Paul Corkum Google Scholar

Following these co-authors from Corkum’s page allows you to map the entire social network of ultrafast science.

Corkum’s work has been cited tens of thousands of times, placing him among the most influential physicists in history. paul corkum google scholar

Paul Corkum’s Google Scholar profile reflects the career of a foundational figure in and strong-field physics . His metrics indicate an exceptionally high level of academic influence, with total citations exceeding 76,700 as of early 2026. Key Bibliometric Indices Total Citations: ~76,752. Following these co-authors from Corkum’s page allows you

and the National Research Council of Canada, widely considered the "father of attosecond science". His Google Scholar profile reflects a career defined by transformative theories and experiments that have allowed humanity to observe the fastest controlled events in nature: the movement of electrons within atoms and molecules. The Three-Step Recollision Model The cornerstone of Corkum's scholarly impact is the three-step recollision model , introduced in his landmark 1993 paper, "Plasma perspective on strong field multiphoton ionization" His metrics indicate an exceptionally high level of

Paul Corkum is a renowned physicist who has made significant contributions to the field of laser-matter interactions. His work has had a profound impact on our understanding of the behavior of atoms and molecules under intense laser fields. As a leading researcher in this area, Corkum has published numerous papers that have been widely cited and have helped shape the field. In this article, we will explore Corkum's research and contributions, and examine his work through the lens of his Google Scholar profile.

: The electron "re-collides" with the ion, releasing its accumulated kinetic energy as a burst of extreme ultraviolet light.

How does Paul Corkum stack up against his peers using Google Scholar data?