By Bratelli
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Additional resources for Operator Algebras and Quantum Statistical Mechanics Vol 2
Example text
Thermocouples were also necessary for the steady state temperature measurement of the surfaces The emissivity of the surface is given by: e s = 1 Ais + M ! ^ ) (1) f^I s a is the difference in radiation intensity between the surface and the reference, is e the reference emissivity and I„, I and I the radiation intensity of the reference, r R s a where A surface and surroundings respectively, which are obtained from the camera calibration and the steady state temperatures. THE ENERGY FLUX COMPUTATIONS The surface temperature 6(t) for an energy flux F(t) j>er unit time per unit area for a semi-infinite solid has been given by Carslaw and Jaeger'^-1: 9(t) For the s u r f a c e = —, J F(t-i) e x p h ^ - ) ^ (2) t e m p e r a t u r e , x - o , (2) becomes: e(t) = I where K i s the thermal c o n d u c t i v i t y , p the d e n s i t y and c the s p e c i f i c h e a t of the m a t e r i a l used.
V. are also reduced, but only by 70%, while the dominant oxygen emission decreases by only 30%. These smaller changes are difficult to interpret with con- fidence. Reduced interaction of diverted discharges with the walls is demonstrated by the H 0/ emission (Fig. 9)- The absence of the usual peak in I (r) corresponds to a reduced slow neutral flux from the wall, presumably because the incident power is reduced. 19 m ) . 8 T M eV 6e eff For this diverted discharge, the value quoted for a and the value quoted for q(a ) is q(a ) .
Paul, A. Pospieszczyk*, R. R. Summers Culham Laboratory, Abingdon, Oxon, 0X1^ 3DB, UK (Euratom/UKAEA Fusion Association) ABSTRACT Experimental results from DITE are reviewed, with particular emphasis on the study of plasma-wall interactions. The energy and particle fluxes to the walls and limiters, and the return flux of particles into the discharge, have been measured by several methods. The effect of the bundle divertor on these fluxes, and the resulting changes in the plasma parameters are discussed.