2026 J. E. Pringle: Physics Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Physics	80	3022	2870	261	252	209	22647

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Physics

3022

2870

261

252

209

22647

Overview

J. E. Pringle is affiliated with the University of Cambridge in the United Kingdom and has contributed extensively to the field of Physics and Astronomy. Their research spans multiple subfields, primarily focusing on Astronomy and Astrophysics, with additional work in Geophysics, Instrumentation, and Biomedical Engineering.

The scientist's main areas of study include Astrophysical Phenomena and Observations, Astrophysics and Star Formation Studies, and Stellar, Planetary, and Galactic Studies. Their work also covers topics such as Astro and Planetary Science, Gamma-ray Bursts and Supernovae, High-pressure Geophysics and Materials, and broader Astronomy and Astrophysical Research.

J. E. Pringle has published in journals and platforms notable in astronomy and astrophysics, including:

arXiv (Cornell University)
Springer Link (Chiba Institute of Technology)
The Astrophysical Journal Letters
Astronomy and Astrophysics
Monthly Notices of the Royal Astronomical Society

Recent papers by J. E. Pringle feature a range of topics in astrophysics and related fields:

"Extreme variability in an active galactic nucleus: Gaia16aax," 2020, Monthly Notices of the Royal Astronomical Society
"Emission from elliptical streams of dusty debris around white dwarfs," 2020, arXiv (Cornell University)
"A molecular wind blows out of the Kuiper belt," 2021, Springer Link (Chiba Institute of Technology)
"Be Star Disks: Powered by a Nonzero Central Torque," 2020, The Astrophysical Journal Letters
"Potential effects of stellar winds on gas dynamics in debris disks leading to observable belt winds," 2022, Astronomy and Astrophysics

The scientist frequently collaborates with other researchers, including C. J. Nixon, Gabriella Zsidi, T. Naylor, Quentin Kral, and Luca Matrà. Among these, C. J. Nixon is the most frequent co-author with 11 joint publications.

Best Publications

Competitive accretion in embedded stellar clusters

I. A. Bonnell;M. R. Bate;C. J. Clarke;J. E. Pringle

855
Citations
Photoevaporation of protoplanetary discs - II. Evolutionary models and observable properties

R. D. Alexander;R. D. Alexander;C. J. Clarke;J. E. Pringle

781
Citations
Tidal capture formation of binary systems and X-ray sources in globular clusters.

A. C. Fabian;J. E. Pringle;M. J. Rees

707
Citations
Memorie della Società Astronomica Italiana

G. Lodato;Ken Rice;J. E. Pringle;P. J. Armitage

677
Citations
Accretion disc viscosity: how big is alpha?

A. R. King;J. E. Pringle;J. E. Pringle;J. E. Pringle;M. Livio

542
Citations
Accretion and the stellar mass spectrum in small clusters

I. A. Bonnell;M. R. Bate;C. J. Clarke;J. E. Pringle

472
Citations
Non-radial oscillations of rotating stars and their relevance to the short-period oscillations of cataclysmic variables

J. Papaloizou;J. E. Pringle

444
Citations
Hydrodynamical non-radiative accretion flows in two dimensions

James McLellan Stone;James E. Pringle;Mitchell C. Begelman;Mitchell C. Begelman;Mitchell C. Begelman

435
Citations
Photoevaporation of protoplanetary discs – I. Hydrodynamic models

R. D. Alexander;R. D. Alexander;C. J. Clarke;J. E. Pringle

424
Citations
Magnetic field dragging in accretion discs

S. H. Lubow;S. H. Lubow;J. C. B. Papaloizou;J. E. Pringle;J. E. Pringle

415
Citations
Stellar disruption by a supermassive black hole: is the light curve really proportional to $t^{-5/3}$?

G. Lodato;A. R. King;J. E. Pringle;J. E. Pringle

395
Citations
The nature of SS433 and the ultraluminous X-ray sources

M. C. Begelman;M. C. Begelman;Andrew R. King;J. E. Pringle;J. E. Pringle

356
Citations
Chaotic star formation and the alignment of stellar rotation with disc and planetary orbital axes

M. R. Bate;G. Lodato;G. Lodato;J. E. Pringle;J. E. Pringle

353
Citations
Accretion in stellar clusters and the initial mass function

I. A. Bonnell;C. J. Clarke;M. R. Bate;J. E. Pringle

349
Citations
Episodic accretion in magnetically layered protoplanetary discs

Philip J. Armitage;Mario Livio;J. E. Pringle;J. E. Pringle

348
Citations
Growing supermassive black holes by chaotic accretion

Andrew R. King;J.E. Pringle;J.E. Pringle

324
Citations
Aligning spinning black holes and accretion discs

Andrew R. King;S. H. Lubow;S. H. Lubow;G. I. Ogilvie;J. E. Pringle;J. E. Pringle;J. E. Pringle

314
Citations
Accretion in stellar clusters and the IMF

I. A. Bonnell;C. J. Clarke;M. R. Bate;J. E. Pringle

311
Citations
Warped accretion discs and the long periods in X-ray binaries

Ralph A. M. J. Wijers;Ralph A. M. J. Wijers;J. E. Pringle

290
Citations
The dynamical stability of differentially rotating discs – II

J. C. B. Papaloizou;J. E. Pringle

278
Citations