Amplitude of jump motion signatures in classical vibration-jump dynamics

Abstract: The classical Langevin dynamics of a particle in a periodic potential energy landscape are studied via the intermediate scattering function (ISF). By construction, the particle performs coupled vibrational and activated jump motion with a wide separation of the vibrational period and the mean residence time between jumps.The long time limit of the ISF is a decaying tail proportional to the function that describes ideal jump motion in the absence of vibrations. The amplitude of the tail is unity in idealized ju… Show more

“…For unconfined lateral diffusion of the adsorbates, the long-time limit of the correlation function is assumed to decay exponentially, I(DK,t) B exp[Àa(DK,t)]. 21 In general, therefore, the intensity correlation function has a characteristic 'lineshape' that may be written as…”

“…where a is the dephasing rate. The prefactor, b(DK,t), decays to a constant value in the limit t -N. 21 At shorter times the prefactor b(DK,t) may have a complicated structure. For example, it may contain multiple exponential decays 15 and, at very small times it has a Gaussian time dependence that describes ballistic motion.…”

Inter-adsorbate forces and coherent scattering in helium spin-echo experiments

“…For unconfined lateral diffusion of the adsorbates, the long-time limit of the correlation function is assumed to decay exponentially, I(DK,t) B exp[Àa(DK,t)]. 21 In general, therefore, the intensity correlation function has a characteristic 'lineshape' that may be written as…”

“…where a is the dephasing rate. The prefactor, b(DK,t), decays to a constant value in the limit t -N. 21 At shorter times the prefactor b(DK,t) may have a complicated structure. For example, it may contain multiple exponential decays 15 and, at very small times it has a Gaussian time dependence that describes ballistic motion.…”

Inter-adsorbate forces and coherent scattering in helium spin-echo experiments

“…The interpretation of these correlation functions forms the basis of the quasi-elastic scattering technique. For unconfined lateral diffusion of the adsorbates, the long-time limit of the correlation function is assumed to decay exponentially, I(∆K, t) ∼ exp[−α(∆K, t)] 21 . In general, therefore, the intensity correlation function has a characteristic 'lineshape' that may be written as…”

Inter-adsorbate forces and coherent scattering in helium spin-echo experiments