How are superconductivity and magnetism connected? A puzzling relation between magnetism and superconductivity in a quantum ...

Nanomechanical systems developed at TU Wien have now reached a level of precision and miniaturization that will allow them to be used in ultra-high-resolution atomic force microscopes in the future.

Intense, extremely short-wave X-ray pulses in the nanometer wavelength range are difficult to produce, but now a new, simpler method has been developed at TU Wien (Technical University of Vienna, ...

It has become possible to control one of the most important chemical processes: switching oxygen molecules between a reactive and unreactive state. At TU Wien (Vienna), it has become possible to ...

Identify research insights to guide research strategy and grow your impact with our Nature Strategy reports. Actionable insights into research performance. Detailed analysis of strengths and ...

Design makes light travel in a circle so it can interact multiple times with target. New microscope makes light travel in a circle. How can one achieve the best possible image in a microscope without ...

According to TU Vienna's Professor Bernhard Lendl, because only a few of the hundreds of millions of photons hitting a sample trigger a Raman scattering process and these scattered particles of light ...

A tiny heart catheter pump which supports the human heart in critical conditions while pumping has been developed at the Vienna University of Technology (TU Vienna). Vienna (TU). - The pump may not be ...

After a “security incident” in the IT system of TU Vienna, all students and staff must reset their passwords. Sensitive data may also have been compromised.