Your search keyword '"N. Bogatu"' showing total 2 results

1. X-ray Ross filter method for impurity transport studies on DIII-D (abstract)

Author

N.H. Brooks, R. T. Snider, W.P. West, D. H. Egdell, J. Kim, I. N. Bogatu, and M. R. Wade

Subjects

Materials science, Tokamak, Argon, DIII-D, Divertor, chemistry.chemical_element, Plasma, Dissipation, Computational physics, law.invention, Core (optical fiber), chemistry, law, Plasma diagnostics, Atomic physics, Instrumentation

Abstract

The injection of Ar into the region of the DIII-D divertor is a promising technique for energy dissipation (through radiation and collisions) and consequently for reduction of the heat load on the plates. An important problem related to this technique, is the inherent poisoning of the core plasma by migrating Ar. The Ar core contamination seems also to improve the thermal transport in an advanced operating mode of the tokamak. It is therefore of great importance to measure the evolution of the impurity concentration profile within the core plasma. This goal could be achieved by using the Ross filter method in conjunction with the existing x-ray diagnostics on DIII-D. A basic Ross filter system consists of two identical detectors placed behind two different x-ray absorbing foils looking at the same plasma volume. The foils are made of different elements or compounds with adjacent or nearly adjacent atomic numbers. Their accurate thickness causes the x-ray transmission curves of the two foils to be effectiv...

Published

2001

2. Argon Kα measurement on DIII–D by Ross filters technique (abstract)

Author

N.H. Brooks, I. N. Bogatu, R. T. Snider, and M. R. Wade

Subjects

Materials science, Tokamak, Argon, DIII-D, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Divertor, chemistry.chemical_element, law.invention, chemistry, Physics::Plasma Physics, law, Radiative transfer, Emissivity, Electron temperature, Plasma diagnostics, Atomic physics, Instrumentation

Abstract

Techniques to reduce the heat flux to the divertor plates in tokamak power plants and the consequent erosion of, and subsequent damage to the divertor target plates include the injection of impurities such as argon, that can dissipate the energy (through radiative or collisional processes) before it reaches the target plates. An important issue with this type of scheme is poisoning of the plasma core by the impurities introduced in the divertor region. Subsequently, there is a desire to measure the profiles of the injected impurities in the core. X-ray Ross filters with an effective narrow band pass centered on the argon Kα line at 3.2 keV, have been installed on two of the existing x-ray arrays on DIII–D in order to help determine the argon concentration profiles. Emissivity profiles of the Kα lines and the emissivity profiles for the argon enhanced continuum can be inferred from the inverted filtered x-ray brightness signals if Te, ne, and Ar18+ profiles are known. The MISTReference 1 code is used to co...

Published

1999