6,460 research outputs found
Using Two-jet Events to Understand Hadronization
While the hard phase of the strong interaction is well described by
perturbative QCD, the soft hadronization phase is less understood. Benefiting
from the high statistics from e+e- experiments at the Z0 resonance, it is
possible to impose strong two-jet cuts on the data without loosing the
statistical significance. In these events perturbative activity is suppressed
and hadronization effects can be more prominent. We show that after proper
event cuts a set of observables are sensitive to differences in the
hadronization models. These observables can thus be important tools for a more
detailed study of the hadronization mechanism.Comment: 18 pages, 6 ps figure
Research pressure instrumentation for NASA Space Shuttle main engine, modification no. 5
The purpose of Modification No. 5 of this contract is to expand the scope of work (Task C) of this research study effort to develop pressure instrumentation for the SSME. The objective of this contract (Task C) is to direct Honeywell's Solid State Electronics Division's (SSED) extensive experience and expertise in solid state sensor technology to develop prototype pressure transducers which are targeted to meet the SSME performance design goals and to fabricate, test and deliver a total of 10 prototype units. SSED's basic approach is to effectively utilize the many advantages of silicon piezoresistive strain sensing technology to achieve the objectives of advanced state-of-the-art pressure sensors in terms of reliability, accuracy and ease of manufacture. More specifically, integration of multiple functions on a single chip is the key attribute of this technology which will be exploited during this research study
Research pressure instrumentation for NASA Space Shuttle main engine, modification no. 5
The objective of the research project described is to define and demonstrate methods to advance the state of the art of pressure sensors for the space shuttle main engine (SSME). Silicon piezoresistive technology was utilized in completing tasks: generation and testing of three transducer design concepts for solid state applications; silicon resistor characterization at cryogenic temperatures; experimental chip mounting characterization; frequency response optimization and prototype design and fabrication. Excellent silicon sensor performance was demonstrated at liquid nitrogen temperature. A silicon resistor ion implant dose was customized for SSME temperature requirements. A basic acoustic modeling software program was developed as a design tool to evaluate frequency response characteristics
Research pressure instrumentation for NASA space shuttle main engine
The breadboard feasibility model of a silicon piezoresistive pressure transducer suitable for space shuttle main engine (SSME) applications was demonstrated. The development of pressure instrumentation for the SSME was examined. The objective is to develop prototype pressure transducers which are targeted to meet the SSME performance design goals and to fabricate, test and deliver a total of 10 prototype units. Effective utilization of the many advantages of silicon piezoresistive strain sensing technology to achieve the objectives of advanced state-of-the-art pressure sensors for reliability, accuracy and ease of manufacture is analyzed. Integration of multiple functions on a single chip is the key attribute of the technology
Global dispersive solutions for the Gross-Pitaevskii equation in two and three dimensions
We study asymptotic behaviour at time infinity of solutions close to the
non-zero constant equilibrium for the Gross-Pitaevskii equation in two and
three spatial dimensions. We construct a class of global solutions with
prescribed dispersive asymptotic behavior, which is given in terms of the
linearized evolution
Research pressure instrumentation for NASA Space Shuttle main engine, modification no. 5
The advantages of silicon piezoresistive strain sensing technology are being used to achieve the objectives of state of the art pressure sensors for SSME applications. The integration of multiple functions on a single chip is the key attribute being exploited. Progress is reported in transducer packaging and materials; silicon resistor characterization at cryogenic temperatures; chip mounting; and frequency response optimization
Nondiffusive suprathermal ion transport in simple magnetized toroidal plasmas
We investigate suprathermal ion dynamics in simple magnetized toroidal
plasmas in the pres- ence of electrostatic turbulence driven by the ideal
interchange instability. Turbulent fields from fluid simulations are used in
the non-relativistic equation of ion motion to compute suprathermal tracer ion
trajectories. Suprathermal ion dispersion starts with a brief ballistic phase,
during which particles do not interact with the plasma, followed by a
turbulence interaction phase. In this one simple system, we observe the entire
spectrum of suprathermal ion dynamics, from subdiffusion to superdiffusion,
depending on beam energy and turbulence amplitude. We estimate the duration of
the ballistic phase and identify basic mechanisms during the interaction phase
that determine the character of suprathermal ion dispersion upon the beam
energy and turbulence fluctuation amplitude.Comment: 5 pages, 3 figures, accepted in PR
The Feynman-Wilson gas and the Lund model
We derive a partition function for the Lund fragmentation model and compare
it with that of a classical gas. For a fixed rapidity ``volume'' this partition
function corresponds to a multiplicity distribution which is very close to a
binomial distribution. We compare our results with the multiplicity
distributions obtained from the JETSET Monte Carlo for several scenarios.
Firstly, for the fragmentation vertices of the Lund string. Secondly, for the
final state particles both with and without decays.Comment: Latex, 21+1 pages, 11 figure
New shield for gamma-ray spectrometry
Gamma-ray shield that can be evacuated, refilled with a clean gas, and pressurized for exclusion of airborne radioactive contaminants effectively lowers background noise. Under working conditions, repeated evacuation and filling procedures have not adversely affected the sensitivity and resolution of the crystal detector
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