Book ChapterDOI
Doppler Profiles of the Distribution of O( 1 D) Relaxing in Ne
Bernie D. Shizgal,Kanami Hitsuda,Yutaka Matsumi +2 more
- pp 253-262
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TLDR
In this paper, the authors measured the Doppler profiles of the H atoms at the Lyman-α line during the relaxation by collisions with the rare gases and some molecular moderators.Abstract:
The relaxation of hot atoms in a gaseous moderator remains a fundamental problem in rarefied gas dynamics [1, 2]. The rate of relaxation of energetic particles to equilibrium has important applications in diverse fields. In addition to the calculation and measurement of relaxation times, in recent years there have been numerous measurements of the details of the relaxing velocity distribution functions by Doppler spectroscopy [3, 4]. For example, Park et al [5] have investigated the relaxation of H atoms produced in laser dissociation of H2S at 193 nm. They measured the Doppler profiles of the H atoms at the Lyman-α line during the relaxation by collisions with the rare gases and some molecular moderators. Nan and Houston [6] monitered the velocity relaxation of S(1D) by He, Ar and Xe by measuring the Doppler profile of S(1D) created by pulsed laser photolysis of OCS at 222 nm. Cline et al [7] reported the relaxation of hot I(2 P 1/2) that was produced from photodissociation of of n-C3F7I at 266 nm in a background of He.read more
Citations
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Journal ArticleDOI
Neutral particle collisional relaxation of suprathermal distributions in aeronomy
TL;DR: In this paper, a detailed analysis of the relaxation of isotropic nonequilibrium distributions of neutral species with extended high-energy tails is provided, where a minor constituent, referred to as the test-particle dilutely dispersed in a second component that acts as a heat bath at equilibrium, is considered.
References
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Journal ArticleDOI
A discrete ordinate method of solution of linear boundary value and eigenvalue problems
Bernie D. Shizgal,R. Blackmore +1 more
TL;DR: In this article, a discrete ordinate method is developed for the solution of linear differential equations, which is based on a Gaussian quadrature procedure and is an extension of the discrete ordination method used for the solutions of integral equations.
Journal ArticleDOI
The quadrature discretization method (QDM) in the solution of the Schrödinger equation with nonclassical basis functions
Bernie D. Shizgal,Heli Chen +1 more
TL;DR: The Quadrature Discretization Method (QDM) as mentioned in this paper was introduced for the solution of the Schrodinger equation, which is based on the discretization of the wave function on a grid of points that coincide with the points of a quadrature.
Journal ArticleDOI
Velocity relaxation of hot O(1D) atoms by collisions with rare gases, N2, and O2
TL;DR: In this paper, the Doppler profiles of superthermal O(1D) photofragments were measured as a function of the time delay between photolysis and probe laser pulses.
Journal ArticleDOI
Theoretical treatment of the spin-orbit coupling in the rare gas oxides NeO, ArO, KrO, and XeO
TL;DR: In this paper, off-diagonal spin-orbit matrix elements are calculated as a function of internuclear distance for the rare gas oxides NeO, ArO, KrO, and XeO using the full microscopic spinorbit Hamiltonian, including all one and two-electron integrals, and wave functions comparable to those of Dunning and Hay (1977).
Journal ArticleDOI
Diode laser probing of I*(2P1/2) Doppler profiles: Time evolution of a fast, anisotropic velocity distribution in a thermal bath
TL;DR: In this paper, the authors studied the relaxation of a nonthermal translational population distribution of fast I*(2P1/2) atoms dilutely dispersed in a gaseous bath at thermal equilibrium by time-resolved Doppler spectroscopy.
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