Intensive Week - Laser Cooling
The intensive week will give an introduction to the field of laser cooling. For a whole week, morning lectures and seminars will be complemented by afternoon lab-work to investigate tools, apply methods and realize some of the phenomena that are discussed theoretically.
- Laser sources in theory and experiment - we will construct a laser based on a new ultra-stable design. Furthermore we will experimentally compare the laser properties of various designs
- Laser spectroscopy and locking schemes in theory and experiment - we will setup and compare .
- Laser cooling - we will experimentally realize an ultra cold sample of matter in a magneto-optical trap.
- We will discuss the foundations of selected laser cooling schemes, based on, for example, Raman sideband transitions or electro-magnetically induced transparency.
|Duration||October 17th - October 21st 2016|
46-576 and AG Ott Labs
|Lecturers||M. Fleischhauer, H. Ott, A. Pelster, A. Widera|
|Group size||Targeted 10...12 participants - Application required, apply here|
|Target group||Students with experience in atomic physics and quantum mechanics lectures|
|Application ends||extended - Sep 25.|
|Application status||Will be communicated September 26th|
|Kick-off meeting||will be announced|
Groups of 2..3 students will investigate one of the following topics in a laboratory project and present in our final meeting during the last day of the week:
- Laser sources and design - including theoretically considerations for laser design (Seminar talk) and experimental construction of a laser based on a novel, stable laser design
- Laser properties and applications to precision physics - including comparison of two work-horse laser designs for quantum optical applications
- Laser spectroscopy techniques - including discussion and comparison of various methods to probe the atomic level structure by laser radiation in theory (Seminar talk) and experiment
- Laser cooling - including theoretical background (Seminar talk) and experimental realization in a magneto-optical trap