Title :
Ultrafast electronic dynamics in metal nanoparticles
Author :
Lupke, G. ; Osborne, D.H. ; Chen, C.H. ; Haglund, R.F., Jr. ; Magruder, R.H., III ; Zuhr, R.A.
Author_Institution :
Dept. of Phys. & Astron., Vanderbilt Univ., Nashville, TN, USA
Abstract :
The electronic and vibrational relaxation mechanisms of metal quantum-dots embedded in dielectric matrices following ultrashort-pulse laser excitation is a topic of intense current interest. The electronic dephasing process in metal quantum dots occurs on a time scale of 10-20 fs. The electron-phonon (e-p) coupling within the quantum dot, and the phonon-phonon (p-p) coupling between the dot and the matrix, are typically picoseconds and tens of picoseconds, respectively. Among the critical issues are variations in these time constants between intraband and interband transitions, for high vs low pulse-repetition frequency (PRF), and for different combinations of quantum dot and matrix. We have measured these time constants at high pulse repetition frequencies using both pump-probe (PP) and transient-grating (TG) schemes for well-characterized Ag, Au and Cu quantum dots of varying size distributions in fused silica. Wavelengths on and off the plasmon resonance and near as well as away from the interband excitations were employed
Keywords :
copper; electron-phonon interactions; gold; high-speed optical techniques; nanostructured materials; phonon-phonon interactions; quantum dots; silver; surface plasmons; 10 to 20 fs; Ag; Ag quantum dots; Au; Au quantum dots; Cu; Cu quantum dots; dielectric matrices; electron-phonon coupling; electronic dephasing process; electronic relaxation mechanisms; fused silica; high pulse repetition frequencies; interband excitations; interband transitions; intraband transitions; metal nanoparticles; metal quantum dots; metal quantum-dots; phonon-phonon coupling; plasmon resonance; pulse-repetition frequency; pump-probe schemes; quantum dot; size distributions; time constants; time scale; transient-grating schemes; ultrafast electronic dynamics; ultrashort-pulse laser excitation; vibrational relaxation mechanisms; wavelengths; Dielectrics; Frequency measurement; Laser excitation; Nanoparticles; Pulse measurements; Quantum dot lasers; Quantum dots; Size measurement; Time measurement; Ultrafast electronics;
Conference_Titel :
Nonlinear Optics '98: Materials, Fundamentals and Applications Topical Meeting
Conference_Location :
Kauai, HI
Print_ISBN :
0-7803-4950-4
DOI :
10.1109/NLO.1998.710190
