Coherent light generators – Particular active media – Liquid
Reexamination Certificate
2000-10-18
2002-08-20
Scott, Jr., Leon (Department: 2828)
Coherent light generators
Particular active media
Liquid
C372S034000, C372S075000, C372S078000
Reexamination Certificate
active
06438151
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of Endeavor
The present invention relates to a lasers, and more particularly to a system for wavefront correction in an ultra high power laser.
2. State of Technology
Ultra high power lasers suffer from thermally induced distortion of the optical wavefront caused by heating of the laser media by waste heat from the excitation process and absorption of laser radiation.
There are many applications ultra high power lasers. These applications include power beaming, laser guide stars, illuminators, material processing, and weapons. This type of laser utilizes a flowing lasing liquid that is optically excited to provide a powerful laser beam. Since the host is a liquid, it can be removed from the optical cavity when it becomes heated avoiding the inevitable optical distortion and birefringence common to glass and crystal hosts. This heat is deposited in the liquid and causes a small, but significant, change in the local index of refraction. As the fluid flows past the windows that allow the pump radiation to enter the gain volume, it integrates waste heat and exits the flow region at a slightly higher temperature than the inlet. This difference is less than a degree centigrade, but changes the optical path by many wavelengths of light. For uniform deposition of pump light, the change in index is linear causing a simple optical wedge to accumulate in the optical path.
A liquid laser is described in U.S. Pat. No. 3,717,825 to Carl Zeiss-Stiftung, Wuerttemburg, Federal Republic of Germany, patented Feb. 20, 1973. This patent includes the following description:“. . . a dyestuff laser provided with a liquid guiding chamber through which circulates a cooled laser liquid.
The laser is provided with a U-shaped laser active zone formed by a light transmitting longitudinal cap into which extends a tongue forming in said cap a U-shaped zone of uniform cross section. This U-shaped laser active zone is disposed in a focal line of an elliptically shaped pump light reflector while a source of pump light is disposed in the other focal line.”
U.S. Pat. No. 3,931,594 to Fritz Peter Schafer, assigned to Max-Planck-Gesellschaft zur Forderung der Wissenschaften e.V., patented Jan. 6, 1976, describes a transverse-flow cell for a laser. This patent includes the following description:“The cell of a liquid laser is defined between the rounded, parallel edges four coaxial cylinder sectors of fused quartz. The narrow gaps circumferentially bounded by the flat, converging side faces of the sectors provide conduits for rapid flow of dye liquid into and out of the cell which extend over the full axial length of the cell. The light of a flash tube is directed toward the cell through the cylindrically arcuate outer face of each sector.”
U.S. Pat. No. 3,678,410 to Robert C. Kocher, Franklin K. Moore, Harold Samelson, and William R. Watson, assigned to GTE Laboratories Incorporated, patented Jul. 18, 1972 describes a transverse flowing liquid laser. This patent includes the following description:“A laser cell for a transverse flow liquid laser has an active region in the form of a rectangular prism and cylindrical input and output chambers mounted in spaced-apart relationship in the transverse direction at opposite ends of the active region. A baffle positioned in the input chamber causes the liquid to flow uniformly through the active region.”
U.S. Pat. No. 5,189,681 to Paul Blaszuk, assigned to United Technologies Corporation, patented Feb. 23, 1993 describes a high powered laser with reduced optical aberration. This patent includes the following description:“a laser includes an optical cavity with opposed electrical excitation electrodes adjacent to the optical cavity extending along a portion of an optic axis. A gaseous gain medium is located in the optical cavity and has a first region at a first temperature and a second region adjacent to one of the electrodes at a second temperature. Also included is an unstable optical resonator assembly positioned within the optical cavity that has a first mirror positioned at a first end of the optical cavity that has a focus therein located along the optic axis. A second mirror is positioned opposed to the first mirror at a second end of the optical cavity. The second mirror has a focus within the optical cavity substantially at the first mirror focus. The first and second mirrors are configured to invert an optical beam transiting therebetween, thereby having the optical beam substantially avoid the second gaseous gain medium region.”
U.S. Pat. No. 4,707,836 to Alan J. B. Travis, assigned to United Kingdom Atomic Energy Authority, patented Nov. 17, 1987 describes a laser control system. This patent includes the following description:“For monitoring and controlling a laser beam, sample beams are monitored for three characteristics and the three monitor outputs are used to control the beam generation. The three characteristics monitored are the transverse distribution of energy within the beam (a) under far field conditions and (b) under near field conditions, and (c) total power within a known proportion of the beam. These are employed respectively to control (a) the position of a mirror which forms part of an optical cavity within the laser structure, (b) a beam pointing element, (c) a beam expander and (d) a power supply for the laser.”
SUMMARY OF THE INVENTION
Ultra high power lasers suffer from thermally induced distortion of the optical wavefront caused by heating of the laser media by waste heat from the excitation process and absorption of laser radiation. As the laser medium flows past the optical excitation source and the fluid warms, its index of refraction changes (positive or negative change) creating an optical wedge.
Thermally induced distortion of the optical wavefront caused by heating of the laser media by waste heat from the excitation process and absorption of laser radiation are corrected using the system of the present invention. The present invention provides a laser system having an optical cavity, a lasing liquid within said optical cavity, a laser pumping device within said optical cavity, and a circulation system for circulating said lasing liquid into and out of said optical cavity. The laser pumping device within said optical cavity produces thermally induced optical phase errors. A system is provided for correcting the thermally induced optical phase errors.
Additional aspects, advantages, and features of the invention are set forth in part in the following description. Various aspects, advantages, and features of the invention will become apparent to those skilled in the art upon examination of the description and by practice of the invention.
REFERENCES:
patent: 3678410 (1972-07-01), Kocher et al.
patent: 3717825 (1973-02-01), Gerlach
patent: 3931594 (1976-01-01), Schuefer
patent: 6339608 (2002-01-01), Ault
Ault Earl R.
Comaskey Brian J.
Kuklo Thomas C.
Jr. Leon Scott
Scott Eddie E.
The Regents of the University of California
Thompson Alan H.
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