Ablation and Implosion Dynamics Of Coiled Wire Arrays

Gareth Hall; Sergey Lebedev; Simon Bland; Jeremy Chittenden; Francisco Suzuki-Vidal; Philip de Grouchy; Adam Harvey-Thompson; George Swadling; Guy Burdiak; Louisa Pickworth; Essa Khoory; Jonathan Skidmore; Lee Suttle; Nicolas Niasse; Kwek Hiang

Ablation and Implosion Dynamics Of Coiled Wire Arrays

POSTER

Abstract

Coiled arrays, a cylindrical array in which each wire is formed into a single helix, suppress the modulation of ablation at the fundamental wavelength. Instead, ablation flow is modulated at the wavelength of the coil, and arrays with large coil wavelength produce an organized mode of implosion in which the global instability can be controlled. The ablation and implosion dynamics of coiled arrays in this regime were studied using a combination of resistive voltage probes and Faraday rotation. These experiments were carried out on the MAGPIE generator at Imperial College. This research was sponsored by the DOE under Cooperative Agreements DE-F03-02NA00057 and the Imperial College Junior Research Fellowship scheme.

Authors

Gareth Hall
- Imperial College, London
Sergey Lebedev
- Imperial College, London
- Imperial College
Simon Bland
- Imperial College, London
Jeremy Chittenden
- Imperial College, London
Francisco Suzuki-Vidal
- Imperial College, London
- Imperial College London
Philip de Grouchy
- Imperial College, London
Adam Harvey-Thompson
- Imperial College, London
George Swadling
- Imperial College, London
Guy Burdiak
- Imperial College, London
Louisa Pickworth
- Imperial College, London
Essa Khoory
- Imperial College, London
Jonathan Skidmore
- Imperial College, London
Lee Suttle
- Imperial College, London
Nicolas Niasse
- Imperial College, London
Kwek Hiang
- University of Malaya