118,157 research outputs found
X-Rays From Magnetically Channeled Winds Of OB Stars, In \u27Magnetic Massive Stars\u27
OB stars with strong radiation-driven stellar winds and large-scale magnetic fields generate strong and hard X-ray emission via the Magnetically Channeled Wind Shock (MCWS) mechanism. In this brief paper, I describe four separate X-ray diagnostics of the MCWS mechanism in OB stars, with applications to the prototype young O star, theta-1 Ori C
Classical Langevin Dynamics for Model Hamiltonians
We propose a scheme for extending the model Hamiltonian method developed
originally for studying the equilibrium properties of complex perovskite
systems to include Langevin dynamics. The extension is based on Zwanzig's
treatment of nonlinear generalized Langevin's equations. The parameters
entering the equations of motion are to be determined by mapping from
first-principles calculations, as in the original model Hamiltonian method. The
scheme makes possible, in principle, the study of the dynamics and kinetics of
structural transformations inaccessible to the original model Hamiltonian
method. Moreover, we show that the equilibrium properties are governed by an
effective Hamiltonian which differs from that used in previous work by a term
which captures the coherent part of the previously ignored dynamical
interaction with the omitted degrees of freedom. We describe how the additional
information required for the Langevin equations can be obtained by a minor
extension of the previous mapping.Comment: 5 pages, no figures, to appear in Physica Status Solidi; replacement
acknowledges funding agenc
Genesis of the 1000-Foot Arecibo Dish
The giant radar/radio astronomy dish near Arecibo, Puerto Rico, was conceived by William E. Gordon in early 1958 as a back-scattering radar system to measure the density and temperature of the Earth’s ionosphere up to a few thousand kilometers. Gordon calculated the required size of the antenna by using the Thomson cross-section for scattering by the electrons, and assuming that the elementary scattered waves would be incoherent. During the summer and autumn of 1958 Gordon led a study group that published a design report in December 1958. The report showed that a dish 1000 feet in diameter would be required, and described a limestone sinkhole in Puerto Rico that would make a suitable support for such a dish. Meanwhile, in November 1958, Kenneth L. Bowles per-formed an ionospheric radar experiment that showed that the Gordon calculation for the scattered power was roughly correct, but that the calculated spectral width was too big. The consequence of these results was that a dish substantially smaller than 1000 feet could have satisfied the original goals for the radar. However, from the spring of 1958 the value of 1000 feet had been in the minds of the study team, and a large suite of important experiments that such a dish could do had been identified. These apparently became the raison d’être for the project, and the possibility of shrinking the dish to accomplish only the original goals seems to have been ignored. The project was sold to a new federal funding agency, the Advanced Research Projects Agency (ARPA), which was interested, in part at least, because ballistic missiles traveled through the ionosphere and it was important to fully understand that environment. Gordon’s original calculation contained a remarkably beneficial error. Without it, it is doubtful that such a large dish would have been built
Formal verification and testing: An integrated approach to validating Ada programs
An integrated set of tools called a validation environment is proposed to support the validation of Ada programs by a combination of methods. A Modular Ada Validation Environment (MAVEN) is described which proposes a context in which formal verification can fit into the industrial development of Ada software
PUBLIC POLICY EDUCATION: A CHALLENGE FOR THE 90'S
Teaching/Communication/Extension/Profession,
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