25 research outputs found
Spontaneous emission of radiation by metallic electrons in the presence of electromagnetic fields of surface plasmon oscillations
The spontaneous emission of radiation of metallic electrons embedded in a
high-intensity enhanced surface plasmon field is considered analytically. The
electrons are described by exact dressed quantum states which contain the
interaction with the plasmon field non-perturbatively. Considerable deviations
from the pertubative behaviour have been found in the intensity dependence of
the emitted fundamental and the second harmonic signals, even at moderate
incoming laser intensities. The theoretical predictions deduced from the
formalism are in good qualitative agreement with the experimental results.Comment: 23 pages, 6 figure
Testing Method for Air Ultrasonic Transducers Using a Photoacoustic Pulse Source
Ultrasonic transducers’ frequency and impulse responses can be determined if a test signal is available that can be adequately characterized. One such source is the expanding plasma bubble caused by a dielectric breakdown that occurs in the focus of the light from a pulse laser. The sound emanating from such a source can be predicted using a theory originally developed for macroscopic blasts if appropriate scaling of energy and plasma volume are included
Nanofabrication with Pulsed Lasers
An overview of pulsed laser-assisted methods for nanofabrication, which are currently developed in our Institute (LP3), is presented. The methods compass a variety of possibilities for material nanostructuring offered by laser–matter interactions and imply either the nanostructuring of the laser-illuminated surface itself, as in cases of direct laser ablation or laser plasma-assisted treatment of semiconductors to form light-absorbing and light-emitting nano-architectures, as well as periodic nanoarrays, or laser-assisted production of nanoclusters and their controlled growth in gaseous or liquid medium to form nanostructured films or colloidal nanoparticles. Nanomaterials synthesized by laser-assisted methods have a variety of unique properties, not reproducible by any other route, and are of importance for photovoltaics, optoelectronics, biological sensing, imaging and therapeutics