92,680 research outputs found
Plotter design simplifies determination of image sensor transfer characteristic
Transfer characteristic of vidicons and other image sensors are measured by light from a calibrated electroluminescent panel as a function of the current output of the image sensor. The plot of current output versus the calibrated light output is the transfer characteristic
Effective String Theory of Vortices and Regge Trajectories of Hybrid Mesons with Zero Mass Quarks
We show how a field theory containing classical vortex solutions can be
expressed as an effective string theory of long distance QCD describing the two
transverse oscillations of the string. We use the semiclassical expansion of
this effective string theory about a classical rotating string solution to
obtain Regge trajectories for mesons with zero mass quarks. The first
semiclassical correction adds the constant 1/12 to the classical Regge formula
for the angular momentum of mesons on the leading Regge trajectory. In D
spacetime dimensions, this additive constant is (D-2)/24. The excited states of
the rotating string give rise to daughter Regge trajectories determining the
spectrum of hybrid mesons.Comment: 12 pages, 2 figures, LaTeX, style file include
Remote Sensing of Snow Fields from Earth Satellites
Considerable effort has gone into snow line delineation using available satellite data. Furthermore, increasing emphasis is being put on automated extraction of such information and generation of a useable product for hydrologists. Implications are clear that the impact from future satellite and sensors systems will create an increased demand for computer processing before the data can be used by the hydrologist. If the coarse-resolution, broad spectral band data available from current satellites already create a demand by hydrologists for computer processing of the data, it is obvious there will be an even greater demand for computer analysis and evaluation when the future ERTS data become available
Large-scale erosional and depositional features of the Channeled Scabland
The channeled scabland is a great anastomosing complex of highly overfit stand channels eroded into the basalt bedrock and overlying sediments of the Columbia Plateau. Both the erosional and depositional bed forms in these channels are described according to a simple hierarchical classification. The catastrophic flood flows produced macroforms (scale controlled by channel width) through the erosion of rock and sediment and by deposition (bars). Mesoforms (scale controlled by channel depth) are also erosional and depositional
The Spokane flood controversy
An enormous plexus of proglacial channels that eroded into the loess and basalt of the Columbia Plateau, eastern Washington is studied. This channeled scabland contained erosional and depositional features that were unique among fluvial phenomena. Documentation of the field relationships of the region explains the landforms as the product of a relatively brief, but enormous flood, then so-called the Spokane flood
A New Global Geomorphology?
Geomorphology is entering a new era of discovery and scientific excitement centered on expanding scales of concern in both time and space. The catalysts for this development include technological advances in global remote sensing systems, mathematical modeling, and the dating of geomorphic surfaces and processes. Even more important are new scientific questions centered on comparative planetary geomorphology, the interaction of tectonism with landscapes, the dynamics of late Cenozoic climatic changes, the influence of cataclysmic processes, the recognition of extremely ancient landforms, and the history of the world's hydrologic systems. These questions all involve feedback relationships with allied sciences that have recently yielded profound developments
Paleohydraulics and hydrodynamics of Scabland floods
The last major episode of scabland flooding (approx. 18,000-13,000 years B.P.) left considerable high-water mark evidence in the form of: (1) eroded channel margins; (2) depositional features; (3) ice-rafter erratics; and (4) divide crossings. These were used to reconstruct maximum flood stages and water-surface gradients. Engineering hydraulic calculation procedures allowed the analyses of flood discharges and mean velocities from these data. Secondary flow phenomena, including various forms of vortices and flow separations, are considered to have been the principal erosive processes. The intense pressure and velocity gradients of vortices along the irregular channel boundaries produced the plucking-type erosion
Goddard research and engineering management exercise /GREMEX/
Computer assisted management simulation exercise for training of personnel as project manager
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