Dein Suchergebnis zum Thema: Karlsruhe

MPI of Physics

https://www.mpg.de/151995/physics?filter=leitung

Studying the smallest building blocks of matter and how they interact with each other. The behaviour of these building blocks – the quarks, charged leptons and neutrinos – helps scientists to understand the origin of the universe and its present form.
My group is involved in the KATRIN experiment at the Karlsruhe Institute of Technology

MPI of Physics

https://www.mpg.de/151995/physics?filter=jobs

Studying the smallest building blocks of matter and how they interact with each other. The behaviour of these building blocks – the quarks, charged leptons and neutrinos – helps scientists to understand the origin of the universe and its present form.
My group is involved in the KATRIN experiment at the Karlsruhe Institute of Technology

MPI of Physics

https://www.mpg.de/151995/physics?filter=mpi_news

Studying the smallest building blocks of matter and how they interact with each other. The behaviour of these building blocks – the quarks, charged leptons and neutrinos – helps scientists to understand the origin of the universe and its present form.
My group is involved in the KATRIN experiment at the Karlsruhe Institute of Technology

MPI of Physics

https://www.mpg.de/151995/physics?filter=yearbook

Studying the smallest building blocks of matter and how they interact with each other. The behaviour of these building blocks – the quarks, charged leptons and neutrinos – helps scientists to understand the origin of the universe and its present form.
My group is involved in the KATRIN experiment at the Karlsruhe Institute of Technology

A new dimension in materials research

https://www.mpg.de/4325134/materials_research_dimension?page=2

In the future, physicists will be able to follow a new lead in their search for new materials for electronic components, for example. An international team of researchers headed by scientists at the Max Planck Institute for Solid State Research in Stuttgart is the first to accurately observe how the physical properties of a substance – or to be more precise of the metal oxide lanthanum nickel oxide – change when it is used in two-dimensional, instead of three-dimensional form. In fact, a film consisting of two layers of material exhibits completely different electronic and magnetic effects when cooled to very low temperatures than does a film comprising four layers. The ability to control the physical characteristics via the dimension as well opens up new possibilities to identify materials from which the chips of the future could be made.
therefore directed an intense, infrared laser beam produced by the ANKA synchrotron in Karlsruhe