Abstract: The invention relates to a method for computationally designing re-usable silicone molds for the reproduction of an object, wherein the silicone mold is fillable with casting material, for example, but not limited to, resin, to form the object.

Abstract: The disclosure relates to a qubit device and to methods of operating a qubit device. In one arrangement, a quantum well structure hosts a hole gas in a quantum well. Electrodes form a plurality of quantum dots in the hole gas and allow encoding of a unit of quantum information in hole spins in the quantum dots. X-rotations on the Bloch sphere can be implemented using a g-factor difference between hole spins and a low applied magnetic field. Z-rotations can be implemented using the exchange interaction.

Abstract: The invention relates to a method for computationally designing a number of re-usable two-pieced molds for the reproduction of an object, wherein each mold is fillable with filling material, in particular resin, to form the object or a part of the object to be reproduced, wherein each mold consists of rigid material.

Abstract: Methods and apparatus for designing a skull prosthesis are disclosed. In one arrangement, imaging data from a medical imaging process is received. The imaging data represents the shape of at least a portion of a skull. The imaging data is used to display on a display device a first virtual representation of at least a portion of the skull. User input defining a cutting line in the first virtual representation is received. A surgical operation of cutting through the skull along at least a portion of the defined cutting line to at least partially disconnect a target portion of the skull from the rest of skull is simulated. Output data is provided based on the simulation. The output data represents a simulated shape of at least a portion of the skull with the target portion at least partially disconnected from the rest of the skull, thereby defining the shape of an implantation site for a skull prosthesis to be manufactured.

Abstract: The invention relates to a method for computationally designing re-usable silicone molds for the reproduction of an object, wherein the silicone mold is fillable with casting material, for example, but not limited to, resin, to form the object.

Abstract: The present invention belongs to the field of biotechnology. More specifically, the invention relates to chimeric fusion proteins comprising a light activated protein domain, e.g., a newly characterized light-oxygen-voltage-sensing (LOV) domain or a light sensing domain of the cyanobacterial phytochrome (PHY) CPH1, wherein the chimeric fusion protein is capable of dimerizing upon excitation with light of a suitable wavelength. Said fusion proteins further comprise the intracellular part of a receptor tyrosine kinase (RTK). The invention further relates to nucleic acid molecules encoding said chimeric fusion proteins; non-human transgenic animals expressing the chimeric fusion protein encoded by said nucleic acid molecules; as well as uses of said chimeric fusion proteins, e.g. in a screening method.

Abstract: For eliminating turbulence in a wall bounded flow a section of the flow-bounding wall is moved in the direction of the flow over the flow-bounding wall.