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    • 3. 发明授权
    • Field tunable spin torque oscillator for RF signal generation
    • 用于RF信号产生的现场可调自旋转矩振荡器
    • US08203389B1
    • 2012-06-19
    • US12928194
    • 2010-12-06
    • Yuchen ZhouKunliang ZhangPokang WangJoe Smyth
    • Yuchen ZhouKunliang ZhangPokang WangJoe Smyth
    • H03L7/26
    • H03B15/006
    • A spin transfer oscillator (STO) device is disclosed with a giant magnetoresistive (GMR) junction comprising a magnetic resistance layer (MRL)/spacer/magnetic oscillation layer (MOL) configuration, and a MR sensor including a sensing layer/junction layer/reference layer configuration. MOL and sensing layer are magnetostatically coupled and separated by a conductive spacer. MRL has perpendicular magnetic anisotropy while MOL and sensing layer have a Mst (saturation magnetization×thickness) value within ±50% of each other. When a magnetic field is applied perpendicular to the planes of the MOL and a high density current flows from the conductive spacer to the MRL, a MOL oscillation state with a certain frequency is induced. Consequently, the sensing layer oscillates with a similar RF frequency and when a low density current flows across the MR sensor, an AC voltage signal is generated to determine the sensing layer frequency that can be varied by adjusting the applied field.
    • 公开了具有包括磁阻层(MRL)/间隔物/磁振荡层(MOL))构造的巨磁阻(GMR)结的自旋转移振荡器(STO)装置,以及包括感测层/结层/参考 层配置。 MOL和感测层通过导电间隔件静磁耦合和分离。 MRL具有垂直磁各向异性,而MOL和感测层的Mst(饱和磁化强度×厚度)值彼此在±50%以内。 当垂直于MOL的平面施加磁场并且高密度电流从导电间隔物流向MRL时,产生具有一定频率的MOL振荡状态。 因此,感测层以类似的RF频率振荡,并且当低密度电流流过MR传感器时,产生AC电压信号以确定可以通过调整所施加的场来改变的感测层频率。
    • 4. 发明申请
    • FIELD TUNABLE SPIN TORQUE OSCILLATOR FOR RF SIGNAL GENERATION
    • 用于RF信号发生的现场可调旋转扭矩振荡器
    • US20120139649A1
    • 2012-06-07
    • US12928194
    • 2010-12-06
    • Yuchen ZhouKunliang ZhangPokang WangJoe Smyth
    • Yuchen ZhouKunliang ZhangPokang WangJoe Smyth
    • H03B28/00
    • H03B15/006
    • A spin transfer oscillator (STO) device is disclosed with a giant magnetoresistive (GMR) junction comprising a magnetic resistance layer (MRL)/spacer/magnetic oscillation layer (MOL) configuration, and a MR sensor including a sensing layer/junction layer/reference layer configuration. MOL and sensing layer are magnetostatically coupled and separated by a conductive spacer. MRL has perpendicular magnetic anisotropy while MOL and sensing layer have a Mst (saturation magnetization×thickness) value within ±50% of each other. When a magnetic field is applied perpendicular to the planes of the MOL and a high density current flows from the conductive spacer to the MRL, a MOL oscillation state with a certain frequency is induced. Consequently, the sensing layer oscillates with a similar RF frequency and when a low density current flows across the MR sensor, an AC voltage signal is generated to determine the sensing layer frequency that can be varied by adjusting the applied field.
    • 公开了具有包括磁阻层(MRL)/间隔物/磁振荡层(MOL))构造的巨磁阻(GMR)结的自旋转移振荡器(STO)装置,以及包括感测层/结层/参考 层配置。 MOL和感测层通过导电间隔件静磁耦合和分离。 MRL具有垂直磁各向异性,而MOL和感测层的Mst(饱和磁化强度×厚度)值彼此在±50%以内。 当垂直于MOL的平面施加磁场并且高密度电流从导电间隔物流向MRL时,产生具有一定频率的MOL振荡状态。 因此,感测层以类似的RF频率振荡,并且当低密度电流流过MR传感器时,产生AC电压信号以确定可以通过调整所施加的场来改变的感测层频率。
    • 10. 发明申请
    • Devices using addressable magnetic tunnel junction array to detect magnetic particles
    • 使用可寻址磁隧道结阵列检测磁性颗粒的装置
    • US20090186770A1
    • 2009-07-23
    • US12009366
    • 2008-01-18
    • Xizeng ShiPokang WangHsu Kai Yang
    • Xizeng ShiPokang WangHsu Kai Yang
    • C40B20/08C40B60/10
    • G01R33/098G01R33/1269Y10S436/806
    • A magnetic sensor for identifying small superparamagnetic particles bonded to a substrate contains a regular orthogonal array of MTJ cells formed beneath that substrate. A magnetic field imposed on the particle, perpendicular to the substrate, induces a magnetic field that has a component within the MTJ cells that is along the plane of the MTJ free layer. If that free layer has a low switching threshold, the induced field of the particle will create resistance changes in a group of MTJ cells that lie beneath it. These resistance changes will be distributed in a characteristic formation or signature that will indicate the presence of the particle. If the particle's field is insufficient to produce the free layer switching, then a biasing field can be added in the direction of the hard axis and the combination of this field and the induced field allows the presence of the particle to be determined.
    • 用于识别结合到衬底的小超顺磁性颗粒的磁传感器包含在该衬底下面形成的MTJ电池的规则正交阵列。 垂直于衬底施加在颗粒上的磁场诱导磁场,该磁场在MTJ单元内具有沿着MTJ自由层的平面的分量。 如果自由层具有低切换阈值,则颗粒的感应场将在其下面的一组MTJ细胞中产生电阻变化。 这些电阻变化将分布在表征粒子存在的特征形成或特征中。 如果粒子的场不足以产生自由层切换,则可以在硬轴的方向上添加偏置场,并且该场与感应场的组合允许确定粒子的存在。