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    • 6. 发明申请
    • MAGNETIC WASHING FOR BIOSENSOR
    • 生物传感器的磁性清洗
    • US20100253323A1
    • 2010-10-07
    • US12746182
    • 2008-12-04
    • Femke Karina De TheijeDominique Maria BrulsThea Van Der WijkCoen Adrianus VerschurenAlbert Hendrik Jan Immink
    • Femke Karina De TheijeDominique Maria BrulsThea Van Der WijkCoen Adrianus VerschurenAlbert Hendrik Jan Immink
    • G01N27/74
    • G01N33/54326G01N21/552G01N21/648G01N27/745
    • Detecting magnetized or magnetizable target components in a fluid containing the magnetized or magnetizable target components amongst other magnetized or magnetizable components, uses a magnetic field generator (M1, 28) to attract the magnetized or magnetizable components towards a binding surface. A magnetic field controller (C1) applies the magnetic field to concentrate the magnetized or magnetizable components in columns on the binding surface, subsequently reduces the magnetic field to enable the columns to collapse, to allow more components to reach the binding surface, and reapplies the magnetic field so as to cause other components to be pulled off the binding surface to reform columns based on the bound target components. A surface sensitive sensor (S1, 26, 29) detects the bound magnetized or magnetizable target components. The reapplication of the magnetic field acts as a magnetic washing step to release unwanted aspecific adsorption binding, leaving the targets, to improve sensitivity with simplified hardware and a reduction in cost and size.
    • 检测包含磁化或可磁化的目标部件的流体中的磁化或可磁化的目标部件在其他磁化或可磁化部件之间,使用磁场发生器(M1,28)将磁化或可磁化的部件吸引到装订表面。 磁场控制器(C1)施加磁场以将磁化的或可磁化的组件在列中集中在结合表面上,随后减小磁场以使柱能够塌陷,以允许更多的部件到达结合表面,并重新应用 磁场,以便使其他组分从结合表面上拉出,以便根据结合的目标组分重新制备柱。 表面敏感传感器(S1,26,29)检测结合的磁化或可磁化的目标部件。 磁场的重新应用充当磁性洗涤步骤以释放不期望的特异性吸附结合,留下目标,以通过简化的硬件提高灵敏度并降低成本和尺寸。
    • 8. 发明申请
    • High Frequency Central Aperture Tracking
    • 高频中心光圈跟踪
    • US20080232208A1
    • 2008-09-25
    • US12064085
    • 2006-08-16
    • Alexander Marc Van Der LeeDominique Maria Bruls
    • Alexander Marc Van Der LeeDominique Maria Bruls
    • G11B7/09
    • G11B7/0903
    • The present invention relates to an optical system for performing radial tracking on an associated optical record carrier. The optical system contains at least one radiation-emitting device capable of emitting at least three beams: a first beam for reading and/or recording information, and at least a second beam and a third beam for tracking. The optical system is adapted for radial tracking of the first spot from a tracking error signal generated based on the high-frequency component of the central-aperture signal of the second and third beams. The tracking error signal may be generated based on a difference signal of a DC-level of the power of the high-frequency components of the central-aperture signal.
    • 本发明涉及一种用于在相关联的光学记录载体上进行径向跟踪的​​光学系统。 该光学系统包含至少一个能够发射至少三个光束的辐射发射装置:用于读取和/或记录信息的第一光束,以及用于跟踪的至少第二光束和第三光束。 光学系统适于从基于第二和第三光束的中心孔径信号的高频分量产生的跟踪误差信号中径向跟踪第一光点。 可以基于中心孔径信号的高频分量的功率的直流电平的差信号来生成跟踪误差信号。
    • 9. 发明申请
    • SENSING DEVICE FOR DETECTING A TARGET SUBSTANCE
    • 用于检测目标物质的感应装置
    • US20120040475A1
    • 2012-02-16
    • US13201927
    • 2010-02-08
    • Dominique Maria BrulsToon Hendrik EversJohannes Joseph Hubertina Barbara Schleipen
    • Dominique Maria BrulsToon Hendrik EversJohannes Joseph Hubertina Barbara Schleipen
    • G01N21/55
    • G01N21/552G01N21/274G01N33/54373
    • The present invention relates to a sensing device (100) for detecting a target substance (2) in an investigation region (113). The sensing device (100) comprises a sensing surface (112) with an investigation region (113) and a reference region (120) thereon. The sensing device (100) further comprises a reference element (121) located at the reference region (120). The reference element (121) is adapted to shield the reference region (120) from the target substance (2) such that light reflected at the reference region (120) under total internal reflection conditions remains unaffected by the presence or absence of the target substance (2). This allows measuring a property, typically the intensity, of light reflected at the reference region (120) independent of the presence or absence of the target substance (2). This measured property of the reflected light can be used for performing an improved correction of light reflected at the investigation region (113).
    • 本发明涉及一种用于在调查区域(113)中检测目标物质(2)的感测装置(100)。 感测装置(100)包括其上具有调查区域(113)和参考区域(120)的感测表面(112)。 感测装置(100)还包括位于参考区域(120)处的参考元件(121)。 参考元件(121)适于屏蔽参考区域(120)与目标物质(2),使得在全内反射条件下在参考区域(120)处反射的光线不会受到目标物质的存在或不存在的影响 (2)。 这允许独立于目标物质(2)的存在或不存在来测量在参考区域(120)处反射的光的特性(通常为强度)。 反射光的测量特性可用于对在调查区域(113)反射的光进行改进的校正。