Potsdam University Potsdam Quantum Optics Group

Universität Potsdam
Institut für Physik
Karl-Liebknecht-Str. 24/25
14476 Potsdam-Golm 		Potsdam Quantum Optics Group: Home

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 Lehrveranstaltungen
 Wintersemester 2001/02
   Elements of Quantum Optics I
 

Elements of Quantum Optics I
(7. Fachsemester) Neu: Ergebnisse der studentischen Evaluation.
New: results of the students' evaluation poll. Die Vorlesung ist zweistündig:
  • jeden Mittwoch um 09 Uhr c.t. im Seminarraum 4. Stock (1.19.4.15)
    • Kurzfristige Terminänderungen können erfragt werden bei C. Henkel (Tel. 0331.977 14 98, Raum 1.19.4.21).

    Übungsgruppe:

  • jeden Dienstag um 13 Uhr c.t. in Haus 12 (Mensa), Raum 001 (1.12.0.01)
    • Ansprechpartner für die Übungen:
  • Carsten Henkel, Raum 1.19.4.21, Tel. 0331.977 14 98

    • Übungsblätter / Problems

  • Session 11 [ .ps (130 kB) | .pdf (110 kB) ]
  • Session 10 [ .ps (97 kB) | .pdf (67 kB) ]
  • Session 09 [ .ps (100 kB) | .pdf (77 kB) ]
  • Session 08 [ .ps (160 kB) | .pdf (110 kB) ]
  • Session 07 [ .ps (59 kB) | .pdf (60 kB) ]
  • Session 06 [ .ps (112 kB) | .pdf (95 kB) ]
  • Session 05 [ .ps (124 kB) | .pdf (98 kB) ]
  • Session 04 [ .ps (80 kB) | .pdf (61 kB) ]
  • Session 03 [ .ps (106 kB) | .pdf (86 kB) ]
  • Session 02 [ .ps (126 kB) | .pdf (114 kB) ]
  • Session 01 [ .ps (120 kB) | .pdf (96 kB) ]

    • Inhalt der Vorlesung / Contents of the lecture [ .ps (110 kB) | .pdf (52 kB) ]

    The lecture is organised as a two-term course.
    Winter term 2001/02
    1. Quantized atoms in classical fields [ .ps (270 kB) | .pdf (160 kB) ]
    2. Field quantization
        Quantum states of the radiation field [ .ps (300 kB) | .pdf (190 kB) ]
        Optical detector theory [ .ps (230 kB) | .pdf (160 kB) ]
    3. Cavity QED [ .ps (320 kB) | .pdf (160 kB) ]
    4. Decoherence and dissipation
        Master equations [ .ps (290 kB) | .pdf (160 kB) ]
        Resonance fluorescence [ .ps (180 kB) | .pdf (110 kB) ]
        Quantum Monte Carlo methods [ .ps (170 kB) | .pdf (110 kB) ]
        Decoherence models
    5. Quasi probabilities [ .ps (230 kB) | .pdf (130 kB) ]
    Literature
  • P. Meystre & M. Sargent III, Elements of Quantum Optics, 3rd edition (Springer, Berlin 1999)
  • L. Mandel & E. Wolf, Optical Coherence and Quantum Optics, (Cambridge University Press 1995)
    •
    Summer term 2002
    1. Elementary laser theory
    2. Coherent interactions
      Multilevel atoms
      Adiabatic passage
      Electromagnetic induced transparency
    3. Mechanical effects
      Atom optics
      Laser cooling and trapping
      Bose-Einstein condensation
    4. Sub-lambda quantum optics
      Fluorescence in confined space
      Thermal radiation
      Structured continua and photonic crystals
    5. Perspectives
    C. Henkel, 01 February 2002.


    		   
       
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