They say that in art, constraints lead to creativity. The same seems to be true of the universe. By placing limits on nature, the laws of physics squeeze out reality’s most fantastical creations. Limit light’s […]
Claiming that something has a defect normally suggests an undesirable feature. That’s not the case in solid-state systems, such as the semiconductors at the heart of modern classical electronic devices. They work because of defects […]
The 3D Dirac and Weyl semimetals can be characterized by a charge chirality with the parallel or antiparallel locking of electron spin in its momentum. Such materials can exhibit a chiral magnetic effect associated with […]
Creative Destruction Lab (CDL) is a nonprofit organization that delivers an objectives-based program for massively scalable, seed-stage, science- and technology-based companies. The nine-month program employs an objectives-based mentoring process to enhance the performance of technical […]
We are looking for highly talented and ambitious candidates for the PhD position starting in October 2021 on Multiphoton Quantum Information Processing and Sensing (deadline May 4, 2021) at our Quantum Science and Technology Hub […]
PhD Students are sought to join the group of A/Prof Alexei Gilchrist at Macquarie University, Sydney, Australia, to work on projects within theoretical quantum information, and in particular on the characterisation of resourcefulness of quantum […]
The Canadian Institute of Advanced Research (CIFAR) has just issued a report that describes the national quantum strategies for 46 different countries plus the European Union. The report contains one-page summaries of the national quantum […]
The ability to turn on and off a physical process with just one photon is a fundamental building block for quantum photonic technologies. Realizing this in a chip-scale architecture is important for scalability, which amplifies […]
The ability to turn on and off a physical process with just one photon is a fundamental building block for quantum photonic technologies. Realizing this in a chip-scale architecture is important for scalability. Researchers have […]
Scientists mapped the electronic states in an exotic superconductor. The maps point to the composition range necessary for topological superconductivity, a state that could enable more robust quantum computing. Click to rate this post! [Total: […]
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