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    • 3. 发明授权
    • Optical recording/reproducing method for multiple recording media with different recording density
    • 具有不同记录密度的多种记录介质的光学记录/再现方法
    • US07420910B2
    • 2008-09-02
    • US11526392
    • 2006-09-25
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • G11B7/24
    • G11B11/10578G11B7/24079G11B11/10515G11B11/10584G11B11/10597
    • An optical recording and reproducing method is able to record and reproduce information by using an optical system using recording and reproducing light with a wavelength selected in a range of from 780 nm±10 nm and an objective lens with a numerical aperture NA selected in a range of from 0.45±0.01 and records and reproduces first and second optical recording mediums having different recording capacities. The first optical recording medium is constructed by using a substrate with a track pitch Tp1 being selected in a range of from 1.5 μm to 1.7 μm and a groove depth d1 being selected in a range of from 70 nm to 90 nm, and the second optical recording medium is constructed by using a substrate 11 with a track pitch Tp2 being selected in a range of from 1.2 μm to 1.3 μm and a groove depth d2 of the groove 12 being selected in a range of from 150 nm to 180 nm. This, the optical recording medium has compatibility with existing optical discs and has a recording density high enough to record a moving picture.
    • 光学记录和再现方法能够通过使用使用在780nm±10nm范围内选择的波长的记录和再现光的光学系统来记录和再现信息,并且在范围内选择数值孔径NA的物镜 从0.45±0.01开始记录和再现具有不同记录容量的第一和第二光记录介质。 第一光记录介质通过使用在1.5μm至1.7μm的范围内选择的轨道间距T p 1> 1的衬底和凹槽深度d 1 1 < 选择在70nm至90nm的范围内,并且第二光学记录介质通过使用在1.2μm至1.3μm的范围内选择的轨道间距T p 2 <2>的基板11来构造 并且沟槽12的凹槽深度d 2 2 在150nm至180nm的范围内选择。 这样,光学记录介质与现有的光盘具有兼容性并且具有足够高的记录密度来记录运动图像。
    • 4. 发明申请
    • Optical recording/reproducing method and optical recording medium
    • 光记录/再现方法和光记录介质
    • US20050068854A1
    • 2005-03-31
    • US10503265
    • 2003-02-06
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • G11B7/007G11B11/105G11B11/00G11B7/24
    • G11B11/10578G11B7/24079G11B11/10515G11B11/10584G11B11/10597
    • An optical recording and reproducing method is able to record and reproduce information by using an optical system using recording and reproducing light with a wavelength selected in a range of from 780 nm±10 nm and an objective lens with a numerical aperture NA selected in a range of from 0.45±0.01 and records and reproduces first and second optical recording mediums having different recording capacities. The first optical recording medium is constructed by using a substrate with a track pitch Tp1 being selected in a range of from 1.5 μm to 1.7 μm and a groove depth d1 being selected in a range of from 70 nm to 90 nm, and the second optical recording medium is constructed by using a substrate 11 with a track pitch Tp2 being selected in a range of from 1.2 μm to 1.3 μm and a groove depth d2 of the groove 12 being selected in a range of from 150 nm to 180 nm. This, the optical recording medium has compatibility with existing optical discs and has a recording density high enough to record a moving picture.
    • 光学记录和再现方法能够通过使用使用在780nm±10nm范围内选择的波长的记录和再现光的光学系统来记录和再现信息,并且在范围内选择数值孔径NA的物镜 从0.45±0.01开始记录和再现具有不同记录容量的第一和第二光记录介质。 第一光记录介质是通过使用轨道间距Tp1在1.5μm至1.7μm的范围内选择的衬底和在70nm至90nm的范围内选择的槽深度d1的衬底来构造的,而第二光学记录介质 通过使用轨道间距Tp2在1.2μm至1.3μm的范围内选择的衬底11和槽12的槽深度d2在150nm至180nm的范围内选择来构造记录介质。 这样,光学记录介质与现有的光盘具有兼容性并且具有足够高的记录密度来记录运动图像。
    • 5. 发明申请
    • Optical recording and reproducing method and optical recording medium
    • 光学记录和再现方法和光学记录介质
    • US20070019527A1
    • 2007-01-25
    • US11526392
    • 2006-09-25
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • G11B7/135
    • G11B11/10578G11B7/24079G11B11/10515G11B11/10584G11B11/10597
    • An optical recording and reproducing method is able to record and reproduce information by using an optical system using recording and reproducing light with a wavelength selected in a range of from 780 nm±10 nm and an objective lens with a numerical aperture NA selected in a range of from 0.45±0.01 and records and reproduces first and second optical recording mediums having different recording capacities. The first optical recording medium is constructed by using a substrate with a track pitch Tp1 being selected in a range of from 1.5 μm to 1.7 μm and a groove depth d1 being selected in a range of from 70 nm to 90 nm, and the second optical recording medium is constructed by using a substrate 11 with a track pitch Tp2 being selected in a range of from 1.2 μm to 1.3 μm and a groove depth d2 of the groove 12 being selected in a range of from 150 nm to 180 nm. This, the optical recording medium has compatibility with existing optical discs and has a recording density high enough to record a moving picture.
    • 光学记录和再现方法能够通过使用使用在780nm±10nm范围内选择的波长的记录和再现光的光学系统来记录和再现信息,并且在范围内选择数值孔径NA的物镜 从0.45±0.01开始记录和再现具有不同记录容量的第一和第二光记录介质。 第一光记录介质通过使用在1.5μm至1.7μm的范围内选择的轨道间距T p 1 1&lt; 1&gt; 1的槽深度d 1 选择在70nm至90nm的范围内,并且第二光学记录介质通过使用在1.2μm至1.3μm的范围内选择的轨道间距T p 2 <2>的基板11来构造 并且沟槽12的凹槽深度d 2 2 在150nm至180nm的范围内选择。 这样,光学记录介质与现有的光盘具有兼容性并且具有足够高的记录密度来记录运动图像。
    • 6. 发明授权
    • Optical recording and reproducing method and optical recording medium
    • 光学记录和再现方法和光学记录介质
    • US07113470B2
    • 2006-09-26
    • US10503265
    • 2003-02-06
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • Kazutomo MiyataTeruyuki OtaMakoto WatanabeYoshihito Fukushima
    • G11B7/00
    • G11B11/10578G11B7/24079G11B11/10515G11B11/10584G11B11/10597
    • An optical recording and reproducing method is able to record and reproduce information by using an optical system using recording and reproducing light with a wavelength selected in a range of from 780 nm±10 nm and an objective lens with a numerical aperture NA selected in a range of from 0.45±0.01 and records and reproduces first and second optical recording mediums having different recording capacities. The first optical recording medium is constructed by using a substrate with a track pitch Tp1 being selected in a range of from 1.5 μm to 1.7 μm and a groove depth d1 being selected in a range of from 70 nm to 90 nm, and the second optical recording medium is constructed by using a substrate 11 with a track pitch Tp2 being selected in a range of from 1.2 μm to 1.3 μm and a groove depth d2 of the groove 12 being selected in a range of from 150 nm to 180 nm. This, the optical recording medium has compatibility with existing optical discs and has a recording density high enough to record a moving picture.
    • 光学记录和再现方法能够通过使用使用在780nm±10nm范围内选择的波长的记录和再现光的光学系统来记录和再现信息,并且在范围内选择数值孔径NA的物镜 从0.45±0.01开始记录和再现具有不同记录容量的第一和第二光记录介质。 第一光记录介质通过使用在1.5μm至1.7μm的范围内选择的轨道间距T p 1 1&lt; 1&gt; 1的槽深度d 1 选择在70nm至90nm的范围内,并且第二光学记录介质通过使用在1.2μm至1.3μm的范围内选择的轨道间距T p 2 <2>的基板11来构造 并且沟槽12的凹槽深度d 2 2 在150nm至180nm的范围内选择。 这样,光学记录介质与现有的光盘具有兼容性并且具有足够高的记录密度来记录运动图像。