This demanding experiment is only possible with the help of PSI's proton accelerator facility. There Aldo Antognini's team generates so-called muonic helium-3, in which the two electrons of the helium ...

Even though we now have several meta-analytic studies on published studies on Psi -related dream effects (e.g. see International Journal of Dream Research Volume 10, No. 2 (2017)) which establish ...

In experiments at the Paul Scherrer Institute PSI, an international research collaboration has measured the radius of the atomic nucleus of helium five times more precisely than ever before. With the ...

The Dutch Institute for Fundamental Energy Research (DIFFER), a research lab based in the Netherlands, is utilizing its specialized device, Magnum-PSI, to test and develop materials capable of ...

In May 2016, close to the northern border of Switzerland, radiochemist Zeynep Talip suited up for the hot laboratory (Hotlab) at the Paul Scherrer Institute (PSI), where experiments with radioactive ...

At NASA, we are excited to announce the roll-out of the Physical Science Informatics (PSI) data repository for physical science experiments performed on the International Space Station (ISS). The PSI ...

With X-ray microscopes, researchers at PSI look inside computer chips, catalysts, small pieces of bone, or brain tissue. The short wavelength of the X-rays makes details visible that are a million ...

For the first time, researchers at the Centre for Proton Therapy at the Paul Scherrer Institute PSI in Switzerland have tested ultrafast, high-dose irradiation with protons. This new, experimental ...

In first-of-their-kind experiments, scientists have been able to precisely follow how the magnetic structure of a material changes. The study was carried out on cupric oxide (CuO). The change of ...