Coupling of the First and Second Excited States of R6G Dye with the Fabry–Perot Cavity
Abstract
Coupling of macroscopic ensembles of highly concentrated R6G molecules with aluminum and silver Fabry–Perot cavities of different sizes, in which one or two standing wave modes are in resonance with the absorption transition(s) of the dye molecules, have been studied. (i) It has been found that strong coupling of the cavity with one molecular eigenstate (S0→S1 transition) does not perturb the energies of the other molecular states. (ii) The S0→S2 absorption transition is too weak to strongly couple to the resonant cavity (“λ” standing wave mode). However, the resonant cavity causes a blue shift of the S0→S2 excitation band. (iii) The splitting of the dispersion curve is theoretically predicted and experimentally observed at strong coupling of the cavity resonance (“λ” standing wave mode) with the material resonances of Ag, including bound electron and “epsilon equal zero” transitions.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Dec 27, 2018
- Source ID
- 10.1002/pssb.201800045
Entities
People
- Cansu On
- Ekembu K Tanyi
- Erin Harrison
- M. A. Noginov
Organizations
- Air Force Office of Scientific Research
- Norfolk State University
- University of Delaware