Paul Corkum Google Scholar May 2026

Scroll down his list of publications, and a pattern emerges. Papers from the early 1990s sit alongside those from 2023, all generating hundreds of citations per year. His seminal 1993 Physical Review Letters on the "Plasma perspective on strong field multiphoton ionization" remains a bedrock. But look closer: his 2020s papers on high-harmonic generation and molecular orbital tomography are already climbing the ranks.

The Citation Titan: How Paul Corkum’s Google Scholar Profile Maps the Frontier of Attosecond Physics paul corkum google scholar

If you measure a scientist by the cold, hard numbers of Google Scholar, Paul Corkum is an outlier. But as any physicist will tell you, Corkum’s numbers aren’t just big—they are a timestamp of a revolution. Scroll down his list of publications, and a pattern emerges

Perhaps the most human element hidden in the algorithm is his co-authorship network. His profile links him to the National Research Council of Canada and the University of Ottawa, but the co-authors tell the story of a global field. From Ferenc Krausz (Nobel laureate, 2023) to Anne L’Huillier (Nobel laureate, 2023), Corkum’s Google Scholar page reads like a who’s-who of light-matter interaction. It is a visual map of how a Canadian physicist helped build the European-led attophysics community. But look closer: his 2020s papers on high-harmonic

For all the metrics, a Google Scholar profile cannot capture the moment in 1993 when Corkum proposed the "recollision model" on a napkin (or a blackboard). The profile lists the output—the Nature papers, the PRLs , the Reviews of Modern Physics —but it cannot quantify the elegance of a single idea: that you can use a laser to pull an electron away from an atom, slam it back, and use the resulting flash to take the fastest movie ever made.