Weitere Ausgaben von The Physics of Laser Radiation¿Matter Interaction
Klappentext
This textbook explains the fundamental processes involved in the interaction of electromagnetic radiation with matter. It leads students from a general discussion of electrodynamics, forming the mathematical foundation for the Maxwell equations, to key results such as the Fresnel equations, Snell s law, and the Brewster angle, deriving along the way the equations for accelerated charges and discussing dipole radiation, Bremsstrahlung and synchrotron radiation. By considering more and more interacting particles, the book advances its treatment of the subject, approaching the solid-state regime using both classical and quantum mechanical approaches to describe interaction paths with electromagnetic radiation. Finally, specific interactions of laser radiation with matter are explained such as ultrafast, coherent, and selective interaction. With an emphasis on achieving an intuitive grasp of the basic physics underlying common laser technology, this textbook is ideal for graduate students seeking both a better fundamental and applied understanding of laser matter interaction.
Biografie
Alexander Horn has been Senior Scientist at the chair for Laser Technology (LLT) of the RWTH Aachen since 2003, and Group Leader of the Ultrafast-Technology group since 2004. He studied Physics in Siegen, Germany, and graduated in 2003 to Dr. rer. nat. with "suma cum laude". In March 2008 he starts a new position as a representative professor at the Institute for Physics of the University of Kassel (Germany). His main field of research is the ultra-fast detection of laser-induced processes, especially the development & usage of novel pump & probe techniques. He has authored over 40 scientific publications.
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