Cavity quantum electrodynamics studies with site-controlled InGaAs quantum dots integrated into high quality microcavities

S. Reitzenstein (Invited author), C. Schneider (Invited author), F. Albert (Invited author), A. Huggenberger (Invited author), T. Heindel (Invited author), M. Lermer (Invited author), Søren Stobbe (Invited author), P. Weinmann (Invited author), Peter Lodahl (Invited author), S. Höfling (Invited author), M. Kamp (Invited author), L. Worschech (Invited author), A. Forchel (Invited author)

Research output: Contribution to journalConference articleResearchpeer-review

274 Downloads (Pure)

Fingerprint

Dive into the research topics of 'Cavity quantum electrodynamics studies with site-controlled InGaAs quantum dots integrated into high quality microcavities'. Together they form a unique fingerprint.

Mathematics

Engineering & Materials Science

Physics & Astronomy

Chemical Compounds