's research topics cover a breadth of subjects within physics and engineering, focusing on:

Quantum and electron transport phenomena
Advancements in Semiconductor Devices and Circuit Design
Semiconductor materials and devices
Quantum Computing Algorithms and Architecture
Physics of Superconductivity and Magnetism
Quantum Information and Cryptography
Topological Materials and Phenomena

Seigo Tarucha has published numerous papers in reputable venues, with a strong presence in arXiv (Cornell University) and Zenodo (CERN European Organization for Nuclear Research). Other frequent publication venues include Physical Review Letters, Physical Review B, and Nature Communications.

Recent notable papers authored by or involving Tarucha include:

Fast universal quantum gate above the fault-tolerance threshold in silicon, 2022, Nature
Quantum error correction with silicon spin qubits, 2022, Nature
Observation of the Kondo screening cloud, 2020, Nature
Radio-Frequency-Detected Fast Charge Sensing in Undoped Silicon Quantum Dots, 2020, Nano Letters
Topological Kagome Magnet Co₃Sn₂S₂ Thin Flakes with High Electron Mobility and Large Anomalous Hall Effect, 2020, Nano Letters

Throughout their career, Tarucha has collaborated frequently with a number of researchers, among whom are Akito Noiri, Kenta Takeda, Takashi Nakajima, Takashi Kobayashi, and Giordano Scappucci. These collaborations have contributed to the breadth and depth of their research output.

Best Publications

Spins in few-electron quantum dots

R. Hanson;L. P. Kouwenhoven;J. R. Petta;S. Tarucha

3303
Citations
Electron transport through double quantum dots

W. G. van der Wiel;W. G. van der Wiel;S. De Franceschi;J. M. Elzerman;T. Fujisawa

2255
Citations
Shell Filling and Spin Effects in a Few Electron Quantum Dot.

S. Tarucha;D.G. Austing;T. Honda;R.J. van der Hage

1884
Citations
Few-electron quantum dots

L P Kouwenhoven;D G Austing;S Tarucha;S Tarucha

1560
Citations
Electron Transport in Quantum Dots

Leo P. Kouwenhoven;Charles M. Marcus;Paul L. McEuen;Seigo Tarucha

1010
Citations
The kondo effect in the unitary limit

W. G. van der Wiel;S. De Franceschi;T. Fujisawa;J. M. Elzerman

1008
Citations
Current Rectification by Pauli Exclusion in a Weakly Coupled Double Quantum Dot System

K. Ono;D. G. Austing;D. G. Austing;Y. Tokura;S. Tarucha;S. Tarucha

995
Citations
A quantum-dot spin qubit with coherence limited by charge noise and fidelity higher than 99.9.

Jun Yoneda;Kenta Takeda;Tomohiro Otsuka;Tomohiro Otsuka;Takashi Nakajima

952
Citations
Microwave spectroscopy of a quantum-dot molecule

T. H. Oosterkamp;T. Fujisawa;T. Fujisawa;W. G. van der Wiel;K. Ishibashi

768
Citations
Electrically driven single-electron spin resonance in a slanting Zeeman field

M. Pioro-Ladrière;T. Obata;Y. Tokura;Y.-S. Shin

714
Citations
Kondo effect in an integer-spin quantum dot

S. Sasaki;S. De Franceschi;J. M. Elzerman;W. G. van der Wiel

625
Citations
Excitation Spectra of Circular, Few-Electron Quantum Dots

L. P. Kouwenhoven;T. H. Oosterkamp;M. W. S. Danoesastro;M. Eto;M. Eto;M. Eto

615
Citations
Few-electron quantum dot circuit with integrated charge read out

J.M. Elzerman;R. Hanson;J.S. Greidanus;L.H. Willems van Beveren

589
Citations
A >99.9%-fidelity quantum-dot spin qubit with coherence limited by charge noise

J. Yoneda;K. Takeda;T. Otsuka;T. Nakajima

589
Citations
Trilayer graphene is a semimetal with a gate-tunable band overlap.

M. F. Craciun;S. Russo;S. Russo;M. Yamamoto;Jeroen Bart Oostinga;Jeroen Bart Oostinga

575
Citations
Spontaneous Emission Spectrum in Double Quantum Dot Devices

Toshimasa Fujisawa;Tjerk H. Oosterkamp;Wilfred G. van der Wiel;Benno W. Broer

547
Citations
Allowed and forbidden transitions in artificial hydrogen and helium atoms

Toshimasa Fujisawa;David Guy Austing;David Guy Austing;Yasuhiro Tokura;Yoshiro Hirayama

477
Citations
Generation and detection of pure valley current by electrically induced Berry curvature in bilayer graphene

Y. Shimazaki;M. Yamamoto;M. Yamamoto;I. V. Borzenets;K. Watanabe

425
Citations
4π-periodic Josephson supercurrent in HgTe-based topological Josephson junctions.

J. Wiedenmann;E. Bocquillon;R. S. Deacon;S. Hartinger

416
Citations
Microwave spectroscopy on a quantum-dot molecule

T. H. Oosterkamp;T. Fujisawa;W. G. van der Wiel;K. Ishibashi

2
Citations