Investigations into the fragmentation and ionization of highly excited La@C-82
Journal article, 2002
We report the first measurements of delayed ionization of the metallofullerene La@C-82. When highly excited in laser desorption, La@C-82 was found to ionize over several microseconds. The rate of delayed ionization of La@C-82 was compared to C-60 under the same extraction conditions, and found to be significantly different. A theoretical model was used for the fitting of the ion signal of the two fullerenes. The metallofullerene results can be fitted well over a time window <30 mus and are consistent with a low ionization potential (6.3 eV) and a high radiative cooling rate. The C-60 data cannot be fitted over the same time window, indicative of an additional time-dependent competing decay channel. (C) 2002 American Institute of Physics.
DELAYED IONIZATION
PHOTOFRAGMENTATION
CARBON
C-60
BINDING-ENERGY
ENDOHEDRAL FULLERENES
ATOM
THERMIONIC EMISSION
MECHANISM
Author
Andreas Lassesson
Chalmers, Department of Experimental Physics
Kirsten Mehlig
University of Gothenburg
Andrei Gromov
University of Gothenburg
A. Taninaka
H. Shinohara
Eleanor E B Campbell
University of Gothenburg
Journal of Chemical Physics
0021-9606 (ISSN) 1089-7690 (eISSN)
Vol. 117 21 9811-9817Subject Categories
Physical Sciences
Atom and Molecular Physics and Optics
DOI
10.1063/1.1513465