Faculty of Mathematics and Natural Sciences Department of Physics auf deutsch


Veranstaltungen mit geplanten Räumen finden i.a. in Präsenz statt.
Digitale Angebote sind optional.

winter sem. 2021
Last update: 30.05.22 09:03:09



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WS 2022 SS 2022
WS 2021
WS 2020 SS 2021
Department of Physics
open chemistry
KVL / Klausuren / MAP 1st HS: 18.10  2nd HS: 13.12  sem.br.: 21.02  begin SS: 17.04

4020215025 Laser Physics  VVZ 

VL
Mon 13-15
weekly NEW 14 1'02 (60) Kurt Busch, Thomas Elsässer
Wed 11-13
weekly NEW 14 1'02 (60)
UE
Tue 9-11
weekly NEW 14 1'13 (24) Francesco Intravaia
UE
Wed 15-17
weekly NEW 14 1'13 (24) Francesco Intravaia

Präsenzkurs

classroom language
DE
aims
Light-matter interaction, optical Bloch equations, optics, resonators, types of lasers, laser theory, basics of laser spectroscopy, selected applications (e.g., ultrashort pulses, laser cooling, optical switching and optical communications, nonlinear optics)
requirements
Basic knowledge from bachelor training in electrodynamics, optics, and quantum mechanics
structure / topics / contents
1. Wave optics and propagation of light (resonators,
photonic crystals, and metamaterials)
2. Light-matter interactions (semiclassical picture)
3. Optical amplification and laser
4. Types of lasers, sources of coherent radiation
5. Applications: optical frequency conversion,
nanooptics, plasmonics)
6. Quantization of the electromagnetic field (Fock
states, thermal and coherent states, coherence
properties)
7. Quantum-mechanical light-matter interaction
(Jaynes-Cummings model)
assigned modules
P23.4 Pe23.4
amount, credit points; Exam / major course assessment
6 SWS, 8 SP/ECTS (Arbeitsanteil im Modul für diese Lehrveranstaltung, nicht verbindlich)
Regular participation in and solving of exercises, Written or oral exam as final examination in the basic optics module P23.4.1
other
Depending on the status of the pandemic this class could take place online or in person. Additional information will be provided as soon as possible. Please refer to the links (web and Moodle page) provided above.
contact
Prof. K. Busch., NEW15, Raum 3'208, kurt.busch@physik.hu-berlin.de, 030-2093-7892; Prof. Th. Elsässer, Max-Born-Institut, elsasser@mbi-berlin.de, +49 30 6392 1400.
literature
D. Meschede. Optik, Licht und Laser. Teubner
B. E. A. Saleh, M. Teich. Grundlagen der Photonik. Wiley
F. K. Kneubühl, M. W. Sigrist. Laser. Teubner
O. Svelto. Principles of Lasers. Plenum
G.A. Reider. Photonik. Springer
M. Fox. Quantum Optics - an Introductionin. Oxford University Press
G. Grynberg, A. Aspect, C. Fabre. Introduction to Quantum Optics. Cambridge University Press
M. O. Scully, M. S.Zubairy. Quantum Optics. Cambridge University Press
C.C. Gerry, P.L. Knight. Introductory Quantum Optics. Cambridge University Press
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