Laser Physics, 7.5 credits
Contents
The aim of the course is to give a description of the basic principles of lasers and laser action. Examples of phenomena that will be considered are: interactions of atoms and molecules with light, various types of broadening mechanisms (Doppler, collision lifetime, etc.), optical saturation, population inversion, optical pumping, cavities and resonators, mode beating, frequency pulling and hole burning. The course will treat the most common types of laser in more detail: He-Ne lasers, diode lasers, pulsed systems, as well as lasers for material processing. Various application areas will be exemplified at the end of the course.
Required Knowledge
Quantum Mechanics 1, or equivalent. Proficiency in English equivalent to Swedish upper secondary course English A (IELTS (Academic) with a minimum overall score of 5.5 and no individual score below 5.0. TOEFL PBT (Paper-based Test) with a minimum total score of 530 and a minimum TWE score of 4. TOEFL iBT (Internet-based Test) with a minimum total score of 72 and a minimum score of 17 on the Writing Section). Where the language of instruction is Swedish, applicants must prove proficiency in Swedish to the level required for basic eligibility for higher studies.
Literature
Laser physics
Milonni Peter W., Eberly Joseph H.
Hoboken, N.J. :
John Wiley & Sons :
c2010 :
xiv, 830 p. :
ISBN: 978-0-470-38771-9 (cloth)
Search the University Library catalogue
Lasers
Milonni Peter W., Eberly Joseph H.
New York :
Wiley :
cop. 1988 :
xvi, 731 s. :
ISBN: 0-471-62731-3
Search the University Library catalogue
Lasers
Milonni Peter W., Eberly Joseph H.
New York :
Wiley :
cop. 1988 :
xvi, 731 s. :
ISBN: 0-471-62731-3
Search the University Library catalogue