Abstract: A hollow-core anti-resonant-reflecting fibre (HC-AF) includes a hollow-core region, an inner cladding region, and an outer cladding region. The hollow-core region axially extends along the HC-AF. The inner cladding region includes a plurality of anti-resonant elements (AREs) and surrounds the hollow-core region. The outer cladding region surrounds the inner cladding region. The hollow-core region and the plurality of AREs are configured to provide phase matching of higher order hollow-core modes and ARE modes in a broadband wavelength range.

Abstract: An apparatus for determining an arrhythmia of a living heart comprises a signal evaluation device receiving a signal representing a present electric activity of the heart, and determining a frequency spectrum of the signal. The apparatus further comprises a pulse generator generating a sequence of electric pulses to be applied to the heart at a pulse repetition frequency that depends on the frequency spectrum and decreases by at least 20% over the sequence.

Abstract: In order to map the surface of a macromolecule, at least one fluorescent probe is introduced into a medium in which the macromolecule is embedded or will be embedded. Then, a plurality of spatial positions of the at least one fluorescent probe with regard to the macromolecule are determined via localization of the at least one singularized fluorescent probe with a simple standard deviation of no more than 2 nm. For this purpose, fluorescence light photons emitted by the singularized fluorescent probe are recorded. In addition, a bounding surface bounding the determined spatial positions with regard to the macromolecule is determined; and a three-dimensional map of at least a part of the surface of the macromolecule is generated from the bounding surface.

Abstract: According to a method of manufacturing a magnetic memory device, various types of magnetic memory devices can be manufactured at low cost by manufacturing a plurality of magnetic modules by using a delamination phenomenon of pattern segments and stacking the plurality of magnetic modules to complete a stacked memory device.

Abstract: The present invention relates to a fusion protein, comprising the structure N-PCSY-degSigN-M-PCSX-degSigC-C; wherein N represents the N-terminus; PCSY and PCSX each represent a protease cleavage site (PCS), which differ from each other in at least one amino acid residue: degSigN represents a degradation signal which promotes degradation of the fusion protein in a host cell if PCSY is cleaved by a protease such that the first amino acid of degSigN becomes the new N-terminus of the remaining fusion; M represents a cytoplasmic selection marker; and degSigC represents a second degradation signal which promotes degradation of the fusion protein in a host cell if PCSX is not cleaved by a protease; and C represents the C-terminus.

Abstract: A magnetic memory device includes a lower magnetic track layer extending in a first direction and including a plurality of first magnetic domains, a spacer layer on the lower magnetic track layer and extending in the first direction, an upper magnetic track layer on the spacer layer and extending in the first direction, the upper magnetic track layer including a plurality of second magnetic domains, and a plurality of read units on the upper magnetic track layer and arranged apart from one another in the first direction, wherein the plurality of first magnetic domains and the plurality of second magnetic domains have magnetization directions parallel to each other at positions overlapping each other in a second direction perpendicular to the first direction.

Abstract: A method of operating a magnetic memory device includes: (i) applying a first current to a free layer of a magnetic tunnel junction structure, which includes a magnetic translation unit (MTU) extending between a first magnetic pad and a second magnetic pad, and a tunnel barrier layer and a pinned layer stacked on the MTU, so that a multi-domain is established within the MTU, (ii) applying a magnetic field to the free layer so that the magnetization direction of the MTU switches to become anti-parallel to the magnetization directions of the first magnetic pad and the second magnetic pad, (iii) applying a second current to the free layer so that a portion of the multi-domain penetrates into the first magnetic pad, and (iv) applying another magnetic field to the free layer so that the magnetization direction of the first magnetic pad switches.

Abstract: In one aspect the application relates to a computing system for providing data for modelling a human brain comprises a database including a plurality of datasets (or allow access to a plurality of datasets), each dataset including at least a dynamical model of the brain including at least one node and a neurodataset of a neuroimaging modality input. The at least one node include a representation of a local dynamic model and a parameter set of the local dynamic model.

Abstract: An avalanche photodiode array for detecting electromagnetic radiation comprises: a semiconductor substrate (100) having a first main surface (101) and a second main surface (102), which are opposite one another, a plurality of n-doped anode regions (1) formed at the first main surface (101) and separated from one another by pixel isolation regions (7), a p-doped cathode region (3) arranged at the second main surface (102) opposite the anode regions, a drift region (4) between the plurality of anode regions (1) and the cathode region (3), and a p-doped multiplication layer (2) arranged below the plurality of anode regions (1) and below the pixel isolation regions (7), and is characterized by an n-doped field reduction layer (9) arranged below the plurality of anode regions (1) and the pixel isolation regions (7) and above the multiplication layer (2).

Abstract: The present invention pertains in the fields of antibody technology, protein engineering, medicine, pharmacology, infection biology, virology, and medical diagnostics. More specifically, the present disclosure provides VHH antibodies that prevent cell entry of and infection by SARS-CoV-2 and that have been selected for potent cross-reaction and cross-neutralization between the original Wuhan strain and the Alpha, Beta, Gamma, Delta, and Mu variants of concern.

Abstract: A broadband light source device for creating broadband light pulses includes a hollow-core fiber and a pump laser source device. The hollow-core fiber is configured to create the broadband light pulses by an optical non-linear broadening of pump laser pulses. The hollow-core fiber includes a filling gas, an axial hollow light guiding fiber core configured to support core modes of a guided light field, and an inner fiber structure surrounding the fiber core and configured to support transverse wall modes of the guided light field. The pump laser source device is configured to create and provide the pump laser pulses at an input side of the hollow-core fiber. The transverse wall modes include a fundamental transverse wall mode and second and higher order transverse wall modes.

Abstract: The current disclosure relates to methods for treating ovarian cancer based on specific antigen expression of the cancer. Furthermore, the expressed antigen may be used in immunotherapeutic methods for treatment of the ovarian cancer. Aspects of the disclosure relate to immunotherapies targeting CT45 polypeptides, methods for treating ovarian cancer based on CT45 expression, and kits for detecting CT45 polypeptides and nucleotides.

Abstract: The present invention relates to compounds, compositions and kits suitable to precise genome editing efficiency in a eukaryotic target cell or target organism.

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 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: The present invention relates to inorganic-organic hybrid compounds for use in medicine or for use as medication, consisting of an inorganic metal cation and an organic platinum-containing cytostatic anion, in particular also a cisplatin derivative.

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: 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: 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.