Chemical application of diffusion quantum Monte Carlo

The diffusion quantum Monte Carlo (QMC) method gives a stochastic solution to the Schroedinger equation. This approach is receiving increasing attention in chemical applications as a result of its high accuracy. However, reducing statistical uncertainty remains a priority because chemical effects are often obtained as small differences of large numbers. As an example, the single-triplet splitting of the energy of the methylene molecule CH sub 2 is given. The QMC algorithm was implemented on the CYBER 205, first as a direct transcription of the algorithm running on the VAX 11/780, and second by explicitly writing vector code for all loops longer than a crossover length C. The speed of the codes relative to one another as a function of C, and relative to the VAX, are discussed. The computational time dependence obtained versus the number of basis functions is discussed and this is compared with that obtained from traditional quantum chemistry codes and that obtained from traditional computer architectures

Digital simulation and experimental evaluation of the CO2-H(plus) control of pulmonary ventilation

Previous models of the CO2-H(+) control of ventilation have been concerned either with the response to CO2 inhalation, or the response to perfusion of the surface of the medulla with mock cerebrospinal fluid having a high P sub CO2. Simulation of both responses with the same model has not been attempted. The purpose of the present study was two fold; first to develop such a model and, second, to obtain experimental data from human subjects for both developing this model and for evaluating this and future models

Radiative transfer in highly scattering materials - numerical solution and evaluation of approximate analytic solutions

Numerical solutions for radiative transport in a class of anisotropically scattering materials are presented. Conditions for convergence and divergence of the iterative method are given and supported by computed results. The relation of two flux theories to the equation of radiative transfer for isotropic scattering is discussed. The adequacy of the two flux approach for the reflectance, radiative flux and radiative flux divergence of highly scattering media is evaluated with respect to solutions of the radiative transfer equation

An Evaluation of Fee Hunting as a Technique to Capitalize on the Value of Deer in Northern New York

To research selected aspects of deer resource dynamics that have been identified as key components in the redefinition and/or implementation of deer management strategic plans and programs in northern New York

Ionic transfer in cardiac muscle. An explanation of cardiac electrical activity

The evidence has been reviewed which suggests that the upstroke of the action potential in heart muscle is due to the entry of sodium ions. This conclusion is based on the failure of the upstroke to occur if 90 per cent of the sodium is replaced by sucrose, and the demonstration of a reduction in amplitude of the rising phase of the action potential with each decrement in extracellular sodium concentration or an increase in amplitude with increasing extracellular sodium concentration. In addition, the demonstration of a change in membrane resistance of one-hundred-fold at the time of the rising phase suggests increased permeability of the membrane at this time.The voltage-clamp studies in the squid giant axon clearly show an inward movement of current during the rising phase, which disappears when choline replaces sodium in the perfusing bath.The resting membrane potential resembles the model of a potassium and chloride concentration cell, since calculations based on measured concentrations across the membrane agree fairly closely with measured potentials. Furthermore, the membrane resting potential is altered in a predictable manner by changed extracellular potassium and chloride concentration, but is not appreciably affected by changing sodium concentration. Since the skeletal muscle membrane appears to be freely permeable to chloride, and only sparingly so to potassium, and since potassium permeability is selectively altered during the electrical cycle, the chloride ionic concentration gradient is probably dependent on the transmembrane potential, and, therefore, is passive. The current carried by the chloride ion in cardiac fibers is small.Little is known of the factors which alter membrane permeability or affect the transfer rates during recovery, but it is apparent that sodium is removed from the cell after the rising phase and is replaced by potassium to restore membrane resting potential.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/32171/1/0000226.pd

The use of potassium in the treatment of heart disease

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/32003/1/0000045.pd

Guidelines for Integrating Deer and Timber Management in northern New York

To research selected aspects of deer resource dynamics that have been identified as key components in the redefinition and/or implementation of deer management strategic plans and programs in northern New York

Orientation cues for high-flying nocturnal insect migrants: do turbulence-induced temperature and velocity fluctuations indicate the mean wind flow?

Migratory insects flying at high altitude at night often show a degree of common alignment, sometimes with quite small angular dispersions around the mean. The observed orientation directions are often close to the downwind direction and this would seemingly be adaptive in that large insects could add their self-propelled speed to the wind speed, thus maximising their displacement in a given time. There are increasing indications that high-altitude orientation may be maintained by some intrinsic property of the wind rather than by visual perception of relative ground movement. Therefore, we first examined whether migrating insects could deduce the mean wind direction from the turbulent fluctuations in temperature. Within the atmospheric boundary-layer, temperature records show characteristic ramp-cliff structures, and insects flying downwind would move through these ramps whilst those flying crosswind would not. However, analysis of vertical-looking radar data on the common orientations of nocturnally migrating insects in the UK produced no evidence that the migrants actually use temperature ramps as orientation cues. This suggests that insects rely on turbulent velocity and acceleration cues, and refocuses attention on how these can be detected, especially as small-scale turbulence is usually held to be directionally invariant (isotropic). In the second part of the paper we present a theoretical analysis and simulations showing that velocity fluctuations and accelerations felt by an insect are predicted to be anisotropic even when the small-scale turbulence (measured at a fixed point or along the trajectory of a fluid-particle) is isotropic. Our results thus provide further evidence that insects do indeed use turbulent velocity and acceleration cues as indicators of the mean wind direction

An experimental study of the electromotive forces of the heart

Propagated wavefronts were produced by mechanical stimulation at points located deeply within the myocardium, and the external field so produced was measured by electrodes located within a radius of 10 mm. from the centrally stimulated point. In 104 experiments in 10 dogs the external field so produced was negligible until propagation reached either the epicardial or endocardial surfaces. If it is assumed that propagated intramural activity is temporarily a closed electromotive surface, then the data presented suggest that there is a uniform difference in potential across this surface. Since there is no fundamental difference in the wavefront characteristics of closed electromotive surfaces and those which present boundaries on the epicardial or endocardial surfaces, these data strongly suggest that there is a uniform difference in potential across all propagated wavefronts in normal ventricular muscle.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/32059/1/0000103.pd