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    • 4. 发明申请
    • Magnetic recording medium for high density recording and magnetic storage device using same
    • 用于高密度记录和磁存储装置的磁记录介质
    • US20090258253A1
    • 2009-10-15
    • US12387164
    • 2009-04-28
    • Tatsuya HinoueYotsuo YahisaTomoo YamamotoJoe InagakiHiroyuko SuzukiHidekazu Kashiwase
    • Tatsuya HinoueYotsuo YahisaTomoo YamamotoJoe InagakiHiroyuko SuzukiHidekazu Kashiwase
    • G11B5/66
    • G11B5/65G11B5/656G11B5/66H01F10/16H01F10/265
    • In one embodiment, a magnetic recording medium comprises an underlying film, a magnetic film and a protective film formed in this order on a substrate. The magnetic film is a cobalt-base alloy film containing chromium and has a plurality of magnetic layers stacked without interposition of any non-magnetic layer. The plural magnetic layers comprise first, second and third magnetic layers. The first magnetic layer is disposed between the underlying film and the second magnetic layer. The second magnetic layer is disposed between the first magnetic layer and the third magnetic layer. The third magnetic layer is disposed between the second magnetic layer and the protective film. The concentration of chromium contained in the first magnetic layer is lower than that of chromium contained in the second magnetic layer. The thickness of the first magnetic layer is smaller than that of the second magnetic layer. The magnetic layers which overlie the first magnetic layer further contain platinum and boron. The concentration of chromium contained in the third magnetic layer is lower than that of chromium contained in the second magnetic layer.
    • 在一个实施例中,磁记录介质包括在衬底上依次形成的下面的膜,磁性膜和保护膜。 磁性膜是含有铬的钴基合金膜,并且具有堆叠而不插入任何非磁性层的多个磁性层。 多个磁性层包括第一,第二和第三磁性层。 第一磁性层设置在下面的膜和第二磁性层之间。 第二磁性层设置在第一磁性层和第三磁性层之间。 第三磁性层设置在第二磁性层和保护膜之间。 第一磁性层中含有的铬的浓度低于第二磁性层中含有的铬的浓度。 第一磁性层的厚度小于第二磁性层的厚度。 覆盖在第一磁性层上的磁性层还含有铂和硼。 第三磁性层中含有的铬的浓度低于第二磁性层中含有的铬的浓度。
    • 6. 发明授权
    • Magnetic recording medium having a cobalt-based alloy film for high density recording and magnetic storage device using same
    • 具有用于高密度记录的钴基合金膜和使用它的磁存储装置的磁记录介质
    • US07545604B2
    • 2009-06-09
    • US11317344
    • 2005-12-22
    • Tatsuya HinoueYotsuo YahisaTomoo YamamotoJoe InagakiHiroyuko SuzukiHidekazu Kashiwase
    • Tatsuya HinoueYotsuo YahisaTomoo YamamotoJoe InagakiHiroyuko SuzukiHidekazu Kashiwase
    • G11B5/66B32B3/02
    • G11B5/65G11B5/656G11B5/66H01F10/16H01F10/265
    • In one embodiment, a magnetic recording medium comprises an underlying film, a magnetic film and a protective film formed in this order on a substrate. The magnetic film is a cobalt-base alloy film containing chromium and has a plurality of magnetic layers stacked without interposition of any non-magnetic layer. The plural magnetic layers comprise first, second and third magnetic layers. The first magnetic layer is disposed between the underlying film and the second magnetic layer. The second magnetic layer is disposed between the first magnetic layer and the third magnetic layer. The third magnetic layer is disposed between the second magnetic layer and the protective film. The concentration of chromium contained in the first magnetic layer is lower than that of chromium contained in the second magnetic layer. The thickness of the first magnetic layer is smaller than that of the second magnetic layer. The magnetic layers which overlie the first magnetic layer further contain platinum and boron. The concentration of chromium contained in the third magnetic layer is lower than that of chromium contained in the second magnetic layer.
    • 在一个实施例中,磁记录介质包括在衬底上依次形成的下面的膜,磁性膜和保护膜。 磁性膜是含有铬的钴基合金膜,并且具有堆叠而不插入任何非磁性层的多个磁性层。 多个磁性层包括第一,第二和第三磁性层。 第一磁性层设置在下面的膜和第二磁性层之间。 第二磁性层设置在第一磁性层和第三磁性层之间。 第三磁性层设置在第二磁性层和保护膜之间。 第一磁性层中含有的铬的浓度低于第二磁性层中含有的铬的浓度。 第一磁性层的厚度小于第二磁性层的厚度。 覆盖在第一磁性层上的磁性层还含有铂和硼。 第三磁性层中含有的铬的浓度低于第二磁性层中含有的铬的浓度。
    • 7. 发明申请
    • Magnetic recording medium for high density recording
    • 用于高密度记录的磁记录介质
    • US20060292401A1
    • 2006-12-28
    • US11415604
    • 2006-05-01
    • Hiroyuki SuzukiHidekazu KashiwaseAkira MorinagaTatsuya Hinoue
    • Hiroyuki SuzukiHidekazu KashiwaseAkira MorinagaTatsuya Hinoue
    • G11B5/66
    • G11B5/7325G11B5/656G11B5/66
    • A bit error rate is improved and, at the same time, an aging change due to thermal fluctuation is decreased. In one embodiment, a magnetic recording medium has first, second, third, and fourth magnetic layers stacked over the underlayer film on a substrate. The product (Brt2) of the residual magnetic flux density and film thickness of the second magnetic layer is smaller than the product (Brt3) of the residual magnetic flux density and film thickness of the third magnetic layer. The second magnetic layer has a thickness larger than that of the third magnetic layer and is anti-ferromagnetically coupled with the first magnetic layer by way of the first non-magnetic intermediate layer. The fourth magnetic layer is formed by way of a second non-magnetic intermediate layer above the third magnetic layer. The product (Brt4) of the residual magnetic flux density and film thickness of the fourth magnetic layer is from about 47% to 52% of the product (Brt_total) of the residual magnetic flux density and film thickness of the entire magnetic layers in a state of residual magnetization with the external magnetic field removed.
    • 改善了误码率,同时由于热波动引起的老化变化也降低。 在一个实施例中,磁记录介质具有层叠在基底上的下层膜上的第一,第二,第三和第四磁性层。 第二磁性层的剩余磁通密度和膜厚的乘积(Brt2)小于第三磁性层的剩余磁通密度和膜厚的乘积(Brt3)。 第二磁性层的厚度大于第三磁性层的厚度,并通过第一非磁性中间层与第一磁性层反铁磁耦合。 第四磁性层通过在第三磁性层上方的第二非磁性中间层形成。 剩余磁通密度和第四磁性层的膜厚的乘积(Brt4)为剩余磁通密度的乘积的约47%至52%(Brt_total)和处于整个状态的整个磁性层的膜厚度 的剩余磁化与外部磁场去除。
    • 8. 发明申请
    • Magnetic recording medium
    • 磁记录介质
    • US20060228588A1
    • 2006-10-12
    • US11400736
    • 2006-04-06
    • Hiroyuki SuzukiHidekazu KashiwaseTatsuya HinoueTomoo Yamamoto
    • Hiroyuki SuzukiHidekazu KashiwaseTatsuya HinoueTomoo Yamamoto
    • G11B5/66
    • G11B5/7325G11B5/656G11B5/66
    • A magnetic recording material is provided which has high medium S/N, and provides excellent overwriting characteristic, excellent thermal fluctuation and sufficient stability against thermal fluctuation. In one embodiment, a first underlayer comprising one of alloys of a Ti—Co alloy, a Ti—Co—Ni alloy, and an Ni—Ta alloy, a second underlayer comprising a W—Co alloy or Ta, and a third underlayer of a body-centered cubic structure comprising a Cr—Ti—B alloy or a Cr—Ti alloy are disposed over a substrate. A first magnetic layer comprising a Co—Cr—B alloy or a Co—Cr—Ta alloy, a second magnetic layer comprising a Co—Cr—Pt—B—Ta alloy, a third magnetic layer comprising a Co—Cr—Pt—B alloy, and a protective film are disposed further thereover. An intermediate region (Th) is disposed between the second magnetic layer and the third magnetic layer, the intermediate region having a higher oxygen concentration than those of the magnetic layers.
    • 提供具有高介质S / N的磁记录材料,并提供优异的重写特性,优异的热波动和对热波动的足够的稳定性。 在一个实施例中,包括Ti-Co合金,Ti-Co-Ni合金和Ni-Ta合金的合金之一的第一底层,包含W-Co合金或Ta的第二底层和第三底层 将包含Cr-Ti-B合金或Cr-Ti合金的体心立方结构设置在基板上。 包含Co-Cr-B合金或Co-Cr-Ta合金的第一磁性层,包含Co-Cr-Pt-B-Ta合金的第二磁性层,包含Co-Cr-Pt- B合金和保护膜进一步配置。 中间区域(Th)设置在第二磁性层和第三磁性层之间,中间区域的氧浓度高于磁性层的氧浓度。
    • 9. 发明授权
    • Magnetic recording medium for high density recording
    • 用于高密度记录的磁记录介质
    • US07704613B2
    • 2010-04-27
    • US11415604
    • 2006-05-01
    • Hiroyuki SuzukiHidekazu KashiwaseAkira MorinagaTatsuya Hinoue
    • Hiroyuki SuzukiHidekazu KashiwaseAkira MorinagaTatsuya Hinoue
    • G11B5/66
    • G11B5/7325G11B5/656G11B5/66
    • A bit error rate is improved and, at the same time, an aging change due to thermal fluctuation is decreased. In one embodiment, a magnetic recording medium has first, second, third, and fourth magnetic layers stacked over the underlayer film on a substrate. The product (Brt2) of the residual magnetic flux density and film thickness of the second magnetic layer is smaller than the product (Brt3) of the residual magnetic flux density and film thickness of the third magnetic layer. The second magnetic layer has a thickness larger than that of the third magnetic layer and is anti-ferromagnetically coupled with the first magnetic layer by way of the first non-magnetic intermediate layer. The fourth magnetic layer is formed by way of a second non-magnetic intermediate layer above the third magnetic layer. The product (Brt4) of the residual magnetic flux density and film thickness of the fourth magnetic layer is from about 47% to 52% of the product (Brt_total) of the residual magnetic flux density and film thickness of the entire magnetic layers in a state of residual magnetization with the external magnetic field removed.
    • 改善了误码率,同时由于热波动引起的老化变化也降低。 在一个实施例中,磁记录介质具有层叠在基底上的下层膜上的第一,第二,第三和第四磁性层。 第二磁性层的剩余磁通密度和膜厚的乘积(Brt2)小于第三磁性层的剩余磁通密度和膜厚的乘积(Brt3)。 第二磁性层的厚度大于第三磁性层的厚度,并通过第一非磁性中间层与第一磁性层反铁磁耦合。 第四磁性层通过在第三磁性层上方的第二非磁性中间层形成。 剩余磁通密度和第四磁性层的膜厚的乘积(Brt4)为剩余磁通密度的乘积的约47%至52%(Brt_total)和处于整个状态的整个磁性层的膜厚度 的剩余磁化与外部磁场去除。