39,439 research outputs found
Ascent control analysis for S-II derivative launch vehicles, digital computer program
Model is used for analysis of the six degrees-of-freedom dynamics of general launch vehicle during atmospheric boost. Equations of motion are developed for rigid body and flat earth. Case may be started at any time beginning with ignition of stage and may be ended upon, or prior to, stage burnout. End of case may be at a specified time or based on propellant expended
How do sound waves in a Bose-Einstein condensate move so fast?
Low-momentum excitations of a dilute Bose-Einstein condensate behave as
phonons and move at a finite velocity v_s. Yet the atoms making up the phonon
excitation each move very slowly; v_a = p/m --> 0. A simple "cartoon picture"
is suggested to understand this phenomenon intuitively. It implies a relation
v_s/v_a = N_ex, where N_ex is the number of excited atoms making up the phonon.
This relation does indeed follow from the standard Bogoliubov theory.Comment: 6 pages, 2 figures (.eps), LaTeX2e. More introductory discussion
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Embedding of bases: from the M(2,2k+1) to the M(3,4k+2-delta) models
A new quasi-particle basis of states is presented for all the irreducible
modules of the M(3,p) models. It is formulated in terms of a combination of
Virasoro modes and the modes of the field phi_{2,1}. This leads to a fermionic
expression for particular combinations of irreducible M(3,p) characters, which
turns out to be identical with the previously known formula. Quite remarkably,
this new quasi-particle basis embodies a sort of embedding, at the level of
bases, of the minimal models M(2,2k+1) into the M(3,4k+2-delta) ones, with 0
\leq delta \leq 3.Comment: corrected a typo in the title, 7 page
On the interactions between molecules in an off-resonant laser beam:Evaluating the response to energy migration and optically induced pair forces
Electronically excited molecules interact with their neighbors differently from their ground-state counterparts. Any migration of the excitation between molecules can modify intermolecular forces, reflecting changes to a local potential energy landscape. It emerges that throughput off-resonant radiation can also produce significant additional effects. The context for the present analysis of the mechanisms is a range of chemical and physical processes that fundamentally depend on intermolecular interactions resulting from second and fourth-order electric-dipole couplings. The most familiar are static dipole-dipole interactions, resonance energy transfer (both second-order interactions), and dispersion forces (fourth order). For neighboring molecules subjected to off-resonant light, additional forms of intermolecular interaction arise in the fourth order, including radiation-induced energy transfer and optical binding. Here, in a quantum electrodynamical formulation, these phenomena are cast in a unified description that establishes their inter-relationship and connectivity at a fundamental level. Theory is then developed for systems in which the interplay of these forms of interaction can be readily identified and analyzed in terms of dynamical behavior. The results are potentially significant in Förster measurements of conformational change and in the operation of microelectromechanical and nanoelectromechanical devices. © 2009 American Institute of Physics
The economic value of remote sensing of earth resources from space: An ERTS overview and the value of continuity of service. Volume 4: Forestry, wildlife and rangeland
The economic value of ERS information in the resource management area of extensive use of living resources, forestry, wildlife, and rangeland, is determined. Timber and forage resources are quantitatively evaluated. It is shown that these resources have economic value in the tens of billions of dollars, but the economic benefits of improved management of the forests and rangelands are not limited to efficiency in the production of these commercial resources. Multiple-use values including watershed, wildlife, and recreation are also involved
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