Abstract: A chromatic, confocal measuring device uses a broadband, high-intensity light source implemented by optically pumping a luminophore. The illumination of the luminophore is selected so that the properties of the luminophore are exploited to maximize the optical output power of the light source.

Abstract: A panel radiation detector is provided for detecting radiation event(s) of ionizing radiation, comprising a plurality of adjoining plastic scintillator slabs, a plurality of silicon photomultiplier sensors arranged at an edge of at least one of the plastic scintillator slabs) and configured to detect scintillation light generated in the scintillator slabs responsive to the radiation events, and a plurality of signal processing units each connected to one of the silicon photomultiplier sensors, wherein the signal processing units each comprise a digitization circuit configured to generate a digitized signal for signal analysis by executing 1-bit digitization of a detection signal generated by at least one of the silicon photomultiplier sensors responsive to the detected scintillation light for determining the energy of the detected radiation event(s).

Abstract: Disclosed is a battery cell including an electrode, a housing, a cell interior inside the housing, a temperature sensor, and a heat-conducting part which differs from the electrode, is entirely or partially disposed inside the housing of the battery cell, and is thermally connected to the temperature sensor.

Abstract: The invention relates to a pipette with a first opening for receiving and removing a liquid to be dispensed and a second opening which lies opposite the first opening. According to the invention, the pipette comprises a material which causes a wavelength shift between the electromagnetic radiation absorbed by the pipette and the electromagnetic radiation emitted by the pipette. The invention additionally relates to a pipette aid for receiving a pipette for dispensing a liquid. According to the invention, the pipette aid comprises both a data storage device, in which a database with reference measurement data is stored, as well as two radiation sources and a radiation detector, wherein the two radiation sources emit electromagnetic radiation with different wavelengths, and the radiation detector detects the wavelength of the received electromagnetic radiation.

Abstract: A method for characterizing a radiation source by a radiation portal monitoring system is described, the radiation portal monitoring system including a plurality of detectors including radiation detectors configured to detect ionizing radiation of the radiation source and to generate a detection signal responsive to detection of the ionizing radiation, and a control system including at least one processor executing the steps of: assigning an identification address to each detector; selecting a set of at least two detectors using the identification addresses; assigning an effective portal area to the selected set of detectors; receiving via a communication network a detection signal generated by the detectors of the selected set, using the identification addresses of the detectors of the selected set; and characterizing the radiation source associated with the effective portal area using the detection signal of the detectors of the selected set.

Abstract: Disclosed herein is a handheld device for training at least one movement and at least one activity of a machine. The handheld device may include a handle, an input unit configured to input activation information for activating the training of the machine, an output unit configured to output the activation information for activating the training of the machine to a device external to the handheld device, and a coupling structure for releasably coupling an interchangeable attachment configured according to the at least one activity.

Abstract: A panel radiation detector is provided for detecting radiation event(s) of ionizing radiation, comprising a plurality of adjoining plastic scintillator slabs, a plurality of silicon photomultiplier sensors arranged at an edge of at least one of the plastic scintillator slabs) and configured to detect scintillation light generated in the scintillator slabs responsive to the radiation events, and a plurality of signal processing units each connected to one of the silicon photomultiplier sensors, wherein the signal processing units each comprise a digitization circuit configured to generate a digitized signal for signal analysis by executing 1-bit digitization of a detection signal generated by at least one of the silicon photomultiplier sensors responsive to the detected scintillation light for determining the energy of the detected radiation event(s).

Abstract: A method for characterizing a radiation source by a radiation portal monitoring system is described, the radiation portal monitoring system including a plurality of detectors including radiation detectors configured to detect ionizing radiation of the radiation source and to generate a detection signal responsive to detection of the ionizing radiation, and a control system including at least one processor executing the steps of: assigning an identification address to each detector; selecting a set of at least two detectors using the identification addresses; assigning an effective portal area to the selected set of detectors; receiving via a communication network a detection signal generated by the detectors of the selected set, using the identification addresses of the detectors of the selected set; and characterizing the radiation source associated with the effective portal area using the detection signal of the detectors of the selected set.