Unifying Physics of Accelerators, Lasers and Plasma 2nd Edition

Unifying Physics of Accelerators, Lasers and Plasma, 2nd Edition by Andrei Seryi and Elena Seraia

Discover a definitive, modern treatment of the interconnected worlds of accelerator physics, laser-driven beams, and plasma science. This meticulously updated second edition brings clarity to complex concepts—bridging theory and practice for students, researchers, and engineers working in particle accelerators, laser-plasma interaction, and advanced accelerator technologies.

Start with a clear, compelling overview of beam dynamics, wakefields, and collective effects, then follow through to cutting-edge topics such as laser-driven acceleration, plasma wakefield techniques, and advanced diagnostics. The authors blend rigorous derivations with intuitive explanations and practical examples, making sophisticated material accessible without sacrificing depth. Updated discussions reflect recent experimental breakthroughs and simulation methods, ensuring relevance for contemporary research and development.

Whether you’re preparing for graduate coursework, designing experiments at a national lab, or developing next-generation compact accelerators, this book equips you with the physical intuition and mathematical tools needed to succeed. Emphasizing cross-disciplinary connections, it’s an essential reference for universities and research centers across North America, Europe, and Asia, including academic programs and facilities at major labs such as CERN, SLAC, and DESY.

Readable, authoritative, and globally oriented, this edition stands out as both a textbook and a professional reference. Its balanced presentation makes it ideal for classroom adoption, individual study, or as a desk reference for project teams in industry and academia.

Invest in a resource that unifies accelerator physics, laser science, and plasma theory—order your copy of Unifying Physics of Accelerators, Lasers and Plasma, 2nd Edition today and advance your understanding at the frontier of applied physics.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.