TEA Laser configuration
First Claim
1. In a transverse excitation pulsed laser having two main electrodes defining a main discharge region and including an elongated envelope containing a gain medium, the improvement comprising:
- an insulating plate disposed longitudinally adjacent said main discharge region and having a first surface facing said discharge region;
a plurality of subsidiary electrodes disposed on said insulating plate, each of said subsidiary electrodes comprising a short metallic supporting element having a first end connected to said first surface of said insulating plate and a flange of a high melting point material disposed on a second end of said supporting element; and
means for producing a discharge between adjacent ones of said flanges prior to the main discharge.
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Accused Products
Abstract
A transverse excitation atmospheric pressure laser employing a preionizing flash board formed on one of the sides of the laser tube. The side wall of the laser tube acts as an insulating support plate having a backing plate on the outside surface and a set of subsidiary electrodes on the inside surface. The subsidiary electrodes are short cylinders bonded to the inside surface of the support plate and having a flanged portion at the opposite end. The preionizing discharge takes place between adjacent subsidiary electrodes in the region between the flanged portions and is thus removed from the support plate. The material for the flanged portions has a high melting point and a low sputtering capability.
A U-shaped enclosure provides a grounded housing for all the high voltage components and also provides a path for the discharge currents.
9 Citations
12 Claims
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1. In a transverse excitation pulsed laser having two main electrodes defining a main discharge region and including an elongated envelope containing a gain medium, the improvement comprising:
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an insulating plate disposed longitudinally adjacent said main discharge region and having a first surface facing said discharge region; a plurality of subsidiary electrodes disposed on said insulating plate, each of said subsidiary electrodes comprising a short metallic supporting element having a first end connected to said first surface of said insulating plate and a flange of a high melting point material disposed on a second end of said supporting element; and means for producing a discharge between adjacent ones of said flanges prior to the main discharge. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A TEA laser system comprising:
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a gain medium; means for defining an optical resonant cavity; a pair of transverse main electrodes; a plurality of subsidiary electrodes disposed longitudinally adjacent to a main discharge region defined by said main electrodes, each of said subsidiary electrodes comprising a short metal supporting element having a flange of a high melting point material toward the main discharge region; an elongated envelope substantially rectangular in cross-section containing said gain medium and supporting said cavity defining means, said main electrodes and said subsidiary electrodes; pulse forming means for producing a main discharge; means for coupling said pulse forming means to said subsidiary and main electrodes; and a container for housing said pulse forming means and said elongated envelope. - View Dependent Claims (10, 11, 12)
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Specification