quantal 
Effect of Proteinkinase A Inhibitor on the Time Course of Evoked Quantal Release of Transmitter and Endplate Currents in the Myo


Changes in quantal content of the evoked postsynaptic currents in synapses with constant release probability


Changes in quantal content of the evoked postsynaptic currents in synapses with constant release probability


Quantal conserved charge in nonAbelian ChernSimons theories


Based on the global canonical symmetry of the path integral in phase space, the quantal conserved angular momentum and BRS charge for nonAbelian ChernSimons (CS) theories have been derived.


If the proper Hamiltonian is used for the quantization of a damped system, then the quantal equations are inconsistent for the cases where the rate of energy dissipation depends on the velocity of the particle.


A phenomenological stochastic modelling of the process of thermal and quantal fluctuations of a damped harmonic oscillator is presented.


To account for this effect, a fully quantal calculation has been performed.


The computed potential curves and dynamical coupling matrix elements are next used in the framework of a twostate quantal calculation to determine the temperature variation of a few population transfer cross sections.


Coherence parameters of atomic excited states: comparison of results from the CTMC and the quantal calculations


It is found that the CTMC results are in qualitative agreement with the quantal distorted wave and closecoupling results for some of the coherent parameters only.


The intrinsic line width of the plasmon resonances in metal microclusters at very low temperatures: quantal surface fluctuations


The line shape of the plasmon resonance in a cold, small sodium cluster (Na8) is calculated taking into account its coupling to the quantal quadrupole fluctuations of the cluster shape.


This short review includes classical, semiclassical and quantal methods.


A quantal calculation to evaluate theoretically the elastic cross section of electrons scattered by metal clusters is presented.


Systems driven by Poissondistributed quantal inputs can be described as


Geometrical and quantal fragmentation of optical response in


By comparing quantal and semiclassical calculations of optical response, we work out the part of the splitting of the plasmon spectra which is exclusively due to geometrical effects.


We study the excitation of metal clusters irradiated by intense laser beams, within the framework of a time dependent density functional approach at fully quantal or semiclassical levels.


We study a confined mixture of bosons and fermions in the regime of quantal degeneracy, with particular attention to the effects of the interactions on the kinetic energy of the fermionic component.

