Jj. Belbruno et Rb. Quinney, MULTIPHOTON DISSOCIATION OF IRON CARBONYLS - EMISSION FROM ATOMIC IRON, Journal of environmental science and health. Part A: Environmental science and engineering, 30(7), 1995, pp. 1549-1559
The third harmonic of the Nd:YAG laser is used to photodissociate Fe(C
O)(3)L, where L = C4H6 or C6H8. The resulting emission is analyzed and
observed to originate from high lying states of atomic iron. Iron ion
s are concurrently produced at laser energies as low as 20 mu J pulse(
-1). The nature of the emission spectrum is dependent upon the total p
ressure and the nature of any added background gas. The photochemistry
is analyzed using an RRKM treatment, which indicates that the absorpt
ion of two photons by Fe(CO)(3)L leads to production of FeL with a sma
ll excess energy. Ground state Fe production occurs upon absorption of
an additional photon. In competition with this process would be the a
bsorption of additional photons leading to the observed Fe atomic leve
ls with ''intermediate'' energy. High energy states observed in the em
ission spectrum could be accessed by absorption of three photons by Fe
L. In all three reaction channels, the atomic stares could be populate
d by multiple curve crossings. Such high levels of excitation are cons
tant with the observation of J-independent populations in many of the
electronic states and the absence of a Boltzmann temperature for the d
istribution of atomic iron electronic states.