41,170 research outputs found
R-matrix and K-matrix analysis of elastic alpha-alpha scattering
The R- and K-matrix parametrizations are analyzed and compared for the
elastic alpha-alpha scattering at center-of-mass energies below 40 MeV. The two
parametrizations differ in their definitions of the resonance energy which can
lead to quite different results. The physical values of the best-fit parameters
are compared with those computed for a potential model. The existence of a
broad resonance near 9 MeV is not supported by the data or by the potential
model. We discuss the positive and negative aspects for both parametrizations.Comment: 14 pages with 4 figure
A square-well model for the structural and thermodynamic properties of simple colloidal systems
A model for the radial distribution function of a square-well fluid of
variable width previously proposed [S. B. Yuste and A. Santos, J. Chem. Phys.
{\bf 101}, 2355 (1994)] is revisited and simplified. The model provides an
explicit expression for the Laplace transform of , the coefficients
being given as explicit functions of the density, the temperature, and the
interaction range. In the limits corresponding to hard spheres and sticky hard
spheres the model reduces to the analytical solutions of the Percus-Yevick
equation for those potentials. The results can be useful to describe in a fully
analytical way the structural and thermodynamic behavior of colloidal
suspensions modeled as hard-core particles with a short-range attraction.
Comparison with computer simulation data shows a general good agreement, even
for relatively wide wells.Comment: 23 pages, 10 figures; Figs. 4 and 5 changed, Fig. 6 new; to be
published in J. Chem. Phy
Biological Individuals
The impressive variation amongst biological individuals generates many complexities in addressing the simple-sounding question what is a biological individual? A distinction between evolutionary and physiological individuals is useful in thinking about biological individuals, as is attention to the kinds of groups, such as superorganisms and species, that have sometimes been thought of as biological individuals. More fully understanding the conceptual space that biological individuals occupy also involves considering a range of other concepts, such as life, reproduction, and agency. There has been a focus in some recent discussions by both philosophers and biologists on how evolutionary individuals are created and regulated, as well as continuing work on the evolution of individuality
Soft sphere model for electron correlation and scattering in the atomistic modelling of semiconductor devices
The atomistic modelling of silicon MOSFET devices becomes essential at deep sub-micron scales when it is no longer possible to represent the charged impurities by a continuous charge distribution with a determined doping density. Instead the spatial distribution and the actual number of dopants must be treated as discrete random variables. The present paper addresses the issue of modelling the dynamics of discrete carrier flow in a semiconductor device utilising a simple model of the carrier-carrier scattering and carrier-fixed impurity scattering which is suitable for efficient simulations of large ensembles of devices
Efficient hole transport model in warped bands for use in the simulation of Si/SiGe MOSFETs
An analytical geometric model for the valence band in strained and relaxed Si1-xGex is presented, which shows good agreement with a 6-band k·p analysis of the valence band. The geometric model allows us to define an effective mass tensor for the warped valence band structure. The model also has applications in the study of III-V semiconductors, and could aid in the interpretation of cyclotron resonance experiments in these bands. A warped three-band Monte Carlo simulation has been developed based on this model making use of the efficient calculation of trajectory dynamics that is made possible through the use of such a model. The calculated transport characteristics show good agreement with the available experimental data
- …