IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0300531
(2011-11-18)
|
등록번호 |
US-8520713
(2013-08-27)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
2 |
초록
▼
An array of Surface Emitting Laser (SEL) elements can be used to efficiently pump a disk or rod of solid-state laser glass or crystal, or harmonic-generating crystal. Placing the laser array chip against or near the surface of this solid-state material provides very high and uniform optical power de
An array of Surface Emitting Laser (SEL) elements can be used to efficiently pump a disk or rod of solid-state laser glass or crystal, or harmonic-generating crystal. Placing the laser array chip against or near the surface of this solid-state material provides very high and uniform optical power density without the need for lenses or fiber-optics to conduct the light from typical edge-emitting lasers, usually formed in a stack of bars. The lasers can operate in multi-mode output for highest output powers. Photolithography allows for an infinite variety of connection patterns of sub-groups of lasers within the array, allowing for spatial contouring of the optical pumping power across the face of the solid-state material. The solid-state material may be pumped either within (intra-cavity) or externally (extra-cavity) to the SEL laser array.
대표청구항
▼
1. A pumped solid-state laser, comprising: a solid-state lasing material, the solid-state lasing material having a first side facing an addressable array of surface emitting laser (SEL) elements including a first set of one or more optical coatings that are transmissible to a pumping wavelength of t
1. A pumped solid-state laser, comprising: a solid-state lasing material, the solid-state lasing material having a first side facing an addressable array of surface emitting laser (SEL) elements including a first set of one or more optical coatings that are transmissible to a pumping wavelength of the array of SEL elements and reflective to a solid-state wavelength of the solid-state lasing material, the solid-state lasing material having a second side facing away from the array of SEL elements including a second set of one or more optical coatings that are transmissible to the solid-state wavelength and reflective to the pumping wavelength;a cavity mirror placed adjacent to the second side of the solid-state lasing material, the cavity mirror having an input side including a third set of one or more optical coatings that are transmissive to the solid-state wavelength and an output side including a fourth set of one or more optical coatings that are partially transmissive to the solid-state wavelength; andthe addressable array of SEL elements being arranged adjacent to the solid-state lasing material and configured to pump the solid-state lasing material to produce one or more laser beams as an output of the solid-state lasing material. 2. The pumped solid-state laser as recited in claim 1, wherein one or more SEL elements of the addressable array of SEL elements are configured to be addressed by a controller. 3. The pumped solid-state laser as recited in claim 1, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control an intensity profile of the one or more laser beams. 4. The pumped solid-state laser as recited in claim 1, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control a size of the one or more laser beams. 5. The pumped solid-state laser as recited in claim 1, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control a shape of the one or more laser beams. 6. The pumped solid-state laser as recited in claim 1, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control a propagation direction of the one or more laser beams. 7. The pumped solid-state laser as recited in claim 1, wherein the addressable array of SEL elements is a monolithic array. 8. A pumped solid-state laser, comprising: a solid-state lasing material, the solid-state lasing material having a first side facing an array of SEL elements including a first set of one or more optical coatings that are transmissible to a pumping wavelength of the array of SEL elements and reflective to a solid-state wavelength of the solid-state lasing material, the solid-state lasing material having a second side facing away from the array of SEL elements including a second set of one or more optical coatings that are transmissible to the solid-state wavelength and reflective to the pumping wavelength;a harmonic generating crystal material placed adjacent to the second side of the solid-state lasing material, the harmonic generating crystal material having an input side including a third set of one or more optical coatings that are transmissive to the solid-state wavelength and reflective to a harmonic wavelength of the harmonic generating crystal material and an output side including a fourth set of one or more optical coatings that are reflective to the solid-state wavelength and partially transmissive to the harmonic wavelength; andthe addressable array of SEL elements being arranged adjacent to the solid-state lasing material and configured to pump the solid-state lasing material to produce one or more laser beams as an output of the solid-state lasing material. 9. A method for enhancing transverse beam quality of a laser beam, comprising the steps of: arranging a monolithic and addressable array of surface emitting lasers (SEL) elements adjacent to a solid state lasing material, the solid-state lasing material having a first side facing an addressable array of SEL elements including a first set of one or more optical coatings that are transmissible to a pumping wavelength of the array of SEL elements and reflective to a solid-state wavelength of the solid-state lasing material, the solid-state lasing material having a second side facing away from the array of SEL elements including a second set of one or more optical coatings that are transmissible to the solid-state wavelength and reflective to the pumping wavelength;arranging a cavity mirror adjacent to the second side of the solid-state lasing material, the cavity mirror having an input side including a third set of one or more optical coatings that are transmissive to the solid-state wavelength and an output side including a fourth set of one or more optical coatings that are partially transmissive to the solid-state wavelength; andcontrolling a radial intensity profile of pumping power or emitted wavelength of a combined output of the addressable array of SEL elements into the solid state lasing material by varying an output of one or more concentric rings of SEL elements within the addressable array of SEL elements to control an output power density and an illumination uniformity across the solid state lasing material. 10. A pumped solid-state laser, comprising: a monolithic and addressable array of surface emitting laser (SEL) elements;a solid state lasing material, wherein the addressable array of SEL elements is arranged adjacent to the solid state lasing material, the addressable array of SEL elements including one or more concentric rings of SEL elements, each of the one or more concentric rings of SEL elements having a variable output configured to control a radial intensity profile of pumping power or emitted wavelength of a combined output of the addressable array of SEL elements and thereby controlling an output power density and an illumination uniformity across the solid state lasing material, the solid-state lasing material having a first side facing the addressable array of SEL elements including a first set of one or more optical coatings that are transmissible to a pumping wavelength of the array of SEL elements and reflective to a solid-state wavelength of the solid-state lasing material, the solid-state lasing material having a second side facing away from the array of SEL elements including a second set of one or more optical coatings that are transmissible to the solid-state wavelength and reflective to the pumping wavelength; anda cavity mirror placed adjacent to the second side of the solid-state lasing material, the cavity mirror having an input side including a third set of one or more optical coatings that are transmissive to the solid-state wavelength and an output side including a fourth set of one or more optical coatings that are partially transmissive to the solid-state wavelength. 11. A method for enhancing transverse beam quality of a laser beam, comprising the steps of: arranging a monolithic and addressable array of surface emitting lasers (SEL) elements adjacent to a solid state lasing material, the solid-state lasing material having a first side facing an array of SEL elements including a first set of one or more optical coatings that are transmissible to a pumping wavelength of the array of SEL elements and reflective to a solid-state wavelength of the solid-state lasing material, the solid-state lasing material having a second side facing away from the array of SEL elements including a second set of one or more optical coatings that are transmissible to the solid-state wavelength and reflective to the pumping wavelength;arranging a harmonic generating crystal material adjacent to the second side of the solid-state lasing material, the harmonic generating crystal material having an input side including a third set of one or more optical coatings that are transmissive to the solid-state wavelength and reflective to a harmonic wavelength of the harmonic generating crystal material and an output side including a fourth set of one or more optical coatings that are reflective to the solid-state wavelength and partially transmissive to the harmonic wavelength; andcontrolling a radial intensity profile of pumping power or emitted wavelength of a combined output of the addressable array of SEL elements into the solid state lasing material by varying an output of one or more concentric rings of SEL elements within the addressable array of SEL elements to control an output power density and an illumination uniformity across the solid state lasing material. 12. The method as recited in claim 11, further comprising: addressing one or more SEL elements of the addressable array of SEL elements by a controller. 13. The method as recited in claim 11, further comprising: addressing one or more SEL elements of the addressable array of SEL elements to control an intensity profile of the one or more laser beams by a controller. 14. The method as recited in claim 11, further comprising: addressing one or more SEL elements of the addressable array of SEL elements to control a shape of the one or more laser beams by a controller. 15. A pumped solid-state laser, comprising: a monolithic and addressable array of surface emitting laser (SEL) elements;a solid state lasing material, wherein the addressable array of SEL elements is arranged adjacent to the solid state lasing material, the addressable array of SEL elements including one or more concentric rings of SEL elements, each of the one or more concentric rings of SEL elements having a variable output configured to control a radial intensity profile of pumping power or emitted wavelength of a combined output of the addressable array of SEL elements and thereby controlling an output power density and an illumination uniformity across the solid state lasing material, the solid-state lasing material having a first side facing the array of SEL element including a first set of one or more optical coatings that are transmissible to a pumping wavelength of the array of SEL elements and reflective to a solid-state wavelength of the solid-state lasing material, the solid-state lasing material having a second side facing away from the array of SEL elements including a second set of one or more optical coatings that are transmissible to the solid-state wavelength and reflective to the pumping wavelength; anda harmonic generating crystal material placed adjacent to the second side of the solid-state lasing material, the harmonic generating crystal material having an input side including a third set of one or more optical coatings that are transmissive to the solid-state wavelength and reflective to a harmonic wavelength of the harmonic generating crystal material and an output side including a fourth set of one or more optical coatings that are reflective to the solid-state wavelength and partially transmissive to the harmonic wavelength. 16. The pumped solid-state laser as recited in claim 1, wherein one or more SEL elements of the addressable array of SEL elements are configured to be addressed by a controller. 17. The pumped solid-state laser as recited in claim 1, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control an intensity profile of the one or more laser beams. 18. The pumped solid-state laser as recited in claim 1, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control a shape of the one or more laser beams. 19. The pumped solid-state laser as recited in claim 8, wherein one or more SEL elements of the addressable array of SEL elements are configured to be addressed by a controller. 20. The pumped solid-state laser as recited in claim 8, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control an intensity profile of the one or more laser beams. 21. The pumped solid-state laser as recited in claim 8, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control a shape of the one or more laser beams. 22. The pumped solid-state laser as recited in claim 8, wherein the array of SEL elements is a monolithic array. 23. The method as recited in claim 9, further comprising: addressing one or more SEL elements of the addressable array of SEL elements by a controller. 24. The method as recited in claim 9, further comprising: addressing one or more SEL elements of the addressable array of SEL elements to control an intensity profile of the one or more laser beams by a controller. 25. The method as recited in claim 9, further comprising: addressing one or more SEL elements of the addressable array of SEL elements to control a shape of the one or more laser beams by a controller. 26. The pumped solid-state laser as recited in claim 10, wherein one or more SEL elements of the addressable array of SEL elements are configured to be addressed by a controller. 27. The pumped solid-state laser as recited in claim 10, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control an intensity profile of the one or more laser beams. 28. The pumped solid-state laser as recited in claim 10, wherein a controller is configured to address one or more SEL elements of the addressable array of SEL elements to control a shape of the one or more laser beams.
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