13,733 research outputs found
Excitation of atomic hydrogen to the metasable 2 2S1/2 state by electron impact
Atomic hydrogen excitation to metastable 2 /2/ S sub 1/2 state by electron impac
Polarization of Lyman alpha radiation emitted by H/2S/ atoms in weak electric fields
Polarization prediction in modulated beam of ground state hydrogen atoms crossed by dc electron bea
Entry-Level Competencies of New Student Affairs Professionals: A Delphi Study
The study examines the perceptions of 104 mid- and senior-level student affairs administrators of positions, responsibilities, competencies, and theories important for professional practice for new student affairs professionals. In regard to competencies, the results of this study provide important information about preprofessional abilities that are integral to professional practice, and participants also identified several competencies not identified in prior research that may be important to positions involving high contact with students. These results, then, provide vital information for curriculum development in graduate preparation programs and for professional development training for new professionals
Rectenna system design
The function of the rectenna in the solar power satellite system is described and the basic design choices based on the desired microwave field concentration and ground clearance requirements are given. One important area of concern, from the EMI point of view, harmonic reradiation and scattering from the rectenna is also designed. An optimization of a rectenna system design to minimize costs was performed. The rectenna cost breakdown for a 56 w installation is given as an example
Noise-enhanced trapping in chaotic scattering
We show that noise enhances the trapping of trajectories in scattering
systems. In fully chaotic systems, the decay rate can decrease with increasing
noise due to a generic mismatch between the noiseless escape rate and the value
predicted by the Liouville measure of the exit set. In Hamiltonian systems with
mixed phase space we show that noise leads to a slower algebraic decay due to
trajectories performing a random walk inside Kolmogorov-Arnold-Moser islands.
We argue that these noise-enhanced trapping mechanisms exist in most scattering
systems and are likely to be dominant for small noise intensities, which is
confirmed through a detailed investigation in the Henon map. Our results can be
tested in fluid experiments, affect the fractal Weyl's law of quantum systems,
and modify the estimations of chemical reaction rates based on phase-space
transition state theory.Comment: 5 pages, 5 figure
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