A research team, including scientists from the University of Rostock and the Helmholtz-Zentrum Dresden-Rossendorf (HZDR),…
Browsing: Helmholtz-Zentrum Dresden-Rossendorf
The Helmholtz-Zentrum Dresden-Rossendorf (HZDR) is a prominent research institution in Dresden, Germany, specializing in material sciences, health, and energy research. Part of the Helmholtz Association of German Research Centers, HZDR focuses on investigating and developing solutions for societal challenges in these fields. Its research activities include exploring cancer treatments using radiation therapy, developing technologies for renewable energies, and examining the properties of matter under extreme conditions. HZDR operates several large-scale facilities open to researchers worldwide, such as the high magnetic field laboratory and the ELBE Center for High-Power Radiation Sources. Through interdisciplinary collaboration and innovative approaches, HZDR contributes significantly to scientific advances in Germany and globally.
Discovery of a Liquid Quantum State at Extreme Cold A research team involving the Helmholtz-Zentrum…
A research team utilizes laser flashes to replicate the interior of ice planets, which inspires…
HZDR’s successful animal trials with laser-accelerated protons suggest a future of more precise, less invasive…
Nanowires under tension create the basis for ultrafast transistors. Smaller chips, faster computers, less energy…
All cycles fit the picture: New calculations support and expand planetary hypothesis. Not only the…
Electrons Riding a Double Wave Since they are far more compact than today’s accelerators, which…
On the electromagnetic spectrum, terahertz light is located between infrared radiation and microwaves. It holds…
Neural networks are some of the most important tools in artificial intelligence (AI): they mimic…
Recreating extreme conditions in the lab, like those in the interior of planets and stars,…
Higher frequencies mean faster data transfer and more powerful processors – the formula that has…
A new measuring method helps understand the physics of high-temperature superconductivity From sustainable energy to…
Fusion by strong lasers: HZDR scientists want to use quantum mechanics to trigger the fusion…
An overlooked piece of the solar dynamo puzzle: Researchers demonstrate particular form of magnetic instability.…
Flows of molten metal can generate magnetic fields. This so-called dynamo effect creates cosmic magnetic…
Using laser light and intense magnetic fields, an international team of scientists has simulated astrophysical…
New research from physicists at Helmholtz-Zentrum Dresden-Rossendorf looks at how magnetic fields can cause turbulences…