Molenkamp
Kelsey Molenkamp, Glen Iris AU
Kelsey Scott Molenkamp, Melbourne AU
Patent application number | Description | Published |
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20130152201 | Adjunct Computing Machine for Remediating Malware on Compromised Computing Machine - Described is a technology by which a malware-compromised machine, such as a personal computer is cleaned through the use of a functional adjunct machine, such as a mobile device (or vice-versa). The functional adjunct machine performs actions on behalf of the malware-compromised machine and/or to assist the remediation. This may include downloading antimalware-related data (e.g., an application, antimalware code, signature updates and/or the like) via a marketplace/application store, and transferring at least some of the data and/or programs to the compromised machine. Other actions may include using the functional adjunct machine to boot the malware-compromised machine into a non-compromised state and providing the data or programs to allow remediation of the malware while in this state. | 06-13-2013 |
Laurens W. Molenkamp, Wurzburg DE
Patent application number | Description | Published |
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20080261155 | Metallic Air-Bridges - A lithographic method of producing an air-bridge ( | 10-23-2008 |
20080277645 | Ferromagneic Influence on Quantum Dots - A semiconductor magnetic body comprises a layer ( | 11-13-2008 |
20080316576 | Method and Device for Polarization Conversion Using Quantum Dots - A novel and efficient method for polarization conversion, particularly from linear polarization to circular polarization, and, importantly, vice versa, is obtained using shapeanisotropic self-assembled quantum dots, which, having the advantage of extremely small size (nanometer scale), may be readily incorporated into photonic crystals and/or other optical components. Such devices also have the advantage of working in the absence of an applied magnetic field. Such devices also, when a voltage bias is applied, can be used to manipulate electron spin by manipulating light polarization in the same circuit, and vice versa. This permits a high degree of control for either or both of these in spintronics and/or optical devices, the biased quantum dot being used as a nanometer scale electro-optic modulator. Components utilizing the method and/or devices may be used as part of highly compact optical computing networks and/or spintronics systems for e.g., information processing, quantum computation, holography, and data recording. | 12-25-2008 |
20090009914 | Semiconductor Device Using Locating and Sign of the Spin of Electrons - A spin-valve structure is provided, illustrating the layer structure used for the magnetic tunnel junction, by a method comprising the steps of providing a substrate, growing a ferromagnetic layer on the substrate, growing a tunnel barrier layer on the ferromagnetic layer, providing a first non-magnetic metallic contact on the ferromagnetic layer and providing a second non-magnetic metallic contact for the single ferromagnetic layer. Beside such a single sided structure a double-sided structure can be provided having e.g. a Ga0.94Mn0.06As/undoped GaAs/Ga0.94Mn0.06As trilayer structure on top of a semi-insulating GaAs substrate and an undoped LT-GaAs buffer layer. There is an inner square contact and a surrounding electrical back contact. This sample structure makes it possible to perform two-probe magnetoresistance measurements through both ferromagnets and the GaAs tunnel barrier. The resistance of the device is fully dominated by the vertical tunneling process through the tunnel barrier. | 01-08-2009 |
20090114945 | SPINTRONICS COMPONENTS WITHOUT NON-MAGNETIC INTERPLAYERS - A spintronics element comprises two ferromagnetic layers without a non-magnetic interlayer between them. The two ferromagnetic layers may be independently switched by various means such as but not limited to applying one or more external magnetic fields, and/or employing current induced switching, and/or applying optical spin-pumping. | 05-07-2009 |
Linda K. Molenkamp, Fruitport, MI US
Patent application number | Description | Published |
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20100302792 | LIGHTED EXTERIOR REARVIEW MIRROR SYSTEM - A lighted exterior rearview mirror system includes an exterior rearview mirror assembly including a reflective element and an electrically-operable actuator. The exterior rearview mirror assembly includes a breakaway joint assembly. The reflective element has an electrically powered heater operable to remove ice or dew from the reflective element. The exterior rearview mirror assembly includes a turn signal indicator lamp that has a light source and a lens. The lamp is included in the exterior rearview mirror assembly and unaffected by operation of the actuator. The breakaway joint assembly includes a wire-way through which a wire cable passes. The wire cable includes wires for operating the actuator, the heater and the lamp. The lens of the lamp has a portion that faces rearward of the vehicle and a portion that wraps around an outward side of a casing of the exterior rearview mirror assembly. | 12-02-2010 |
20110299294 | LIGHTED EXTERIOR REARVIEW MIRROR SYSTEM - A lighted exterior rearview mirror system includes an exterior rearview mirror assembly including a reflective element and an electrically-operable actuator. The exterior rearview mirror assembly includes a breakaway joint assembly. The reflective element has an electrically powered heater operable to remove ice or dew from the reflective element. The exterior rearview mirror assembly includes a turn signal indicator lamp that has a light source and a lens. The lamp is included in the exterior rearview mirror assembly and unaffected by operation of the actuator. The breakaway joint assembly includes a wire-way through which a wire cable passes. The wire cable includes wires for operating the actuator, the heater and the lamp. The light source includes at least one light emitting diode. | 12-08-2011 |
Lynn Molenkamp, Portage, MI US
Patent application number | Description | Published |
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20150081163 | OBD ILLUMINATOR CABLE APPARATUS AND METHOD - An on board diagnostic (OBD) II cable connector for use with an automobile diagnostic tool or the like. The on board diagnostic (OBD) II cable connector has a housing having an interface that extends from the housing. The interface engages an on board (OBD) II port on a vehicle using a series of pins extending therefrom. The on board diagnostic (OBD) II cable connector also includes a light source disposed upon the housing. | 03-19-2015 |
William C Molenkamp, Los Angeles, CA US
Patent application number | Description | Published |
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20090202712 | POLARIZED LIGHT-EMITTING FILM AND METHOD FOR PRODUCING THE SAME - A polarized light-emitting layer that comprises a porous silica film formed on a substrate and a conjugated polymer held in the uniaxially oriented, tubular mesopores in the porous silica film. The film can emit fluorescence polarized in a direction parallel to the alignment direction of the mesopores. The film can act as a lasing layer with a low excitation threshold. | 08-13-2009 |