14,399 research outputs found
Diatomic infrared gasdynamic laser permits selection of wavelengths
Laser utilizes infrared-active diatomic gas which emits laser energy from numerous upper vibrational levels. Wavelengths depend on particular vibration-rotation transitions and have been obtained throughout the band between 4.78 and 5.4 microns, for example, when using carbon monoxide
Quasiequational Theories of Flat Algebras
We prove that finite flat digraph algebras and, more generally, finite compatible flat algebras satisfying a certain condition are finitely q-based (possess a finite basis for their quasiequations). We also exhibit an example of a twelve-element compatible flat algebra that is not finitely q-based
Validation of the communications link analysis and simulation system (CLASS)
CLASS (Communication Link Analysis and Simulation System) is a software package developed for NASA to predict the communication and tracking performance of the Tracking and Data Relay Satellite System (TDRSS) services. The methods used to verify CLASS are described. The usefulness of a software tool such as CLASS depends strongly on the reliability and accuracy of the results it produces. For this reason, considerable attention was paid to validation throughout the CLASS development
Review of ride quality technology needs of industry and user groups
A broad survey of ride quality technology state-of-the-art and a review of user evaluation of this technology were conducted. During the study 17 users of ride quality technology in 10 organizations representing land, marine and air passenger transportation modes were interviewed. Interim results and conclusions of this effort are reported
Comparing Tests of Autoregressive Versus Moving Average Errors in Regression Models Using Bahadur's Asymptotic Relative Efficiency,
The purpose of this paper is to use Bahadur's asymptotic relative efficiency measure to compare the performance of various tests of autoregressive (AR) versus moving average (MA) error processes in regression models. Tests to be examined include non-nested procedures of the models against each other, and classical procedures based upon testing both the AR and MA error processes against the more general autoregressive-moving average model.
Antiferromagnetism and Superconductivity in layered organic conductors: Variational cluster approach
The -(ET)X layered conductors (where ET stands for BEDT-TTF) are
studied within the dimer model as a function of the diagonal hopping
and Hubbard repulsion . Antiferromagnetism and d-wave superconductivity are
investigated at zero temperature using variational cluster perturbation theory
(V-CPT). For large , N\'eel antiferromagnetism exists for ,
with . For fixed , as is decreased (or pressure
increased), a superconducting phase appears. When is
decreased further, the a order takes over. There is a critical value
of of beyond which the AF and dSC phases are separated
by Mott disordered phase.Comment: 4 pages, 4 figures. Investigation of the d_xy phase added +
discussion of gap symmetr
Two-photon excitation of nitric oxide fluorescence as a temperature indicator in unsteady gas-dynamic processes
A laser induced fluorescence technique, suitable for measuring fluctuating temperatures in cold turbulent flows containing very low concentrations of nitric oxide is described. Temperatures below 300 K may be resolved with signal to noise ratios greater than 50 to 1 using high peak power, tunable dye lasers. The method relies on the two photon excitation of selected ro-vibronic transitions. The analysis includes the effects of fluorescence quenching and shows the technique to be effective at all densities below ambient. Signal to noise ratio estimates are based on a preliminary measurement of the two photon absorptivity for a selected rotational transition in the NO gamma (0,0) band
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