Quantum Brilliance, the leading developer of miniaturized, room-temperature quantum computing products and solutions, and ParityQC, the world’s only quantum architecture company, announce they have jointly been awarded a contract by Agentur für Innovation in der Cybersicherheit GmbH „Innovation in Cybersecurity“ to develop the world’s first mobile quantum computer by 2027.

Now, a team of researchers of the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) in Germany and Brookhaven National Laboratory in the United States has demonstrated a new way to study disorder in superconductors using terahertz pulses of light. Adapting methods used in nuclear magnetic resonance to terahertz spectroscopy, the team was able to follow the evolution of disorder in the transport properties up to the superconducting transition temperature for the first time.

Researchers from the Cluster of Excellence ct.qmat have developed a method to model a central theory of quantum gravity in the laboratory. Their goal: to decipher previously unexplained phenomena in the quantum world.

Quantum Optics Jena (QOJ), a pioneering startup in the field of quantum technology, today announced the closing of an €8.5 million Series A funding round. This investment underscores the growing confidence in German quantum technology and its potential to revolutionize secure data transmission.

Live test Q.ANT’s energy efficient Native Processing Unit with photonic chip inside. The first generation is tailored for AI inference to improve the carbon footprint of Next-Generation-Datacenters.

A team of researchers led by Professor Christoph Kerzig of Johannes Gutenberg University Mainz (JGU) has now discovered a novel approach for the straightforward preparation of highly efficient dyad photocatalysts. Two commercially available salts are mixed and because of attractive electrostatic interactions, i.e., Coulomb interactions, the photoactive units form an ion pair that allows them to interact synergistically.

A research team led by Professor Monika Aidelsburger and Professor Immanuel Bloch from the LMU Faculty of Physics has investigated this question concerning quantum many-body systems and found indications that they can be described macroscopically through simple diffusion equations with random noise. The study was recently published in the journal Nature Physics.

Physicists from Würzburg present a nanometre-sized light antenna with electrically modulated surface properties – a breakthrough that could pave the way for faster computer chips.

Chunyu Guo, group leader in the Department for Microstructured Quantum Matter at the MPSD, has been awarded a Starting Grant by the European Research Council (ERC) for his Free-Kagome project. He will investigate the novel effects of electronic correlations in the recently discovered AV3Sb5 family of Kagome superconductors using a sophisticated framework that isolates the samples from external influences and makes it possible to control them with extremely high precision.

Physicists at the University of Bonn and the University of Kaiserslautern-Landau (RPTU) have created a one-dimensional gas out of light. This has enabled them to test theoretical predictions about the transition into this exotic state of matter for the first time. The method used in the experiment by the researchers could be used for examining quantum effects. The results have been published in the journal “Nature Physics.”