92 research outputs found
Determination of the radial profile of the photoelastic coefficient of plastic optical fibers
We developed a measurement method to determine the radial distribution of the photoelastic coefficient C(r) in step-index polymer optical fibers (POFs). The method is based on the measurement of the retardance profile of a transversally illuminated fiber for increasing tensile load. The radial profile C(r) is obtained from the inverse Abel transform of this retardance profile. We measured polymer fibers from different manufacturers. The radial profile of the photoelastic constant can considerable vary depending on the type and treatment of POFs, even when made from similar materials, which leads to the conclusion that the photoelastic constant should be characterized for each different type of POF. The impact of annealing the fiber samples on C(r) is also addressed
Coastal Ocean Processes : a science prospectus
CoOP (Coastal Ocean Processes) is an organization meant to study major interdisciplinary scientific
problems in the coastal ocean. Its goal is "to obtain a new level of quantitative understanding of the processes
that dominate the transformations, transport and fates of biologically, chemically and geologically important matter on the continental margin". Central to obtaining this understanding will be advances in observing and
modeling the cross-shelf component of transport. More specific objectives are to understand 1) cross-margin
exchanges, 2) air sea exchanges, 3) benthic-pelagic exchanges, 4) terrestrial inputs and 5) biological and
chemical transformations within the water column. CoOP research will be carried out primarly through a
series of process-oriented field studies, each involving about two years of measurements. Each of these field
studies is to be initiated and defined through a community workshop. In addition to the process studies, CoOP
will also involve modeling, long time series, exploratory studies, remote sensing, technological innovation, data
archiving and communications. A CoOP pilot study has been approved for funding by the National Science
Foundation, and funding will begin in 1992. The CoOP science effort is thus already underway.Funding was provided by the National Science Foundation under
Grant No. OCE-9108993
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Impact of future climate changes on high pollution levels
Changes in climate variability as well as changes in extreme weather and climate events in the 20th century, especially those that took place during the last two to three decades of the 20th century, have been discussed in many recent scientific publications. Attempts to project the results of such studies in the future have been made under different assumptions. In this paper, we have chosen one of the well-known scenarios predicting changes of the climate in the world during the last 30 years of the 21st century. This scenario is used, together with several general predictions related to the future climate, to produce three climatic scenarios. The derived climatic scenarios are used to calculate predictions for future pollution levels in Denmark and in Europe by applying the Unified Danish Eulerian Model (UNI-DEM), on a space domain containing the whole of Europe
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