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Optical pickup-use object lens, optical pickup and optical disk unit

一种拾波器、光学的技术,应用在光束引导装置、光学、光学元件等方向,能够解决聚焦衍射极限、很难激光等问题,达到减少部件数的效果

Inactive Publication Date: 2007-01-17
SONY GRP CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The objective lens 201 of monolithic structure with glass molding that has the aspherical surface 201a that is used in the prior art is difficult to focus the laser light to the diffraction limit due to the above-mentioned chromatic aberration.

Method used

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  • Optical pickup-use object lens, optical pickup and optical disk unit
  • Optical pickup-use object lens, optical pickup and optical disk unit
  • Optical pickup-use object lens, optical pickup and optical disk unit

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 2

[0184] The objective lens 15 of embodiment 2 has the 1st lens group GR1 that is made up of the 1st lens L1 and the 2nd lens group GR2 that is made up of the 2nd lens L2, and this 1st lens L1, by having the refractive surface S 2r is the base plane and forms the diffraction plane S 2d and the composite surface S 2 The second lens L2 is a single-piece aspheric glass molded lens with large magnification. A protective layer 30 made of polycarbonate is disposed between the second lens L2 and the image surface (recording layer of the optical disc 100).

[0185] The numerical values ​​of the constituent lenses of Example 2 are listed in Table 3 below.

[0186] r i

d i

Nitrogen

r 1 =∞

d 1 =1.00

resin

r 2 =7.650

d 2 =0.20

r 3 =1.337

d 3 =1.60

LAH53

r 4 =6.486

d 4 =0.74

r 5 =∞

d 5 =0.1

polycarbonate

Image plane = ∞

[0187] Embodiment 2, because the 1st ...

Embodiment 3

[0193] The objective lens 15 of embodiment 3 has the 1st lens group GR1 made up of the 1st lens L1 and the 2nd lens group GR2 made up of the 2nd lens L2, and this 1st lens L1, by having the refraction surface S 2r A synthetic resin layer 18 is laminated as a base surface, and a diffraction surface S is formed on the surface of the synthetic resin layer 18. 2d Composite surface S 2 The second lens L2 is a single piece of aspheric glass molded lens with large magnification. A protective layer 30 made of polycarbonate is disposed between the second lens L2 and the image surface (recording layer of the optical disc 100).

[0194] The numerical values ​​of the constituent lenses of Example 3 are listed in Table 5 below.

[0195] r i

d i

Nitrogen

r 1 =∞

d 1 =1.00

SBSL7

r 2r =7.750

d 2 =0.01

r 2d =7.750

d 3 =0.20

resin

r 3 =1.337

d 4 =1.60

LAH53

r 4 =6.486

d 5 =0.74

...

Embodiment 5

[0211] The objective lens 15 of embodiment 5 has the 1st lens group GR1 made up of the 1st lens L1 and the 2nd lens group GR2 made up of the 2nd lens L2, and this 1st lens L1, by having the refraction surface S with the 2nd surface 2r is the base plane and forms the diffraction plane S 2d and the composite surface S 2 The second lens L2 is a single-piece aspheric glass molded lens with large magnification. A protective layer 30 made of polycarbonate is disposed between the second lens L2 and the image surface (recording layer of the optical disc 100).

[0212] The numerical values ​​of the constituent lenses of Example 5 are listed in Table 9 below.

[0213] r i

d i

Nitrogen

r 1 =∞

d 1 =1.00

resin

r 2 =7.650

d 2 =3.00

r 3 =1.337

d 3 =1.60

LAH53

r 4 =6.486

d 4 =0.74

r 5 =∞

d 5 =0.1

polycarbonate

Image plane = ∞

[0214] The objective lens 15 of ...

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Abstract

The present invention is relative to an objective lens (15) for an optical pickup, having a numerical aperture not less than 0.8, and adapted for correcting the chromatic aberration at an image point on an optical axis for light with a wavelength within several nm about a reference wavelength which is not larger than 420 nm. This objective lens is made up by a first lens set GR1, having a compound surface S2 of a refractive surface S2r and a diffractive surface S2d, and a second lens set GR2, having a positive refractive power, looking from the light source side. The compound surface of the first lens set is formed by adding the diffractive surface having the positive refractive power to the refractive surface which is an aspherical surface having the negative refractive power. The lens forming the second lens set is a single lens including at least one aspherical lens. This objective lens is small-sized, permits effective correction of chromatic aberration and enables the laser light to be converged to close to the diffraction threshold.

Description

technical field [0001] The present invention relates to an objective lens used in an optical pickup device for irradiating an optical recording medium with a beam of laser light or the like to record information and reproduce the information recorded on the optical recording medium, and an optical pickup using the objective lens The device relates to an optical disc device, more specifically, an objective lens capable of focusing light beams to a diffraction limit on a recording surface of an optical recording medium, an optical pickup device using the objective lens, and an optical disc device. Background technique [0002] As an information recording medium, a high recording density non-contact optical recording medium is currently used. In an optical recording medium, information is recorded by irradiating a light beam, such as laser light, on the recording surface, and the recorded information can be reproduced. Such an optical recording medium is widely used as an opti...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02B13/00G02B13/18G11B7/135G02B9/04G02B27/00G11B7/22
CPCG11B7/1374G11B2007/13727G02B27/4238G11B7/1392G02B27/0037G02B9/04G11B7/22G11B7/1353G02B13/18
Inventor 高桥丰和日根野哲
Owner SONY GRP CORP
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