P. Asselin et al., HIGH-RESOLUTION FOURIER-TRANSFORM INFRARED-SPECTROSCOPY OF THE NU(6) AND NU(10) BANDS OF JET-COOLED FE(CO)(5), The Journal of chemical physics, 104(12), 1996, pp. 4427-4433
Rovibrational FTIR spectra of Ni(CO)(4) and Fe(CO)(5) have been record
ed in supersonic argon expansions at resolutions up to 0.004 cm(-1). R
otational temperatures as low as 4 K for the nu(6) band of Fe(CO)(5) a
nd 6 K for the nu(5) band of Ni(CO)(4) have been determined from the p
opulations of the rotational levels, and an efficient vibrational cool
ing has been evidenced by the large reduction of hot band absorptions,
An analytical model including the instrumental line shapes and the in
tensity distribution is proposed to enable simulations of overlapping
rovibrational transitions of symmetric top molecules. The spectroscopi
c study of the nu(6) and nu(10) stretching bands of Fe(CO)(5) yielded
the -1 following parameters (3 sigma uncertainties in parenthesis): nu
(0)=2038.106 97(91) cm(-1), B-6=0,026 797(12) cm(-1), and B-0=0.026 82
6(10) cm(-1) for the 6(0)(1) transition, nu(0)=2015.5513(12) cm(-1), D
elta A(10)=-0.000 086(5) cm(-1), B-10=0.026 786(4) cm(-1), and xi(10)=
00.04(3) for the 10(0)(1) transition based on the literature value of
A(0). (C) 1996 American Institute of Physics.