Ring laser
| Title: | Ring laser |
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| Patent Number: | 5,222,094 |
| Publication Date: | June 22, 1993 |
| Appl. No: | 07/777,239 |
| Application Filed: | November 13, 1991 |
| Abstract: | A ring laser (10) incorporates a laser rod (R) with end faces (R.sub.1, R.sub.2). The first face (R.sub.1) is coated for high reflectivity at the laser wavelength and the second (R.sub.2) for high transmission at this wavelength. The first face (R.sub.1) provides one cavity end mirror, and a concave mirror (M.sub.1) spaced apart from the rod (R) provides the other. A rhombic prism (P) between the rod (R) and mirror (M.sub.1) defines differing (figure of eight) forward and return paths (14 to 17, 18 to 21) for cavity radiation passing from one end mirror (R.sub.1 or M.sub.1) to the other and returning. The prism (P) presents Brewster's angle refracting surfaces. The second rod face (R.sub.2) is tilted to produce an optical path in two planes. A magnetic field (B) along the rod axis (R.sub.a) produces Faraday rotation of polarization. This counteracts rotation arising from non-coplanar optics for one direction of propagation around the laser cavity (10) but not the other. This produces unidirectional laser action. |
| Inventors: | Hanna, David C. (Hampshire, GB2); Clarkson, William A. (Hampshire, GB2) |
| Assignees: | The Secretary of State for Defence in Her Britannic Majesty's Government of the United Kingdom of Great Britain and Northern Ireland (London, GB2) |
| Claim: | We claim |
| Claim: | 1. A ring laser having a resonator cavity, said cavity defined by two end mirrors at mutually opposite ends of the cavity, and a gain medium within the cavity wherein said laser also includes at least one adjustable prism arranged between and adjustable with respect to both the end mirrors to enable establishment of said forward and return paths without altering the relative position of said two end mirrors to present low loss refracting surfaces and to, said at least one adjustable prism comprising means for defining differing forward and return paths through the prism for cavity radiation propagating from one end mirror to the other end mirror and returning. |
| Claim: | 2. A laser according to claim 1 wherein said laser further includes means for producing reciprocal and non-reciprocal polarization rotations which are mutually counteracting for one propagation direction around the cavity. |
| Claim: | 3. A laser according to claim 2 wherein said gain medium is a laser rod exhibiting the Faraday effect, and the non-reciprocal polarization rotating means is a magnetic field directed along an axis of the rod. |
| Claim: | 4. A laser according to claim 3 wherein one of said cavity end mirrors comprise a coated outer end face on the laser rod. |
| Claim: | 5. A laser according to claim 3 wherein said means for producing reciprocal polarization rotation comprises an inner rod end face inclined to the rod axis and arranged to produce a non-planar light path. |
| Claim: | 6. A laser according to claim 2, wherein said means for producing reciprocal polarization rotation comprises a prism inclination which is asymmetric with respect to a centre line of part of the cavity. |
| Claim: | 7. A laser according claim 1 further including two prisms arranged in series along the cavity for traversal in succession on both forward and return radiation paths. |
| Claim: | 8. A laser according to claim 7 wherein the two prisms are arranged to comprise a means for Q-switching and a means for frequency doubling, respectively, said two prisms being adjustable relative to both mirrors. |
| Claim: | 9. A ring laser, said laser comprising |
| Claim: | a resonator cavity having two ends; |
| Claim: | two end mirrors, one at each of said two ends of said resonator cavity; |
| Claim: | a gain medium within said cavity; and |
| Claim: | at least one prism, said prism being located between and adjustable with respect to said end mirrors, said prism presenting low loss refracting surfaces and said prism and end mirrors comprising a means for defining different forward and return paths for cavity radiation propagating from one end mirror to the other and returning, said prism being adjustable relative to both mirrors without altering relative position of said two end mirrors. |
| Current U.S. Class: | 372/94; 372/92; 372/66; 372/71; 372/108; 372/100; 359/669 |
| Current International Class: | H01S 3083 |
| Patent References Cited: | 3657733 April 1972 Shapiro et al. 4623225 November 1986 Forkner 4739507 April 1988 Byer et al. 4764933 August 1988 Kozlovsky et al. 4797896 January 1989 Kane 4829532 May 1989 Kane 5007065 April 1991 Trutna, Jr. 5052815 October 1991 Nightingale |
| Primary Examiner: | Scott, Jr., Leon |
| Attorney, Agent or Firm: | Nixon & Vanderhye |
| Accession Number: | edspgr.05222094 |
| Database: | USPTO Patent Grants |
| Language: | English |
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