Paul Corkum Google Scholar

One of Corkum's most significant contributions to the field of laser-matter interactions is his work on high-harmonic generation (HHG). In the 1990s, Corkum, along with other researchers, discovered that when a strong laser pulse interacts with a gas, it can generate high-harmonic radiation. This phenomenon occurs when the laser field ionizes the gas, creating a burst of electrons that then recombine with their parent ions, emitting high-energy photons in the process.

Based on his profile, the following works represent his most significant contributions to the field: paul corkum google scholar

The Citation Titan: How Paul Corkum’s Google Scholar Profile Maps the Frontier of Attosecond Physics One of Corkum's most significant contributions to the

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. Based on his profile, the following works represent

When you search for Paul Corkum on Google Scholar, you will find a profile that reflects decades of high-impact research. Key features of his profile include:

Paul Corkum is a pioneering physicist who has made significant contributions to the field of laser-matter interactions. His work on high-harmonic generation and attosecond science has had a profound impact on our understanding of the behavior of atoms and molecules under intense laser fields. A review of his Google Scholar profile reveals an impressive publication record and a high level of citation impact. Corkum's research has been widely recognized, and he has received numerous awards for his contributions to the field. As research in laser-matter interactions continues to evolve, it is clear that Corkum's work will remain a foundational part of the field for years to come.

This evolution tells a story: