We. Klotzbucher et al., HOLMIUM ATOMS AND SMALL CLUSTERS IN INERT MATRICES, The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 101(25), 1997, pp. 4548-4554
The UV-vis spectra of holmium atoms isolated in argon and krypton matr
ices at 9 K have been studied in the 200-800 nm region. By comparison
with gas phase data it is possible to separate the multitude of absorp
tions in the 400 nm region into transitions belonging to holmium atoms
in two different sites, only one of which is photostable. Prolonged i
rradiation of dilute Ho/Ar matrices results in the simultaneous growth
of two new doublets at 498/504 and 558/562 nm, attributed to the holm
ium dimer Ho-2. Cocondensation of holmium atoms with argon at temperat
ures above 10 K results in gradual breakdown of isolation conditions w
ith indications of global clustering. Not even traces of isolated holm
ium atoms can be observed at deposition temperature above 17 K. Photoa
ctivation permits tentative assignment of bands at 608 and 450 nm to H
o-3 and Ho-4, respectively.