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Inductively stabilized, long pulse duration transverse discharge apparatus

  • US 4,601,039 A
  • Filed: 09/01/1983
  • Issued: 07/15/1986
  • Est. Priority Date: 09/01/1983
  • Status: Expired due to Fees
First Claim
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1. An apparatus for producing a stable transverse electric discharge in a rare-gas halide laser medium such that a population inversion suitable for lasing is caused to occur, said apparatus comprising in combination:

  • a. first, substantially planar elongated electrode having a plurality of segments wherein each of said segments is individually associated with one terminal of an inductive element, a second terminal of each of said inductive elements being brought into electrical contact thereby forming a common bus, the combined electrical impedance of said plurality of inductive elements being significantly less than the electrical impedance of the laser medium involved in the electric discharge;

    b. a second substantially planar electrode spaced apart from said first electrode, said second electrode being disposed substantially parallel to said first electrode and being substantially coextensive therewith, said first electrode and said second electrode forming a first volume therebetween into which the laser medium can freely travel;

    c. means for establishing a potential difference between said common bus and said second electrode suitable for producing a first, controlled, pulse electric discharge in the laser medium in the first volume; and

    d. means for initiating the first electric discharge, whereby each of said inductive elements limits the rate of change of electric current passing through the electrode segment associated therewith, thereby significantly reducing the formation of arcs, whereby the combined inductance of said first electrode, said second electrode, said potential difference establishing means, said first electric discharge initiating means, and said plurality of inductive elements is sufficiently small that the first electric discharge takes place substantially within a time period of less than one microsecond, and whereby the quantity of electrical energy transferred to the laser medium is increased relative to that absorbed by said plurality of inductive elements.

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