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Velocity and Temperature Distributions in Turbulent Wakes
Velocity and temperature distributions in turbulent wakes behind
VlbrationaURotational Spectrum and Potential Function of
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adsorbed atoms adsorption approximation assume Bethe's theory bilinear form calculated Chou's coefficients condition constant coordinates corresponding cross-sections curve denotes determined double correlations eigensolution eigenvalue electron entropy equations of double equations of mean excitation experiment experimental expression Fage free energy frequency of oscillation given grid Hamiltonian heat of adsorption Heisenberg picture Hence Hermitean operator infinite cylinder integration interaction energy J. S. Wang jets Kunming lattice lattice constants linear mean motion mean velocity method molecule neglected obtain odd functions parameter partition function potential distribution pressure prism problem quantities Quantum Mechanics radiation relation respectively result Reynolds number second equation solution space charge specific heat Substituting superlattice symmetrical Ta-You Ta-You Wu temperature distributions Theorem tion transition turbulence velocity velocity and temperature Velocity correlation velocity fluctuation vibration wake wave function Y. H. Woo zero