As reaction plane direction in heavy-ion collisions can be determined only coarsely, any attempt to measure 3D differential distributions, including over azimuthal angle, will yield blurred results. Deblurring procedures, analogous to those in optics, are proposed to correct for the coarse reaction-plane procedures and, simultaneously, any instrumental inefficiencies, to arrive at 3D...
The talk will cover the most recent results from the Belle II experiment
Today’s most precise timekeeping is based on optical atomic clocks. However, those could potentially be outperformed by a nuclear clock, based on a nuclear transition in-stead of an atomic shell transition. Such a nuclear clock promises intriguing applica-tions in applied as well as fundamental physics, ranging from geodesy and seismolo-gy to the investigation of possible time variations of...
In nuclear medicine, radioisotopes are injected into a patient to perform functional imaging or targeted radionuclide therapy. However, only a handful of radioisotopes are used in this field, mostly limited by a supply-and-demand closed loop that does not leave room for innovation. At radioactive ion beam facilities, however, we can provide a wide catalogue of radioisotopes to support medical...
Jet cross sections at high-energy colliders exhibit intricate patterns of logarithmically enhanced higher-order corrections. In particular, so-called non-global logarithms emerge from soft radiation emitted off energetic partons inside jets. While this is a single-logarithmic effect at lepton colliders, at hadron colliders phase factors in the amplitudes lead to double-logarithmic corrections...
