You may have seen the headlines about problematic #superconductivity and #QuantumComputing papers. Last week, science writer Sophia Chen traveled to Pittsburgh to watch the condensed matter physics community try to get a handle on the systemic issues behind such retractions.
Interesting development to follow: Researchers from the University of Basel and the NCCR SPIN have achieved the first controllable interaction between two hole spin qubits in a conventional silicon transistor.
These qubits can be manufactured with FinFETs transistors using "classical" silicon fabrication methods, opening up the path to faster scaling than competing architectures.
"Two of the leaders in quantum technologies, Quantinuum and Microsoft, today announced a breakthrough in reducing ‘noise’ that could mean quantum advantage is closer than previously thought."
TNW reports: "When it comes to quantum computing, noise refers to internal and external interference that lead to errors in quantum computations."
Delve into the motivations behind developing quantum computers. Discover the challenges and potential applications that could redefine computational possibilities.
Our next face-to-face seminar will take place in Berlin in April. Not an online course... You will be in a small group on site and interact directly with our scientific quantum computing experts.