High-resolution CH stretch spectroscopy of jet-cooled cyclopentyl radical: First insights into equilibrium structure, out-of-plane puckering, and IVR dynamics

Kortyna Andrew; Reber Melanie A. R.; Nesbitt David J.

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High-resolution CH stretch spectroscopy of jet-cooled cyclopentyl radical: First insights into equilibrium structure, out-of-plane puckering, and IVR dynamics

机译：High-resolution CH stretch spectroscopy of jet-cooled cyclopentyl radical: First insights into equilibrium structure, out-of-plane puckering, and IVR dynamics

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First, high-resolution sub-Doppler infrared spectroscopic results for cyclopentyl radical (C5H9) are reported on the alpha-CH stretch fundamental with suppression of spectral congestion achieved by adiabatic cooling to T-rot & AP; 19(4) K in a slit jet expansion. Surprisingly, cyclopentyl radical exhibits a rotationally assignable infrared spectrum, despite 3N - 6 = 36 vibrational modes and an upper vibrational state density (rho & AP; 40-90 #/cm(-1)) in the critical regime (rho & AP; 100 #/cm(-1)) necessary for onset of intramolecular vibrational relaxation (IVR) dynamics. Such high-resolution data for cyclopentyl radical permit detailed fits to a rigid-rotor asymmetric top Hamiltonian, initial structural information for ground and vibrationally excited states, and opportunities for detailed comparison with theoretical predictions. Specifically, high level ab initio calculations at the coupled-cluster singles, doubles, and perturbative triples (CCSD(T))/ANO0, 1 level are used to calculate an out-of-plane bending potential, which reveals a C-2 symmetry double minimum 1D energy surface over a C-2v transition state. The inversion barrier [V-barrier = 3.7(1) kcal/mol] is much larger than the effective moment of inertia for out-of-plane bending, resulting in localization of the cyclopentyl wavefunction near its C-2 symmetry equilibrium geometry and tunneling splittings for the ground state too small (< 1 MHz) to be resolved under sub-Doppler slit jet conditions. The persistence of fully resolved high-resolution infrared spectroscopy for such large cyclic polyatomic radicals at high vibrational state densities suggests a "deceleration " of IVR for a cycloalkane ring topology, much as low frequency torsion/methyl rotation degrees of freedom have demonstrated a corresponding "acceleration " of IVR processes in linear hydrocarbons. Published by AIP Publishing.

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来源
《The Journal of Chemical Physics》 |2022年第3期|共11页
作者
Kortyna Andrew; Reber Melanie A. R.; Nesbitt David J.;
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作者单位

Natl Inst Stand & Technol;

Univ Colorado;

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原文格式 PDF
正文语种英语
中图分类物理化学（理论化学）、化学物理学;
关键词
INTRAMOLECULAR VIBRATIONAL REDISTRIBUTION; RANDOM-MATRIX TREATMENT; INFRARED-SPECTROSCOPY; SUB-DOPPLER; RELAXATION; SPECTRA; LASER; MODE; PSEUDOROTATION; ACCELERATION;

High-resolution CH stretch spectroscopy of jet-cooled cyclopentyl radical: First insights into equilibrium structure, out-of-plane puckering, and IVR dynamics

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