8,134 research outputs found
Quantum Monte Carlo Study of electrons in low dimensions
We report on a diffusion Monte Carlo investigation of model electron systems
in low dimensions, which should be relevant to the physics of systems
obtainable nowadays in semiconductor heterostructures. In particular, we
present results for a one dimensional electron gas, at selected values of the
coupling strength and confinement parameter, briefly analyzing the pair
correlations and relating them to predictions by Schulz for a Luttinger liquid
with long-range interactions. We find no evidence of the the Bloch instability
yielded by approximate treatments such as the STLS and DFT schemes.Comment: 6 pages, 3 figures. To appear in the proceedings of the 1999
International Conference on Strongly Coupled Coulomb Systems, Saint-Malo,
Franc
A stochastic delay differential model of cerebral autoregulation
Mathematical models of the cardiovascular system and of cerebral autoregulation (CAR) have been employed for several years in order to describe the time course of pressures and flows changes subsequent to postural changes. The assessment of the degree of efficiency of cerebral auto regulation has indeed importance in the prognosis of such conditions as cerebro-vascular accidents or Alzheimer. In the quest for a simple but realistic mathematical description of cardiovascular control, which may be fitted onto non-invasive experimental observations after postural changes, the present work proposes a first version of an empirical Stochastic Delay Differential Equations (SDDEs) model. The model consists of a total of four SDDEs and two ancillary algebraic equations, incorporates four distinct delayed controls from the brain onto different components of the circulation, and is able to accurately capture the time course of mean arterial pressure and cerebral blood flow velocity signals, reproducing observed auto-correlated error around the expected drift
Sustainability, stakeholders and business. Editorial
Over the past 20 years, there has been an increasing attention on the drivers of value in organizations. Both the strategic management literature and practice have remarked the importance for managers to be aware of the impact of firm activities, products and services on either the external and internal environment and, more generally, on all firm stakeholders. The emergence of the notions of “sustainable development” and “sustainability” reflects a profound change in global thinking, which forces firms to move beyond trade-offs between business and society
Electromagnetic shape resonances of a dielectric sphere and radiation of portable telephones
The frequency band used by cellular telephones includes the eigenfrequencies
of a dielectric sphere with physical characteristics close to those of a human
head. Proceeding from the spatial features of the natural modes of such a
sphere we propose an independent and clear evident accuracy test for the
complicated numerical calculations which are conducted when estimating the
potential hazard due to the use of cellular telephones, in particular, for the
check of a proper handling of the electromagnetic shape resonances of a human
head.Comment: 10 pages, 1 figure with 2 eps file
Modeling Escape from a One-Dimensional Potential Well at Zero or Very Low Temperatures
The process of activation out a one-dimensional potential is investigated
systematically in zero and nonzero temperature conditions. The features of the
potential are traced through statistical escape out of its wells whose depths
are tuned in time by a forcing term. The process is carried out on the damped
pendulum system imposing specific initial conditions on the potential variable.
While for relatively high values of the dissipation the statistical properties
follow a behavior that can be derived from the standard Kramers model,
decreasing the dissipation we observe responses/deviations which have regular
dependencies on initial conditions, temperature, and loss parameter itself. It
is shown that failures of the thermal activation model are originated at low
temperatures, and very low dissipation, by the initial conditions and
intrinsic, namely T=0, characteristic oscillations of the potential-generated
dynamical equation.Comment: 25 pages and 13 Figure
Cryogenic seal concept for static and dynamic conditions
Seal rings reduce cryogenic pump seal leakage under static and dynamic conditions. The rings are fitted into annular diaphragms, which are affected by cryogenic pressure and temperature, to move against a mating ring, to increase seal-bearing loads under static conditions
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