Abstract: A magnetic memory device includes a conductive line that extends in a first direction, and a magnetic track line that extends in the first direction on a top surface of the conductive line. The conductive line may include a first region having a first width in a second direction, and a second region having a second width in the second direction. The first direction and the second direction are parallel to the top surface of the conductive line and are perpendicular to each other. The second width may be greater than the first width. The magnetic track line includes first domains arranged in the first direction on the first region of the conductive line, and second domains arranged in the first direction on the second region of the conductive line. A size of each of the second domains may be less than a size of each of the first domains.

Abstract: The present invention relates to racetrack memory array devices, and more specifically, to a manufacturing method of racetrack memory arrays with integrated magnetic tunnel junction for read/write.

Abstract: The present invention refers to a process for converting a feed gas stream comprising carbon monoxide and hydrogen as major components (synthesis gas) into higher (C3+) alcohols making use of a catalyst combination of a Fischer-Tropsch catalyst and an olefin hydroformylation catalyst. In a second aspect, the invention relates to a Fischer-Tropsch catalyst suitable to be applied in said process.

Abstract: The present disclosure relates to an electronic tag for behavioural monitoring of animals, the electronic tag comprising a microprocessor and at least one sensor. The electronic tag is configured to obtain, via the at least one sensor, movement data of an animal to which the electronic tag is attached and to determine, based on the obtained movement data, a behaviour of the animal. The disclosure further encompasses a corresponding method as well as an ear tag.

Abstract: A method for preparing a laser marking system to create a colored laser mark on a specimen by providing a laser marking system and a specimen comprising a surface layer, where the laser marking system has a preset number of laser parameters, and performing an exploration of a first gamut specified by the laser marking system and the specimen. The method further generally comprises creating a design space with a preset number of design points; performing a marking of a sample on the specimen for each design point; measuring the sample using at least one detection device and determining a performance point for each design point; evaluating the performance space with regard to preset performance criteria using an evaluation device; generating an offspring design space with offspring design points; and creating a first gamut using a subset of performance points.

Abstract: Disclosed are photoactivable fluorescent dye compounds of formula I: wherein: n=0, 1, 2, 3; X is selected from O, CRR?, SiRR? and GeRR?, where R and R? represent independently alkyl, cycloalkyl, alkenyl, alkynyl or aryl; Y is H, SO3H or SO3M, with M being a positively charged counterion, in particular selected from NH4+ and cations of organic ammonium compounds; R1 is H, CO2H, C(O)NH-linker-CO2H, C(O)O-ligand, C(O)NH-ligand or C(O)NH-linker-ligand; R2 may represent H, unsubstituted or substituted alkyl (including cycloalkyl); R3 and R4 may represent independently H or F; R5 is H, Me, CO2H, C(O)NH-linker-CO2H, C(O)O-ligand, C(O)NH-ligand or C(O)NH-linker-ligand; wherein the ligand moiety at each occurrence represents a reactive group or tag, capable to form a covalent or non-covalent bond or molecular complex with a target chemical entity or substance. Methods of using the compounds in imaging of fixed and living cells are also disclosed.

Abstract: The present invention relates to improved methods for obtaining purified contrast agents that are suitable for magnetic resonance imaging. The contrast agents are prepared by a method such dynamic nuclear polarization (DNP), hydrogenative parahydrogen induced polarization (PHIP), or Signal Amplification By Reversible Exchange (SABRE). High degrees of purity are achieved by performing an evaporation step to separate a signal enhanced precursor or the contrast agent from a metal catalyst or a source of radicals.

Abstract: A method for optimizing parameters of a physical light propagation model. The method includes making available a physical model of a light propagation in an optical system, radiating an input-light distribution into an excitation path of the optical system using an illumination unit, passing the input light distribution through a scattering body, wherein the scattering body is placed in the excitation path of the optical system so that the input-light distribution is changed to a reflection-light distribution, recording the reflection-light distribution, transferring the recorded reflection-light distribution to the physical model, and calculating distortion parameters of the physical model based on the reflection-light distribution. The distortion parameters characterize the scattering body. The reflection-light distribution is at least partially reflected as fluorescence radiation by a fluorescence-capable body within the scattering body.

Abstract: A method for switching magnetic moments in a magnetic material by: a) heating a system formed from a layer of magnetic material and a layer of a metal contacting and forming an interface with one surface of the magnetic material layer, the heating step increasing the temperature to at least 1 to 100 K above the blocking temperature of the magnetic material, b) applying current pulses having a fall time to the system at least at a point in time when the system is heated to at least 1 to 100 K above the blocking temperature of the magnetic material, thereby generating a spin texture in the magnetic material layer and c) then cooling the system to a temperature of below the blocking temperature at a cooling rate which is greater than the current pulses fall time, thereby setting the spin texture in the magnetic layer.

Abstract: The invention relates to a system for displaying information, comprising: an emission device arranged to emit light so as to display information to a user, the emission device being adapted to emit the light in a pulsed manner so that the intensity of the light varies between a high value and a low value, a selective viewing device comprising a panel, the panel being adapted so that the user can view the light which is emitted by the emission device through that panel so as to visually perceive the information being displayed, the panel having a variable transparency which can be varied between a state of high transparency and a state of low transparency, the system being adapted to synchronize the emission device and the selective viewing device so that the states of the emission device emitting light at a high-intensity value and the states of the panel of the selective viewing device of high transparency overlap in time, the system further comprising a photoelectric conversion means arranged to convert amb

Abstract: An optical component comprising a planar metasurface arranged on a surface of a first substrate and a top layer arranged in a height direction Z above the metasurface, wherein the metasurface comprises a plurality of scattering structures, wherein a dielectric material is deposited on a subset of the plurality of scattering structures, wherein an active media is sandwiched between the metasurface and the top layer, wherein an incident electromagnetic radiation is transmitted or reflected by the optical component, wherein a phase profile modulation is induced on the incident electromagnetic radiation during the reflection or transmission.

Abstract: A method of creating an optical atom trap comprises the steps of providing an incoherent light field with a light source apparatus, by creating a pulsed laser light beam of laser pulses with a repetition rate equal to or above 100 kHz and a relative spectral width of 10?4 to 10?2, coupling the pulsed laser light beam to an input end of a multimode waveguide device and guiding the pulsed laser light beam by total internal reflection to an output end of the multimode waveguide device, wherein the incoherent light field is provided at the output end, and creating the optical atom trap for trapping atoms in an atom trap chamber device by coupling the incoherent light field to the atom trap chamber device, wherein the optical atom trap has a trap frequency and the atoms have multiple resonance frequencies, and the laser pulses for providing the incoherent light field are created such that the repetition rate is above the trap frequency and the spectral width is below a spectral range between the resonance frequenc

Abstract: The present invention relates to a method for transferring a two-spin order of a molecule (e.g. parahydrogen) into a hyperpolarization of at least one heteronucleus, the method comprising the steps of: providing a molecule (e.g. parahydrogen pH2) comprising two protons and at least one heteronucleus (S3, S4), the protons having nuclear spins being coupled to a nuclear spin of the at least one heteronucleus; exposing the protons and the at least one heteronucleus to an e.g.

Abstract: A computer-implemented method for compressing digital data includes obtaining a sequence of digital data values; mapping the sequence of digital data values to a sequence of code words having non-uniform bit lengths; packing the sequence of code words into a sequence of storage words having uniform bit length and corresponding to a fixed-size piece of data handled as a unit by the instruction set or the hardware of a processor; and outputting the sequence of storage words together with a first bitmask indicating the bit length of each code word, wherein in the method is implemented using special purpose vector instructions.

Abstract: A magnetic memory device may include a magnetic track, which is extended in a first direction, and a first electrode, which is provided at a biasing point of the magnetic track and is configured to apply a voltage to the magnetic track. The magnetic track includes a first region between a first end of the magnetic track and the biasing point and a second region between the biasing point and a second end of the magnetic track. The first electrode may be configured to cause a difference between a current density in the first region and a current density in the second region.

Abstract: A method where a propeller is set into locomotion relative to a medium at least partially surrounding the propeller. An actuator induces a rotation of the propeller relative to the medium and about a rotational axis of the propeller, and the propeller converts its rotational movement into locomotion relative to the medium. The aspect ratio of at least one cross-section of the propeller is three or more. Also a helical or modifiedly helical propeller for converting rotational movement of the propeller into locomotion of the propeller relative to a medium at least partially surrounding the propeller, where the aspect ratio of at least one cross section of the propeller is three or more. And a method of producing a propeller, including the step of providing a plate extending along the helical axis, where the aspect ratio of at least one cross section of the plate is three or more.

Abstract: The present invention relates to a device for dispensing a measured amount of a particulate material and a method.

Abstract: A method for creating multiple sequences of diffusion-weighted magnetic resonance (MR) images of an object is described, wherein each of said sequences of MR images represents the same series of contiguous cross-sectional slices covering a volume of the object.

Abstract: In a method of detecting changes in direction of a collimated coherent light beam, the light beam is split into partial light beams which are superimposed on a camera to form an interference pattern displaying light intensity minima and maxima alternatingly following to one another in a transverse direction oriented transversely to an average propagation direction of the partial beams. The light beam is focused into at least one focus located in front of the camera. Pictures of the interference pattern including a plurality of the light intensity maxima are registered with the camera. An average shift of the plurality of light intensity maxima with regard to the camera in the at least one transverse direction is determined from the pictures. A change in angular orientation of the collimated coherent light beam in the at least one transvers direction is deduced from the average shift.

Abstract: The invention relates to a DEPFET comprising: a semiconductor substrate (100) of a first conduction type, which has a first main surface (101) and a second main surface (102), which are opposite one another; a source terminal region (1s) of a second conduction type on the first main surface (101); a drain terminal region (1d) of a second conduction type; a channel region (10), which is arranged between the source terminal region (1s) and the drain terminal region (1d); a gate electrode (11), which is separated from the channel region (10) by a gate insulator (6); a rear activation region (104) of a second conduction type, which is formed on the second main surface (102); and a substrate doping increase region (2) of a first conduction type, which is formed at least under the source terminal region (1s) and under the channel region (10), the substrate doping increase region (2) having a signal charge control region (20) of the first conduction type below the gate electrode (11), in which signal charge control