High-extraction efficiency annular resonator

US 4,744,090 A
Filed: 07/08/1985
Issued: 05/10/1988
Est. Priority Date: 07/08/1985
Status: Expired due to Term

First Claim

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1. An annular resonator for a high-energy laser, the resonator having high extraction efficiency, and comprising:

an axicon having coaxial outer and inner conical reflector elements, the outer conical reflector element being positioned to receive an annular beam passing through an annular gain region and to reflect the annular beam toward the inner element as a generally radial beam;

a scraper mirror coaxial with the axicon, for receiving a cylindrical beam from the inner conical reflector element, reflecting a feedback beam back to the inner conical reflector element, and for allowing an out-coupled beam to pass out of the resonator; and

a rear mirror system, for everting a received annular beam received from the axicon and reflecting it back along an annular path, the rear mirror system also including means for inverting the received annular beam about its optical axis, such that the outermost rays in the annular beam received from the axicon are reflected as the innermost rays, and vice versa;

and wherein the inner conical reflector element is positioned to intercept and compact no more than about half of the radial beam reflected from the outer conical reflector element, wherein the remaining portion not intercepted passes diametrically across the outer conical reflector element and makes two further passes through the gain region before being intercepted and compacted by the inner conical reflector element, and wherein light in the feedback beam makes a total of at least four passes through the gain region before becoming available for out-coupling from the resonator.

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Abstract

A standing-wave annular laser resonator providing high energy extraction efficiency and good beam quality without the need for polarization coatings. The resonator includes an axicon, a scraper mirror, and a rear mirror system. A critical feature of the configuration is that the axicon has an inner conical mirror of which the apex is offset from the usual position, such that a radial beam reflected from an outer conical mirror has one portion that bypasses the inner mirror without impinging on it. This portion of the radial beam is reflected back along an annular path and makes two more passes through an annular gain region before becoming available for outcoupling around the scraper mirror. The rear mirror system retroreflects and annular beam back on itself in inverted form, without introducing any polarization mixing. The rear mirror system may take the form of a conical mirror and a plane back mirror, or a concave retroreflecting cone, or a convexly curved conical mirror and a concavely curved back mirror.

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16 Claims

1. An annular resonator for a high-energy laser, the resonator having high extraction efficiency, and comprising:
- an axicon having coaxial outer and inner conical reflector elements, the outer conical reflector element being positioned to receive an annular beam passing through an annular gain region and to reflect the annular beam toward the inner element as a generally radial beam;
  
  a scraper mirror coaxial with the axicon, for receiving a cylindrical beam from the inner conical reflector element, reflecting a feedback beam back to the inner conical reflector element, and for allowing an out-coupled beam to pass out of the resonator; and
  
  a rear mirror system, for everting a received annular beam received from the axicon and reflecting it back along an annular path, the rear mirror system also including means for inverting the received annular beam about its optical axis, such that the outermost rays in the annular beam received from the axicon are reflected as the innermost rays, and vice versa;
  
  and wherein the inner conical reflector element is positioned to intercept and compact no more than about half of the radial beam reflected from the outer conical reflector element, wherein the remaining portion not intercepted passes diametrically across the outer conical reflector element and makes two further passes through the gain region before being intercepted and compacted by the inner conical reflector element, and wherein light in the feedback beam makes a total of at least four passes through the gain region before becoming available for out-coupling from the resonator.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. An annular resonator as set forth in claim 1, wherein:
    - the axicon is a waxicon.
  - 3. An annular resonator as set forth in claim 1, wherein:
    - the axicon is a reflaxicon.
  - 4. An annular resonator as set forth in claim 1, wherein:
    - the rear mirror system includes a conical mirror and a symmetrically located plane back mirror, whereby an annular beam is reflected first from the conical mirror, then from the plane mirror, and finally from the conical mirror again, to emerge as an everted annular beam.
  - 5. An annular resonator as set forth in claim 2, wherein:
    - the rear mirror system includes a conical mirror and a symmetrically located plane back mirror, whereby an annular beam is reflected first from the conical mirror, then from the plane mirror, and finally from the conical mirror again, to emerge as an everted annular beam.
  - 6. An annular resonator as set forth in claim 3, wherein:
    - the rear mirror system includes a conical mirror and a symmetrically located plane back mirror, whereby an annular beam is reflected first from the conical mirror, then from the plane mirror, and finally from the conical mirror again, to emerge as an everted annular beam.
  - 7. An annular resonator as set forth in claim 2, wherein:
    - the rear mirror system includes a concave retroreflecting cone.
  - 8. An annular resonator as set forth in claim 3, wherein:
    - the rear mirror system includes a convexly curved conical mirror and a concavely curved, symmetrically located back mirror with a hole in its center to alleviate line focus problems; and
      
      the reflaxicon includes an inner concavely curved conical mirror, an outer convexly curved conical mirror positioned to reflect an outer portion of an annular beam to the inner conical mirror, and a corner cube mirror positioned to retroreflect the inner portion of the annular beam back on itself without polarization mixing;
      
      whereby the curvature of the rear mirror system elements and the inner and outer mirrors of the reflaxicon minimize the adverse effects of intensely focused energy.

9. A standing-wave annular resonator for a high-energy laser, the resonator having high extraction efficiency, and comprising:
- an axicon having an outer element for converting between annular and radial beam configurations, and an inner element positioned to receive no more than about half of a radial beam from the outer element, the remainder of the radial beam passing diametrically across the inner element and impinging on the outer element again, the inner element operating to convert between radial and cylindrical beam configurations;
  
  a scraper mirror coaxial with the axicon, for out-coupling a portion of a cylindrical beam from the axicon, and reflecting another portion back to the axicon as a feedback beam;
  
  an annular gain region through which an annular beam from the axicon passes;
  
  rear mirror retroreflecting means, for receiving the annular beam and reflecting it as an everted beam, the rear mirror retroreflecting means also including means for inverting the received annular beam about its optical axis, such that the outermost rays in the annular beam received from the axicon are reflected as the innermost rays, and vice versa;
  
  wherein light from the feedback beam makes two passes through the gain region, then bypasses the inner element of the axicon, and makes two additional passes through the gain region, for a total of at least four passes through the gain region before being again reflected by the inner element of the axicon and becoming available for out-coupling from the resonator.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. A standing-wave annular resonator as set forth in claim 9, wherein:
    - the axicon is a waxicon.
  - 11. An annular resonator as set forth in claim 9, wherein:
    - the axicon is a reflaxicon.
  - 12. A standing-wave annular resonator as set forth in claim 9, wherein:
    - the rear mirror retroreflecting means includes a conical mirror and a symmetrically located plane back mirror, whereby an annular beam is reflected first from the conical mirror, then from the plane mirror, and finally from the conical mirror again, to emerge as an everted annular beam.
  - 13. A standing-wave annular resonator as set forth in claim 10, wherein:
    - the rear mirror retroreflecting means includes a conical mirror and a symmetrically located plane back mirror, whereby an annular beam is reflected first from the conical mirror, then from the plane mirror, and finally from the conical mirror again, to emerge as an everted annular beam.
  - 14. A standing-wave annular resonator as set forth in claim 11, wherein:
    - the rear mirror retroreflecting means includes a conical mirror and a symmetrically located plane back mirror, whereby an annular beam is reflected first from the conical mirror, then from the plane mirror, and finally from the conical mirror again, to emerge as an everted annular beam.
  - 15. A standing-wave annular resonator as set forth in claim 11, wherein:
    - the rear mirror retroreflecting means includes a concave retroreflecting cone.
  - 16. A standing-wave annular resonator as set forth in claim 11, wherein:
    - the rear mirror retroreflecting means includes a convexly curved conical mirror, symmetrically located back mirror with a hole in its center to alleviate line focus problems; and
      
      the reflaxicon includes an inner concavely curved conical mirror, an outer convexly curved conical mirror positioned to reflect an outer portion of an annular beam to the inner conical mirror, and a corner cube mirror positioned to retroreflect the inner portion of the annular beam back on itself without polarization mixing;
      
      whereby the curvature of the rear mirror system elements and the inner and outer mirrors of the reflaxicon minimize the adverse effects of intensely focused energy.

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Current Assignee
Northrop Grumman Corporation
Original Assignee
TRW Limited (Zeppelin - Stiftung der Stadt Friedrichshafen)
Inventors
Freiberg, Robert J.
Primary Examiner(s)
Davie, James W.
Assistant Examiner(s)
Epps, Georgia Y.

Application Number

US06/752,985
Time in Patent Office

1,037 Days
Field of Search

372/94, 372/95, 372/92, 372/98, 372/99, 372/107, 372/108, 372/93
US Class Current

372/94
CPC Class Codes

H01S 3/081 comprising three or more re...

High-extraction efficiency annular resonator

First Claim

2 Assignments

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Abstract

94 Citations

16 Claims

Specification

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High-extraction efficiency annular resonator

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

94 Citations

16 Claims

Specification

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