Ion acceleration and extreme light field generation based on ultra-short and ultra–intense lasers

Nonfiction, Science & Nature, Science, Physics, Nuclear Physics, Biological Sciences, Molecular Physics
Cover of the book Ion acceleration and extreme light field generation based on ultra-short and ultra–intense lasers by Liangliang Ji, Springer Berlin Heidelberg
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Author: Liangliang Ji ISBN: 9783642540073
Publisher: Springer Berlin Heidelberg Publication: January 23, 2014
Imprint: Springer Language: English
Author: Liangliang Ji
ISBN: 9783642540073
Publisher: Springer Berlin Heidelberg
Publication: January 23, 2014
Imprint: Springer
Language: English

This book is dedicated to the relativistic (laser intensity above 1018 W/cm2) laser-plasma interactions, which mainly concerns two important aspects: ion acceleration and extreme-light-field (ELF). Based on the ultra-intense and ultra–short CP lasers, this book proposes a new method that significantly improves the efficiency of heavy-ion acceleration, and deals with the critical thickness issues of light pressure acceleration. More importantly, a series of plasma approaches for producing ELFs, such as the relativistic single-cycle laser pulse, the intense broad-spectrum chirped laser pulse and the ultra-intense isolated attosecond (10-18s) pulse are introduced. This book illustrates that plasma not only affords a tremendous accelerating gradient for ion acceleration but also serves as a novel medium for ELF generation, and hence has the potential of plasma-based optics, which have a great advantage on the light intensity due to the absence of device damage threshold.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

This book is dedicated to the relativistic (laser intensity above 1018 W/cm2) laser-plasma interactions, which mainly concerns two important aspects: ion acceleration and extreme-light-field (ELF). Based on the ultra-intense and ultra–short CP lasers, this book proposes a new method that significantly improves the efficiency of heavy-ion acceleration, and deals with the critical thickness issues of light pressure acceleration. More importantly, a series of plasma approaches for producing ELFs, such as the relativistic single-cycle laser pulse, the intense broad-spectrum chirped laser pulse and the ultra-intense isolated attosecond (10-18s) pulse are introduced. This book illustrates that plasma not only affords a tremendous accelerating gradient for ion acceleration but also serves as a novel medium for ELF generation, and hence has the potential of plasma-based optics, which have a great advantage on the light intensity due to the absence of device damage threshold.

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