Im Rahmen des Projektes zur Neubestimmung der Avogadro-Konstante konnte mit Hilfe der Plasma-Massenspektrometrie ein neues Präzisionsmessverfahren zur Bestimmung der Isotopenhäufigkeit von Siliciummaterialien realisiert werden.

Total, differential elastic and double differential inelastic electron scattering cross sections of tetrahydrofuran have been measured at PTB and were included in the PTB Monte-Carlo program for track structure simulation. First simulation results based on these cross sections indicate that previous the biological damage to DNA is overestimated when the cross sections of water are used instead.

In 2007, the European Space Agency (ESA) started developing a direct-reading dosimeter for astronauts. PTB was involved in a preliminary study dedicated to the conceptual construction of a dosimetric system in the International Space Station (ISS).

Monte Carlo calculations enable the simulation of electron and photon transport through matter. Based on the simulations, among others, the (mean) energy can be determined which is deposited within a certain volume during the passage of the particles. In the field of radiation therapy, the correctness of such Monte Carlo simulations is particularly important, since they provide the possibility of...

Radon metrology at PTB moves to another location: After 20 years of successful work in the setting-up, investigation and development of new procedures, the laboratory area so far used is becoming too small. The extension of radon metrology in the past few years from radon-222 to radon-220 (thoron) and, recently, to the sector of low-level measurements, has brought about an increase in measuring...

Within the scope of the programme "Innovation with Standards (INS)", funded by the German Association for Electrical, Electronic and Information Technologies (Deutsche Kommission Elektrotechnik Elektronik und Informationstechnik) of DIN and VDE (DKE), the project "Pulsed Radiation in Radiation Protection" has been approved. The aim of this project is to develop an innovative concept for the...

The use of a miniature X-ray device for intra- or post-operative irradiation has increasingly established itself as an alternative to the radioactive sources used today in brachytherapy, the so-called "seeds". An advantage is that the local irradiation is electrically regulated and is limited in time. Thus, no radioactive sources must remain permanently in the body, as is usually the case in...

A multi-frame gated optical imaging system for time-resolved neutron radiography was developed. It will be used for energy selective imaging in pulsed beams (e.g.Bragg edge radiography) or as a stroboscopic imaging system for thermal-neutron radiography of dynamic processes. First results of its evaluation at the ANTARES facility of the Munich research reactor FRM 2 are presented.

Commercially available detectors made of monocrystalline diamond offer the potential for applications in fusion research. With a newly developed fast current amplifier combined with a digital data acquisition system, it is possible to perform measurements at extremely high neutron fluence rates. Measurements with monoenergetic neutrons and high-energy charged particles confirm that this measuring...

For the BOREXINO experiment in the Laboratori Nazionali del Gran Sasso (LNGS), a Th-228 gamma testing source is required which may show only a very low neutron emission. Such a source, prepared by the Max Planck Institute for Nuclear Physics, Heidelberg, and by other partners, was investigated at PTB. The measurement of the neutron source strength has shown that it meets the condition for being...

By means of deconvolution procedures it is possible to resolve structures in a spectrum which are finer than the instrument resolution of the spectrometer. A new procedure now allows this property (which is called "super-resolution") to be determined quantitatively for the first time for a scintillation spectrometer which is used for plasma diagnosis. This procedure is also of significance for...

The total electron-scattering cross sections of pyrimidine, the core constituent of two of the four DNA nucleic bases, were determined experimentally in the energy range between 20 eV and 1 keV.

The cross sections for elastic electron scattering in trimethyl phosphate were determined experimentally for electron energies between 20 eV and 1 keV and compared with theoretical calculations. Hence, the elastic electron scattering cross sections are now known for both constituents of the DNA backbone.

The stopping power of a substance depends on the type charge state and energy of the ionizing particle being stopped. The stopping power is identical for different ions of the same charge and identical velocities. The first moment of the frequency distribution of the size of ionization clusters - the mean ionization cluster size M1(Q) - is proportional to the stopping power. Therefore, M1(Q)...

As a result of the Geant4-DNA project, a second Monte Carlo program for nanodosimetric simulation calculations is now available in addition to the track structure program developed at PTB. For a series of beam qualities, the parameters of the nanodosimetric track structure were calculated by means of the two programs and compared with each other.

Whether in Asia, Europe or Latin America: An ever increasing number of geological and epidemiological studies are turning their attention to the short-lived radon isotope Rn-220 (half life T½ = 55 s) - also called "thoron" - which has so far hardly received any consideration. At present, the newly developed detector systems used can be traceably calibrated only at PTB: Since 2010, the primary...

In order to calibrate measurement devices for the activity concentration of Rn-222 in air below 1000 Bq/m3, a low-level radon reference chamber is currently being set up: It covers a traceable volume (0.5 m3) for the generation of the reference atmosphere, a device for the transfer of defined activities and the development of a high-sensitivity transfer standard.

In a cooperation with the Bundesamt für Strahlenschutz (Federal Office for Radiation Protection), mathematical simulations (method: Finite Elements based on the measurement of the turbulent transport processes) of a thoron distribution were compared with measurements of the associated thoron activity concentration in the thoron progenies chamber.

The ionization chambers used in dosimetry for radiation therapy are usually calibrated at 60Co radiation in the measurand absorbed dose to water. If used at other radiation qualities, e.g. at higher photon energies, the change of the response of the ionization chamber is taken into account by means of the energy-dependent kQ factor. Both - the calibration factor and the kQ factor - relate to a...

The effective cross sections for neutron activation of diverse molybdenum (Mo) isotopes were measured in the neutron energy range between 7 MeV and 15 MeV.