Open AccessRadial electric field 3D modeling for wire arrays driving dynamic hohlraums on Z.
Author(s) -
Raymond Cecil Mock
Publication year - 2007
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/909913
Subject(s) - hohlraum , anode , cathode , electric field , materials science , optics , field (mathematics) , symmetry (geometry) , physics , electrical engineering , electrode , engineering , geometry , laser , mathematics , quantum mechanics , pure mathematics
The anode-cathode structure of the Z-machine wire array results in a higher negative radial electric field (Er) on the wires near the cathode relative to the anode. The magnitude of this field has been shown to anti-correlate with the axial radiation top/bottom symmetry in the DH (Dynamic Hohlraum). Using 3D modeling, the structure of this field is revealed for different wire-array configurations and for progressive mechanical alterations, providing insight for minimizing the negative Er on the wire array in the anode-to-cathode region of the DH. Also, the 3D model is compared to Sasorov's approximation, which describes Er at the surface of the wire in terms of wire-array parameters
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