Cooling, Amplification, and Lasing in the reversed dissipation regime of cavity

Research Project
|
01.11.2013
- 31.12.2014

P { margin-bottom: 0.08in; direction: ltr; color: rgb(0, 0, 0); widows: 2; orphans: 2; }P.western { } Cavity optomechanical phenomena, e.g. cooling, amplification or optomechanically-induced transparency, emerge due a stark imbalance between the dissipation rates of the optical and mechanical degrees of freedom. However, it has been an unquestioned assumption that the mechanical damping rate is much smaller than optical dissipation rate. Our goal is to investigate the regime of reversed dissipation hierarchy where the mechanical damping rate is much larger than the optical line width. We will show that this regime can be exploited for cooling and amplifying microwave signals and leads to novel lasing phenomena. The project will be carried out in close collaboration with the group of Tobias Kippenberg, in particular between Andreas Nunnenkamp (Basel) and Vivishek Sudhir (EPFL).

Members (2)

Christoph Bruder

Cooling, Amplification, and Lasing in the reversed dissipation regime of cavity

Research Project
|
01.11.2013
- 31.12.2014

Members (2)

Christoph Bruder

Principal Investigator

Andreas Nunnenkamp

Principal Investigator

Research Groups

Quantum Theory

Cooling, Amplification, and Lasing in the reversed dissipation regime of cavity

Research Project | 01.11.2013 - 31.12.2014

Members (2)

Christoph Bruder

Principal Investigator

Andreas Nunnenkamp

Principal Investigator

Research Groups

Quantum Theory

Research Project
|
01.11.2013
- 31.12.2014