Two-Stream Instability Model With Electrons Trapped in Quadrupoles

We formulate the theory of the two-stream instability (e-cloud instability) with electrons trapped in quadrupole magnets. We show that a linear instability theory can be sensibly formulated and analyzed. The growth rates are considerably smaller than the linear growth rates for the two-stream instability in drift spaces and are close to those actually observed

Transfer from Verbal to lVIotor Responses of Different Degrees of Concordance

The purpose of this study was to determine whether or not performance on a complex perceptual-motor task (available on the Star Discrimeter) is differentially affected by the previous learning of verbal responses which are differentially concordant with the required motor responses

Electron Cloud Effects in High-Intensity Proton Accelerators

One of the primary concerns in the design and operation of high-intensity proton synchrotrons and accumulators is the electron cloud and associated beam loss and instabilities. Electron-cloud effects are observed at high-intensity proton machines like the Los Alamos National Laboratory's PSR and CERN's SPS, and investigated experimentally and theoretically. In the design of next-generation high-intensity proton accelerators like the Spallation Neutron Source ring, emphasis is made in minimizing electron production and in enhancing Landau damping. This paper reviews the present understanding of the electron-cloud effects and presents mitigation measures

Ultracold atom-molecule collisions with fermionic atoms

Elastic and inelastic properties of weakly bound s- and p-wave molecules of fermionic atoms that collide with a third atom are investigated. Analysis of calculated collisional properties of s-wave dimers of fermions in different spin states permit us to compare and highlight the physical mechanisms that determine the stability of s-wave and p-wave molecules. In contrast to s-wave molecules, the collisional properties of p-wave molecules are found to be largely insensitive to variations of the p-wave scattering length and that these collisions will usually result in short molecular lifetimes. We also discuss the importance of this result for both theories and experiments involving degenerate Fermi gases.Comment: 6 pages, 2 figure

Uses Genres and Media Ensembles : A Conceptual Roadmap for Research of Convergent Audiences

This chapter tackles one of the main methodological and conceptual challenges to current audience research: fragmentation of viewers’ practices of reception. The use of digital and networked media and the consequent multiplication of screens, distribution channels and content sources have further complicated the notion of “watching television” and, along with that, academic and applied audience research. The chapter reintroduces Maria Bakardjieva’s concept of uses genres and connects it with the concept of media ensemble, suggesting that for research on the domestic consumption of films and TV series, the application of these concepts in qualitative (ethnographic) research and in audience surveys comes with strong advantages. Firstly, the concepts help to identify distinct types of consumption practices linked with specific technological objects, with specific audiovisual content and with typical everyday situations, and they enable us to analyze consumption explicitly within the contexts of the spatiotemporal and social organization of everyday life. Secondly, in cases of small- and peripheral-market audiences, the concepts enable us to identify specifics in audiences’ practices linked with the characteristics of these markets (e.g., with localized and non-localized content, with domestic and global production, etc.). And thirdly, the concepts explicitly acknowledge power both involved in and shaping the analyzed practices by emphasizing the “generative process of technology,” i.e., the transformative role of users’ practices in shaping technological and economic systems

Low-energy three-body dynamics in binary quantum gases

The universal three-body dynamics in ultra-cold binary Fermi and Fermi-Bose mixtures is studied. Two identical fermions of the mass $m$ and a particle of the mass $m_1$ with the zero-range two-body interaction in the states of the total angular momentum L=1 are considered. Using the boundary condition model for the s-wave interaction of different particles, both eigenvalue and scattering problems are treated by solving hyper-radial equations, whose terms are derived analytically. The dependencies of the three-body binding energies on the mass ratio $m/m_1$ for the positive two-body scattering length are calculated; it is shown that the ground and excited states arise at $m/m_1 \ge \lambda_1 \approx 8.17260$ and $m/m_1 \ge \lambda_2 \approx 12.91743$, respectively. For m/m_1 \alt \lambda_1 and m/m_1 \alt \lambda_2, the relevant bound states turn to narrow resonances, whose positions and widths are calculated. The 2 + 1 elastic scattering and the three-body recombination near the three-body threshold are studied and it is shown that a two-hump structure in the mass-ratio dependencies of the cross sections is connected with arising of the bound states.Comment: 16 page