Semester: Sommersemester 2017

5.04.4663 Physics with Ultrashort Pulses and Intense Light


Veranstaltungstermin

  • Freitag: 10:00 - 13:30, wöchentlich

Beschreibung

Additionally to the lecture lab work will be arranged.

The students acquire broad experimental knowledge of the application of intense light from femtosecond and high power laser systems. They should be acquainted with the interaction of intense light with matter in general and with respect to important scientific and technical applications (in industry) such as laser material processing, high field physics (i.e. laser matter interaction at high intensity), laser generated particle and radiation sources of ultrashort duration and/or ultrashort wavelength etc.

Content:
Femtosecond and high power laser systems and its application, absorption of intense laser light, basics of laser matter interaction at high intensity, diagnostics, applications in micro machining, laser generated ultrashort radiation such as high-order laser harmonics and femtosecond K-alpha-sources and keV and MeV electron and ion sources and their application to micro fabrication micro and nano analysis.; atto physics, strong field physics

DozentIn

Studienmodule

  • phy653 Engineering Sciences I
  • phy654 Engineering Sciences II
  • phy655 Engineering Sciences III
  • phy662 Specialization III
  • phy663 Specialization I
  • phy664 Specialization II
  • phy665 Specialization IV

Studienbereiche

  • Studium generale / Gasthörstudium

Für Gasthörende / Studium generale geöffnet:
Ja

Hinweise zum Inhalt der Veranstaltung für Gasthörende
The students acquire broad experimental knowledge of the application of intense light from femtosecond and high power laser systems. They should be acquainted with the interaction of intense light with matter in general and with respect to important scientific and technical applications (in industry) such as laser material processing, high field physics (i.e. laser matter interaction at high intensity), laser generated particle and radiation sources of ultrashort duration and/or ultrashort wavelength etc. Content: Femtosecond and high power laser systems and its application, absorption of intense laser light, basics of laser matter interaction at high intensity, diagnostics, applications in micro machining, laser generated ultrashort radiation such as high-order laser harmonics and femtosecond K-alpha-sources and keV and MeV electron and ion sources and their application to micro fabrication micro and nano analysis.; atto physics, strong field physics.

Lehrsprache
englisch

empfohlenes Fachsemester
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