IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0885038
(2004-07-07)
|
등록번호 |
US-7602679
(2009-10-28)
|
우선권정보 |
JP-2003-195903(2003-07-11) |
발명자
/ 주소 |
- Ohta, Tatsuo
- Taka, Kunihiko
|
출원인 / 주소 |
- Konica Minolta Opto, Inc.
|
대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner, L.L.P.
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
3 |
초록
▼
An optical lens to be arranged in an optical information recording and/or reproducing apparatus includes at least one lens main body; an antireflective film arranged on a first lens surface which has the largest surface angle on an outer peripheral portion in an effective radius of lens surfaces on
An optical lens to be arranged in an optical information recording and/or reproducing apparatus includes at least one lens main body; an antireflective film arranged on a first lens surface which has the largest surface angle on an outer peripheral portion in an effective radius of lens surfaces on the lens main body; wherein for a light entering perpendicularly to a central portion of the first lens surface whose central portion has a surface angle of 0 degree, a spectral reflectance of the antireflective film has one or more regions in which the spectral reflectance is continuously 4% or below and the wavelength includes at least a part of a wavelength region of 300 to 1000 nm, the broadest wavelength region of the one or more wavelength regions extends from wavelength λ1 to wavelength λ2 and the wavelength λ1 is in a range of 348-460 nm.
대표청구항
▼
What is claimed is: 1. An optical lens to be arranged in an optical information recording and/or reproducing apparatus for conducting at least one of recording information on an optical information recording medium and reproducing information recorded on the optical information recording medium and
What is claimed is: 1. An optical lens to be arranged in an optical information recording and/or reproducing apparatus for conducting at least one of recording information on an optical information recording medium and reproducing information recorded on the optical information recording medium and to converge a light flux emitted by a first laser light source with wavelength of 390 nm-420 nm onto the optical information recording medium, the optical lens comprising: at least one lens main body; an antireflective film arranged on a first lens surface which has the largest surface angle θ on an outer peripheral portion in an effective radius of lens surfaces on the lens main body; wherein for a light entering perpendicularly to a central portion of the first lens surface whose central portion has a surface angle θ of 0 degree, a spectral reflectance of the antireflective film has one or more regions in which the spectral reflectance is continuously 4% or below and the wavelength includes at least a part of a wavelength region of 300 to 1000 nm, the broadest wavelength region of the one or more wavelength regions extends from a wavelength λ1 to a wavelength λ2 and the wavelength λ1 is in a range of 348-460 nm. 2. The optical lens of claim 1, wherein the wavelength λ1 is in a range of 375-441 nm. 3. The optical lens of claim 1, wherein the wavelength λ2 satisfies 1.9×λ1 or more. 4. The optical lens of claim 1, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the first lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 81.2-113 nm; the second layer is made of a higher refractive index material and has a layer thickness of 108.7-153 nm; the third layer is made of a middle refractive index material and has a layer thickness of 108.7-153 nm; the fourth layer is made of a lower refractive index material and has a layer thickness of 21.6-30 nm; and the fifth layer is made of a middle refractive index material and has a layer thickness of 71.0-99 nm. 5. The optical lens of claim 1, wherein for a light entering perpendicularly to an outer peripheral portion of the first lens surface whose outer peripheral portion has a surface angle θ of 45 degrees, a spectral reflectance of the antireflective film has one or more regions which satisfies continuously 4% or below, the broadest wavelength region of the regions extends from a wavelength λ1' to a wavelength λ2' and the wavelength λ1' is in a range of 289-382 nm. 6. The optical lens of claim 1 comprising: at least two lens main bodies; an antireflective film arranged on a first lens surface which has the largest surface angle θ on an outer peripheral portion in an effective radius of lens surfaces on the lens main body; wherein for a light entering perpendicularly to a central portion of the first lens surface whose central portion has a surface angle θ of 0 degree, a spectral reflectance of the antireflective film has one or more regions in which the spectral reflectance is continuously 4% or below and the wavelength includes at least a part of a wavelength range of 300-1000 nm, the broadest wavelength region of the one or more wavelength regions extends from a wavelength λ1 to a wavelength λ2 and the wavelength λ1 is in a range of 350-458 nm. 7. The optical lens of claim 6, wherein the wavelength λ1 is in a range of 375-440 nm. 8. The optical lens of claim 6, wherein the wavelength λ2 satisfies 2.04×λ1 or more. 9. The optical lens of claim 6, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the first lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 91.6-122.2 nm; the second layer is made of a higher refractive index material and has a layer thickness of 32.0-43.0 nm; the third layer is made of a lower refractive index material and has a layer thickness of 37.5-50.0 nm; the fourth layer is made of a higher refractive index material and has a layer thickness of 18.9-25.4 nm; and the fifth layer is made of a lower refractive index material and has a layer thickness of 16.6-22.2 nm. 10. The optical lens of claim 6, wherein for a light entering perpendicularly to an outer peripheral portion of the first lens surface whose outer peripheral portion has a surface angle θ of 45 degrees, a spectral reflectance of the antireflective film has one or more regions which satisfies continuously 4% or below, the broadest wavelength region of the regions extends from a wavelength λ1' to a wavelength λ2' and the wavelength λ1' is in a range of 290-375 nm. 11. The optical lens of claim 1 comprising: an antireflective film arranged on a second lens surface which lies on the opposite side of the first lens surface; wherein for a light entering perpendicularly to a central portion of the second lens surface whose central portion has a surface angle θ of 0 degree, a spectral reflectance of the antireflective film has one or more regions in which the spectral reflectance is continuously 4% or below and the wavelength includes at least a part of a wavelength range of 300-1000 nm, the broadest wavelength region of the one or more wavelength regions extends from a wavelength λ1 to a wavelength λ2 and the wavelength λ1 is in a range of 320-400 nm. 12. The optical lens of claim 11, wherein the wavelength λ1 is in a range of 335-400 nm. 13. The optical lens of claim 11, wherein the wavelength λ2 satisfies 1.9×λ1 or more. 14. The optical lens of claim 11, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the second lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 74.0-95.6 nm; the second layer is made of a higher refractive index material and has a layer thickness of 95.9-129.8 nm; the third layer is made of a middle refractive index material and has a layer thickness of 87.8-115.1 nm; the fourth layer is made of a lower refractive index material and has a layer thickness of 19.7-25.4 nm; and the fifth layer is made of a middle refractive index material and has a layer thickness of 63.9-83.7 nm. 15. The optical lens of claim 11, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the second lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 91.6-122.2 nm; the second layer is made of a higher refractive index material and has a layer thickness of 32.0-43.0 nm; the third layer is made of a lower refractive index material and has a layer thickness of 37.5-50.0 nm; the fourth layer is made of a higher refractive index material and has a layer thickness of 18.9-25.4 nm; and the fifth layer is made of a lower refractive index material and has a layer thickness of 16.6-22.2 nm. 16. The optical lens of claim 1, which converges a light emitted by a second laser source having a wavelength of 630-680 nm onto a optical information recording media, wherein the wavelength λ1 is in a range of 350-458 nm. 17. The optical lens of claim 16, wherein the wavelength λ1 is in a range of 373-458 nm. 18. The optical lens of claim 17, which further converges a light emitted by a third laser source having a wavelength of 770-800 nm onto a optical information recording media. 19. The optical lens of claim 16, wherein the wavelength λ2 satisfies 2.3×λ1 or more. 20. The optical lens of claim 16, wherein for a light entering perpendicularly to an outer peripheral portion of the first lens surface whose outer peripheral portion has a surface angle θ of 45 degrees, a spectral reflectance of the antireflective film has one or more regions which satisfies continuously 4% or below, the broadest wavelength region of the regions extends from a wavelength λ1' to a wavelength λ2' and the wavelength λ1' is in a range of 294-384 nm. 21. The optical lens of claim 16, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the first lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 93.3-126.5 nm; the second layer is made of a higher refractive index material and has a layer thickness of 35.6-49.2 nm; the third layer is made of a lower refractive index material and has a layer thickness of 18.5-25.1 nm; the fourth layer is made of a higher refractive index material and has a layer thickness of 54.0-74.7 nm; the fifth layer is made of a lower refractive index material and has a layer thickness of 29.0-39.4 nm; the sixth layer is made of a higher refractive index material and has a layer thickness of 16.5-22.8 nm; and the seventh layer is made of a lower refractive index material and has a layer thickness of 18.0-24.4 nm. 22. The optical lens of claim 16 comprising: an antireflective film arranged on a second lens surface which lies on the opposite side of the first lens surface; wherein for a light entering perpendicularly to a central portion of the second lens surface whose central portion has a surface angle θ of 0 degree, a spectral reflectance of the antireflective film has one or more regions in which the spectral reflectance is continuously 4% or below and the wavelength includes at least a part of a wavelength range of 300-1000 nm, the broadest wavelength region of the one or more wavelength regions extends from a wavelength λ1 to a wavelength λ2 and the wavelength λ1 is in a range of 350-430 nm. 23. The optical lens of claim 22, wherein the wavelength %1 is in a range of 360-400 nm. 24. The optical lens of claim 23, which further converges a light emitted by a third laser source having a wavelength of 770-800 nm onto a optical information recording media. 25. The optical lens of claim 22, wherein the wavelength λ2 satisfies 2.3×λ1 or more. 26. The optical lens of claim 22, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the second lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 93.3-118 nm; the second layer is made of a higher refractive index material and has a layer thickness of 35.6-45.9 nm; the third layer is made of a lower refractive index material and has a layer thickness of 18.5-23.4 nm; the fourth layer is made of a higher refractive index material and has a layer thickness of 54.0-69.6 nm; the fifth layer is made of a lower refractive index material and has a layer thickness of 29.0-36.8 nm; the sixth layer is made of a higher refractive index material and has a layer thickness of 16.5-21.2 nm; and the seventh layer is made of a lower refractive index material and has a layer thickness of 18.0-22.8 nm. 27. The optical lens of claim 16, which comprises at least two lens main bodies; and an antireflective film arranged on a first lens surface which has the largest surface angle θ on an outer peripheral portion in an effective radius of lens surfaces on the lens main body; wherein for a light entering perpendicularly to a central portion of the first lens surface whose central portion has a surface angle θ of 0 degree, a spectral reflectance of the antireflective film has one or more regions which satisfies continuously 4% or below and which includes at least a part of a wavelength range of 300-1000 nm, the broadest wavelength region of the regions extends from a wavelength λ1 to a wavelength λ2 and the wavelength λ1 is in a range of 360-458 nm. 28. The optical lens of claim 27, which converges a light emitted by a third laser source having a wavelength of 770-800 nm onto a optical information recording media. 29. The optical lens of claim 27, wherein the wavelength λ1 is in a range of 400-442 nm. 30. The optical lens of claim 27, wherein the wavelength λ2 satisfies 2.3×λ1 or more. 31. The optical lens of claim 27, wherein for a light entering perpendicularly to an outer peripheral portion of the first lens surface whose outer peripheral portion has a surface angle θ of 45 degrees, a spectral reflectance of the antireflective film has one or more regions which satisfies continuously 4% or below, the broadest wavelength region of the regions extends from a wavelength λ1' to a wavelength λ2' and the wavelength λ1' is in a range of 306-384 nm. 32. The optical lens of claim 27, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the first lens where n is a natural number of 2 or more, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the second lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 97.5-126.5 nm; the second layer is made of a higher refractive index material and has a layer thickness of 37.3-49.2 nm; the third layer is made of a lower refractive index material and has a layer thickness of 19.3-25.1 nm; the fourth layer is made of a higher refractive index material and has a layer thickness of 56.6-74.7 nm; the fifth layer is made of a lower refractive index material and has a layer thickness of 30.3-39.4 nm; the sixth layer is made of a higher refractive index material and has a layer thickness of 17.3-22.8 nm; and the seventh layer is made of a lower refractive index material and has a layer thickness of 18.8-24.4 nm. 33. The optical lens of claim 27 comprising: an antireflective film arranged on a second lens surface which lies on the opposite side of the first surface; wherein for a light entering perpendicularly to a central portion of the second lens surface whose central portion has a surface angle θ of 0 degree, a spectral reflectance of the antireflective film has one or more regions in which the spectral is continuously 4% or below and the wavelength includes at least a part of a wavelength range of 300-1000 nm, the broadest wavelength region of the one or more wavelength regions extends from a wavelength λ1 to a wavelength λ2 and the wavelength λ1 is in a range of 360-458 nm. 34. The optical lens of claim 33, wherein the wavelength λ1 is in a range of 387-430 nm. 35. The optical lens of claim 33, wherein the wavelength %2 satisfies 2.3×λ1 or more. 36. The optical lens of claim 33, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the second lens where n is a natural number of 2 or more, wherein when the antireflective film includes a first layer, . . . and a n-th layer in the order from the far side of the second lens where n is a natural number of 2 or more, the first layer is made of a lower refractive index material and has a layer thickness of 97.5-126.5 nm; the second layer is made of a higher refractive index material and has a layer thickness of 37.3-49.2 nm; the third layer is made of a lower refractive index material and has a layer thickness of 19.3-25.1 nm; the fourth layer is made of a higher refractive index material and has a layer thickness of 56.6-74.7 nm; the fifth layer is made of a lower refractive index material and has a layer thickness of 30.3-39.4 nm; the sixth layer is made of a higher refractive index material and has a layer thickness of 17.3-22.8 nm; and the seventh layer is made of a lower refractive index material and has a layer thickness of 18.8-24.4 nm. 37. A information recording and/or reproducing apparatus comprising a laser light source and a light converging system including the optical lens of claim 1, wherein converging a light flux emitted by the laser light source onto the optical information recording media by the optical lens conducts at least one of recording information on the optical information recording medium and reproducing information recorded on the optical information recording medium.
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