by Marian Barsoum | Oct 27, 2022 | 2022, Articles
Lars Schreiber and Hendrik Bluhm have now come a significant step closer to solve qubit connectivity on semiconductor chips. Their team succeeded in transferring electrons, the carriers of quantum information, over several micrometres on a quantum chip. Their...
by Marian Barsoum | Oct 24, 2022 | 2022, Articles, ML4Q Young Investigators
ML4Q researchers from Düsseldorf (Bruss group) have published a paper in PRX Quantum on Quantum Conference Key Agreement.Congratulations to all the authors on their impressive results! Publication Federico Grasselli, Gláucia Murta, Jarn de Jong, Frederik Hahn,...
by Marian Barsoum | May 25, 2022 | 2022, Articles, Press release
Quantum computing breakthrough in error correction Researchers at ETH Zurich, supported by the Theoretical Quantum Technology Group at RWTH Aachen and Forschungszentrum Jülich as well as by colleagues in Canada, have succeeded, for the first time, in quickly and...
by Marian Barsoum | May 25, 2022 | 2022, Articles, Press release
Error-free quantum computing gets real Fundamental building blocks for fault-tolerant quantum computing demonstrated For quantum computers to be useful in practice, errors must be detected and corrected. A research group at RWTH Aachen University, in...
by Marian Barsoum | May 12, 2022 | 2022, Articles
Quantum one-way street in topological insulator nanowires Very thin wires made of a topological insulator could enable highly stable qubits, the building blocks of future quantum computers. Scientists see a new result in topological insulator devices as an important...
by Marian Barsoum | May 6, 2022 | 2022, Articles
Research conducted in the ML4Q groups of Simon Trebst, Alex Altland and David DiVincenzo analyzed cutting edge device structures to demonstrate that some of them are indeed operating dangerously close to a threshold of chaotic meltdown. The challenge is to walk a thin...
