Accession Number : ADA256779


Title :   Ferrite Research Aimed at Improving Induction Linac Driven FEL performance. Phase 2


Descriptive Note : Final rept. 15 Sep 1990-30 Sep 1992


Corporate Author : SCIENCE RESEARCH LAB INC SOMERVILLE MA


Personal Author(s) : Birx, Daniel


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a256779.pdf


Report Date : Oct 1992


Pagination or Media Count : 299


Abstract : The primary goal of this program was to improve the performance of induction accelerators with particular regards to their being used to drive FELs. The strategy for achieving this end was to first optimize the nonlinear magnetic material used in induction accelerator construction and secondly to optimize the design in terms of cost, size and efficiency. We began this research effort with an in depth study into the properties of various nonlinear magnetic materials (e.g. various ferrite composites, Metglas (an amorphous tape composed of steel and glass), and more conventional magnetic materials such as 50/50 Ni-Fe tapes). An all-solid-state, nonlinear magnetic pulse compressor, denoted SNOMAD-V was constructed for this purpose. As more information was obtained the design was optimized with the aim of producing as short an output pulse as possible. This unique pulse generator was finally proven capable of producing gigawatt pulses as short as 2 nanoseconds in duration with risetimes less than 150 picoseconds at repetition rates as high as 10 kHz.


Descriptors :   *PULSED LASERS , *FREE ELECTRON LASERS , *PULSE COMPRESSION , *NONLINEAR SYSTEMS , *MAGNETIC MATERIALS , *ELECTRON ACCELERATORS , *FERRITES , REPETITION RATE , WATER , ANTENNAS , NICKEL ALLOYS , SHORT PULSES , IRON ALLOYS , TAPES , GLASS , STEEL , PULSE GENERATORS , DYNAMIC RESPONSE


Subject Categories : Lasers and Masers
      Electricity and Magnetism
      Particle Accelerators


Distribution Statement : APPROVED FOR PUBLIC RELEASE