Mark Robbins: h-index, Total Citations, and Citation Map
Mark Robbins's h-index is 80 (176 i10-index, 22,914+ total citations across 405+ publications) according to Google Scholar as of June 2026. Mark Robbins is affiliated with Professor of Physics and Astronomy, Johns Hopkins University.
Mark Robbins is a researcher affiliated with Professor of Physics and Astronomy, Johns Hopkins University, specializing in Condensed Matter Theory, Nonequilibrium systems. Their work has been cited 22,914 times. This profile visualizes their global influence, spanning a global audience.
Mark Robbins's Citation Metrics
Bibliometric impact based on 405 indexed publications. Of these, 3 are original research articles — the rest are literature highlights, conference abstracts or theses.
- H-Index
- 80
- i10-Index
- 176
- Total Citations
- 22,914
- Citing Countries
- 0
As of June 2026.
Mark Robbins has an h-index of 80 and 22,914 total citations across 405 publications, with research cited by institutions in 0 countries.
Download Exports (PNG, CSV, Poster)
Free Viewing Mark Robbins's citation map is always free. Pay once to download poster, PNG, and CSV files for offline use or your visa packet.
We've mapped 5,000 of 22,914 citations for Mark Robbins
We've shown the most-cited 5,000. Unlock the full crawl (22,864 more citations) to see every institution citing this scholar.
Global Impact Map
Visualizing the geographic distribution of institutions that have cited your work.
Starting…
Pins will appear here as institutions are resolved — no need to refresh.
Shear flow near solids: Epitaxial order and flow boundary conditions
19901,075
Top Citing Countries
Top Citing Institutions
No institution data available.
Citation trend (last 10 years)Click to expand
Citation Trend (Last 10 Years)
Related Guides
Learn how to use citation maps for your research and visa applications.
About Mark Robbins's research
Mark Robbins is a researcher in Condensed Matter Theory and Nonequilibrium systems at Professor of Physics and Astronomy, Johns Hopkins University. Their work has been cited 22,914 times across 405 publications (h-index 80), according to Google Scholar.
Their most-cited work, “Shear flow near solids: Epitaxial order and flow boundary conditions” (1990), has accumulated 1,075 citations. Other influential works include “The breakdown of continuum models for mechanical contacts” (2005) with 849 citations and “Phase diagram and dynamics of Yukawa systems” (1988) with 801 citations.
