Spontaneous emission enhancement in planar metal-organic structures

We provide an experimental investigation of a Purcell enhancement in a silver-organic periodic structure with an organic material CBP (4,4'-Bis(N-carbazolyl)-1,1'-biphenyl). Were fabricated two structures using a thermal evaporation technique with a different thickness ratio between layers. A rate of a fluorescence intensity decay of the periodic structures was experimentally measured in a near ultraviolet region. We show experimentally, that the rate of CBP molecule fluorescence decay increasing. A maximum registered value of the Purcell factor is close to 10

Purcell effect investigation in organic Tamm plasmon structures

We provide a theoretical and experimental investigation of a Purcell enhancement in a Tamm-plasmon based microcavity structure with an organic (4,4'-Bis(N-carbazolyl)−l,l'- biphenyl (CBP)) active layer. The microcavity structure was fabricated using several techniques as a magnetron deposition (Ta2O5/SiO2 dielectric Bragg mirror) and a thermal evaporation (CBP organic layer and silver layer on the top). Dependency of the modal Purcell factor on emission angle and frequency was calculated using S-quantization formalism. The emission spectra and the rate of fluorescence intensity decay of the Tamm structure was experimentally measured in ultraviolet region. We show, that at the frequencies corresponded to the Tamm plasmon resonance, the rate of the CBP molecule fluorescence decay increasing. Maximum registered value of the Purcell factor is close to 3

Implementation of correlative enhanced scattering diagnostics of small scale plasma turbulence at the FT-2 tokamak

In this paper the first results of implementation of CES diagnostics at the FT-2 tokamak possessing much more developed set of standard tokamak diagnostics are presented.Supports of RFBR grants 02-02-06525, 01-02-17926; 00-15-96762, RFBR-NWO grant 047.009.009, INTAS grants 01-2056, 2002-104 is acknowledged