Abstract: A compound, which is 1-(1,3-bis(methylthio)propoxy)-3-(methylthio)propan-1-ol, a composition containing the compound, a method for the preparation thereof, a method for preparing 3-methylthiopropionaldehyde by reacting 1-(1,3-bis(methylthio)propoxy)-3-(methylthio)propan-1-ol with acrolein, and also to the use of 1-(1,3-bis(methylthio)propoxy)-3-(methylthio)propan-1-ol or compositions containing the compound for the storage and/or transport of 3-methylthiopropionaldehyde and/or methyl mercaptan.

Abstract: A method and system provide a magnetic read apparatus. The magnetic read apparatus includes a read sensor. The read sensor includes a pinning layer, a nonmagnetic insertion layer and a pinned layer. The nonmagnetic insertion layer has a location selected from a first location and a second location. The first location is between the pinned layer and the pinning layer. The second location is within the pinning layer.

Abstract: A method provides a read sensor stack including an antiferromagnetic (AFM) layer, a pinned layer on the AFM layer, a free layer, and a nonmagnetic layer between the free and pinned layers. Providing the AFM layer includes depositing an AFM layer first portion at a first elevated temperature and at a rate of at least 0.1 Angstrom/second. This AFM layer first portion is annealed in-situ at at least one hundred degrees Celsius. An AFM sublayer is deposited at an elevated temperature and at a sublayer deposition rate of less than 0.1 Angstrom/second. The already-deposited portion of the AFM layer is annealed in-situ at at least one hundred degrees Celsius and less than five hundred degrees Celsius. The sublayer depositing and annealing steps may be repeated in order at least once to provide an AFM layer second portion that has multiple sublayers and is thinner than the AFM layer first portion.

Abstract: A method and system provide a magnetic read apparatus. The magnetic read apparatus includes a read sensor. The read sensor includes a pinning layer, a nonmagnetic insertion layer and a pinned layer. The nonmagnetic insertion layer has a location selected from a first location and a second location. The first location is between the pinned layer and the pinning layer. The second location is within the pinning layer.

Abstract: A method, apparatus, and manufacture for configuring multiple content protection systems is provided. A client media player is employed to determine whether media content is protected. The client media player includes an application, and further includes a media engine that is a distinct program from the application. At least one type of content protection system supported by the media engine is determined. The application is employed to get a key and/or a license for the protected media content in accordance with the determined type of content protection system. The application is employed to instruct the media engine to play the media content. The key and/or the license for the determined type of content protection system is sent from the application to the media engine.

Abstract: One embodiment of the present invention sets forth a technique for streaming digital media content with transition effects. Audio data may be modulated and received by the streaming device for an audio fade-in effect. Similarly, video data may be modulated to perform various visual effects. Such a technique allows for fading-in of audio and/or video, fading-out of audio and/or video, and effects that blend audio from different content and video from different content during a transition from one digital media content to a different digital media content or within the same digital media content. The modulated audio and video data to generate the audio or video effect during a transition may be precomputed or computed in real-time and transmitted to the streaming device. The streaming device switches between original unmodulated content streams and effect content streams when transitions are detected.

Abstract: A magnetic read apparatus has an air-bearing surface (ABS) and includes a shield, a crystal decoupling structure on the shield and a read sensor on the crystal decoupling structure. The crystal decoupling structure includes at least one of a magnetic high crystalline temperature amorphous alloy layer and a combination of a high crystalline temperature amorphous layer and an amorphous magnetic layer. The high crystalline temperature amorphous layer has a crystalline temperature of at least three hundred degrees Celsius. The amorphous magnetic layer is amorphous as-deposited.

Abstract: Embodiments for changing bit rates in streaming media are provided. As portions of a streaming media file are downloaded for playback, the size of the portion is compared with an expected size determined prior to initiating playback of streaming AV data. The portion of the media file may be padded such that the size of the portion matches the size specified prior to initiating playback of streaming AV data.

Abstract: A magnetic read transducer including a magnetoresistive sensor is described, as well as a fabrication method thereof. The magnetoresistive sensor includes a cap layer overlaying a free layer. The cap layer is situated with a first thickness to absorb boron from the free layer. The magnetoresistive sensor is annealed, and boron is diffused from the free layer and absorbed by the cap layer, improving the magnetic performance of the free layer. The cap layer thickness is then reduced to a second thickness, thereby reducing the shield-to-shield (SS) stack spacing of the magnetoresistive sensor and allowing for increased areal recording density.

Abstract: A magnetic sensor for use in a data storage device is described. The magnetic sensor includes a composite layer comprising a free layer portion and a bias layer portion each comprising a magnetic material, a shield layer comprising a magnetic material, and a continuous spacer layer comprising a non-magnetic material, the spacer layer separating the shield layer from the composite layer such that the magnetic coupling between the shield layer and the bias layer portion is stronger than the magnetic coupling between the shield layer and the free layer portion. A disk drive comprising a rotatable magnetic recording disk and the slider including the magnetic sensor arranged with the magnetic recording disk is also described.

Abstract: One embodiment of the present invention sets forth a technique for streaming digital media content with transition effects. Audio data may be modulated and received by the streaming device for an audio fade-in effect. Similarly, video data may be modulated to perform various visual effects. Such a technique allows for fading-in of audio and/or video, fading-out of audio and/or video, and effects that blend audio from different content and video from different content during a transition from one digital media content to a different digital media content or within the same digital media content. The modulated audio and video data to generate the audio or video effect during a transition may be precomputed or computed in real-time and transmitted to the streaming device. The streaming device switches between original unmodulated content streams and effect content streams when transitions are detected.

Abstract: Embodiments for changing bit rates in streaming media are provided. As portions of a streaming media file are downloaded for playback, the size of the portion is compared with an expected size determined prior to initiating playback of streaming AV data. The portion of the media file may be padded such that the size of the portion matches the size specified prior to initiating playback of streaming AV data.

Abstract: A method, apparatus, and manufacture for content protection using authentication data. A client media player is employed to determine whether media content is protected. The client media player includes an application, and further includes a media engine that is a distinct program from the application. Upon determining that the media content is protected, the application is employed to get a key and/or a license for the protected media content such that authentication data is employed to authorize the client. The authentication data includes at least one of a software token or a cookie. The application is employed to instruct the media engine to play the media content. The key and/or the license is sent from the application to the media engine.

Abstract: A rail vehicle includes electric equipment with electrical components and at least one container unit which is provided to accommodate the electrical components. The container unit of the rail vehicle enables the electrical equipment to be mounted in a non-complex manner and the components thereof being maintained in a simple and reliable manner. The container unit has several voltage regions which are adjacent to each other and which are spatially separated from each other. A different voltage is associated with each respective region.

Abstract: One embodiment of the present invention sets forth a technique for streaming digital media content with transition effects. Audio data may be modulated and received by the streaming device for an audio fade-in effect. Similarly, video data may be modulated to perform various visual effects. Such a technique allows for fading-in of audio and/or video, fading-out of audio and/or video, and effects that blend audio from different content and video from different content during a transition from one digital media content to a different digital media content or within the same digital media content. The modulated audio and video data to generate the audio or video effect during a transition may be precomputed or computed in real-time and transmitted to the streaming device. The streaming device switches between original unmodulated content streams and effect content streams when transitions are detected.

Abstract: Systems and methods are provided for manufacturing a magnetic recording sensor for use in a magnetic reader, such as a tunneling magnetoresistance (TMR) readers. The magnetic recording sensor can be manufactured by heating a substrate in a first chamber and depositing an antiferromagnetic (AFM) layer on the heated substrate. Additionally, a first pinned layer is added onto the AFM layer, and the substrate is subsequently cooled.

Abstract: A method and system provide a magnetic transducer including a first shield, a read sensor, and a second shield. The read sensor is between the first shield and the second shield. The read sensor includes a pinned layer, a nonmagnetic spacer layer and a free layer. The nonmagnetic spacer layer is between the pinned layer and the free layer. The free layer includes a plurality of ferromagnetic layers interleaved with and sandwiching a plurality of nonmagnetic layers. The plurality of ferromagnetic layers are ferromagnetically aligned.

Abstract: A method, apparatus, and manufacture for content protection for HTML media elements is provided. A client media player is employed to determine whether media content is protected. The client media player includes an application, and further includes a media engine that is a distinct program from the application. Upon determining that the media content is protected, the application is employed to get a key and/or a license for the protected media content. The application is employed to instruct the media engine to play the media content. The key and/or the license is sent from the application to the media engine.