IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0952733
(2004-09-30)
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등록번호 |
US-7356065
(2008-04-08)
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우선권정보 |
JP-2001-144466(2001-05-15); JP-2001-153578(2001-05-23); JP-2001-157139(2001-05-25) |
발명자
/ 주소 |
- Ohtsuka,Hisashi
- Okazaki,Yoji
- Katoh,Takayuki
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
11 |
초록
▼
A solid-state laser crystal constituting a laser-diode-excited solid-state laser apparatus or an optical fiber constituting a fiber laser apparatus or fiber laser amplifier is doped with one of Ho3+, Sm3+, Eu3+, Dy3+, Er3+, and Tb3+ so that a laser beam is emitted from the solid-state laser crystal
A solid-state laser crystal constituting a laser-diode-excited solid-state laser apparatus or an optical fiber constituting a fiber laser apparatus or fiber laser amplifier is doped with one of Ho3+, Sm3+, Eu3+, Dy3+, Er3+, and Tb3+ so that a laser beam is emitted from the solid-state laser crystal or the optical fiber, or incident light of the fiber laser amplifier is amplified, by one of the transitions from 5S2 to 5I7, from 5S2 to 5I8, from 4G5/2 to 6H5/2, from 4G5/2 to 6H7/2, from 4F3/2 to 6H11/2, from 5D0 to 7F2, from 4F9/2 to 6H13/2, from 4F9/2 to 6H11/2, from 4S3/2 to 4I15/2, from 2H9/2 to 4I13/2, and from 5D4 to 7F5. The above solid-state laser crystal or optical fiber is excited with a GaN-based compound laser diode.
대표청구항
▼
What is claimed is: 1. A laser-diode-excited solid-state laser apparatus comprising: a GaN-based compound laser diode which emits an excitation laser beam; and a solid-state laser crystal which is doped with Dy3+, and emits a solid-state laser beam generated by one of a first transition from 4F9/2
What is claimed is: 1. A laser-diode-excited solid-state laser apparatus comprising: a GaN-based compound laser diode which emits an excitation laser beam; and a solid-state laser crystal which is doped with Dy3+, and emits a solid-state laser beam generated by one of a first transition from 4F9/2 to 6H13/2 and a second transition from 4F9/2 to 6H11/2 when the solid-state laser crystal is excited with said excitation laser beam, wherein the solid-state laser crystal produces both the first transition and the second transition when the solid-state laser crystal is excited with said excitation laser beam, and the solid-state laser crystal includes a first coating disposed on a backward end surface of the solid-state laser crystal and a second coating disposed on a forward end surface of the solid-state laser crystal, which enable the solid-state crystal to emit the solid-state laser beam generated by one of the first transition and the second transition. 2. A laser-diode-excited solid-state laser apparatus according to claim 1, wherein said solid-state laser beam is generated by said first transition from 4F9/2 to 6H13/2 and is in a wavelength range of 562 to 582 nm. 3. A laser-diode-excited solid-state laser apparatus according to claim 1, wherein said solid-state laser beam is generated by said second transition from 4F9/2 to 6H11/2 and is in a wavelength range of 654 to 674 nm. 4. A laser-diode-excited solid-state laser apparatus according to claim 1, wherein said solid-state laser crystal is doped with no rare-earth ion other than Dy3+. 5. A laser-diode-excited solid-state laser apparatus according to claim 1, wherein said GaN-based compound laser diode has an active layer made of one of InGaN, InGaNAs, and GaNAs materials. 6. A laser-diode-excited solid-state laser apparatus comprising: a laser diode which has an active layer made of one of InGaN, InGaNAs, and GaNAs materials, and emits an excitation laser beam; a solid-state laser crystal which is doped with at least one rare-earth ion including Dy3+, and emits a solid-state laser beam generated by one of a first transition from 4F9/2 to 6H13/2 and a second transition from 4F9/2 to 6H11/2 when the solid-state laser crystal is excited with said excitation laser beam; and an optical wavelength conversion element which converts said solid-state laser beam into ultravioler laser light by wavelength conversion, wherein the solid-state laser crystal produces both the first transition and the second transition when the solid-state laser crystal is excited with said excitation laser beam, and the solid-state laser crystal includes a first coating disposed on a backward end surface of the solid-state laser crystal and a second coating disposed on a forward end surface of the solid-state laser crystal, which enable the solid-state crystal to emit the solid-state laser beam generated by one of the first transition and the second transition. 7. A laser-diode-excited solid-state laser apparatus according to claim 6, wherein said solid-state laser beam is generated by said first transition from 4F9/2 to 6H13/2 and has a wavelength of about 572 nm, and said ultraviolet laser light has a wavelength of about 286 nm. 8. A laser-diode-excited solid-state laser apparatus according to claim 6, wherein said solid-state laser beam is generated by said second transition from 4F9/2 to 6H11/2 and has a wavelength of about 664 nm, and said ultraviolet laser light has a wavelength of about 332 nm. 9. A laser-diode-excited solid-state laser apparatus according to claim 6, wherein said solid-state laser crystal is doped with no rare-earth ion other than Dy3+. 10. A laser-diode-excited solid-state laser apparatus according to claim 6, wherein said optical wavelength conversion element is realized by a nonlinear optical crystal having a periodic domain-inverted structure. 11. A fiber laser apparatus comprising: a GaN-based compound laser diode which emits a first laser beam; and an optical fiber which has a core doped with Dy3+, and emits a second laser beam generated by one of a first transition from 4 F9/2 to 6H13/2 and a second transition from 4F9/2 to 6H11/2 when the optical fiber is excited with said first laser beam, wherein the optical fiber produces both the first transition and the second transition when the optical fiber is excited with said first laser beam, and the optical fiber includes a first coating disposed on a light entrance end surface of the optical fiber and a second coating disposed on a light exit end surface of the optical fiber, which enable the optical fiber to emit the second laser beam generated by one of the first transition and the second transition. 12. A fiber laser apparatus according to claim 11, wherein said second laser beam is generated by said first transition from 4F9/2 to 6H13/2 and is in a wavelength range of 562 to 582 nm. 13. A fiber laser apparatus according to claim 11, wherein said second laser beam is generated by said second transition from 4F9/2 to 6H11/2 and is in a wavelength range of 654 to 674 nm. 14. A fiber laser apparatus according to claim 11, wherein said core of said optical fiber is doped with no rare-earth ion other than Dy3+. 15. A fiber laser apparatus according to claim 11, wherein said GaN-based compound laser diode has an active layer made of one of InGaN, InGaNAs, and GaNAs materials. 16. A fiber laser amplifier comprising: a GaN-based compound laser diode which emits an excitation laser beam; and an optical fiber which has a core doped with Dy3+, and amplifies incident light which has a wavelength within a wavelength range of fluorescence generated by one of a first transition from 4F9/2 to 6H13/2 and a second transition from 4F9/2 to 6H11/2 when the optical fiber is excited with said excitation laser beam, wherein the optical fiber produces both the first transition and the second transition when the optical fiber is excited with said excitation laser beam, and the optical fiber includes a first coating disposed on a light entrance end surface of the optical fiber and a second coating disposed on a light exit end surface of the optical fiber, which enable the optical fiber to amplify the incident light having the wavelength within the wavelength range of fluorescence generated by one of the first transition and the second transition. 17. A fiber laser amplifier according to claim 16, wherein said fluorescence is generated by said first transition from 4F9/2 to 6H13/2 and is in a wavelength range of 562 to 582 nm. 18. A fiber laser amplifier according to claim 16, wherein said fluorescence is generated by said second transition from 4F9/2 to 6H11/2 and is in a wavelength range of 654 to 674 nm. 19. A fiber laser amplifier according to claim 16, wherein said core of said optical fiber is doped with no rare-earth ion other than Dy3+. 20. A fiber laser amplifier according to claim 16, wherein said GaN-based compound laser diode has an active layer made of one of InGaN, InGaNAs, and GaNAs materials.
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