SandboxAQ today announced it has expanded its relationship with Deloitte to offer SandboxAQ’s AI LQM simulation products and solutions along with Deloitte’s services capabilities to organizations worldwide.

Physicists at MIT and Harvard University have now directly measured superfluid stiffness for the first time in “magic-angle” graphene — materials that are made from two or more atomically thin sheets of graphene twisted with respect to each other at just the right angle to enable a host of exceptional properties, including unconventional superconductivity.

Rice University physicist Emilia Morosan is part of an international research collaboration that has been awarded multimillion-dollar funding from The Kavli Foundation to develop and test next-generation superconductors through artificial intelligence and quantum geometry. This global initiative, spearheaded by Päivi Törmä of Aalto University in Finland, seeks to push the boundaries of quantum materials science and superconductivity.

Quantinuum today announced a groundbreaking Generative Quantum AI framework (Gen QAI) – leveraging unique quantum-generated data to enable commercial applications in areas ranging from the development of new medicines, precise predictive modeling of financial markets and real-time optimization of global logistics and supply chains. The potential of these three capabilities alone is immense, and this framework is set to unlock solutions to other complex problems that classical computing cannot address.

A multidisciplinary team of researchers from Rice University and Texas A&M University has received a $1.2 million award from the W.M. Keck Foundation to advance super-resolution imaging and single-molecule tracking by harnessing super-radiance, a quantum optical phenomenon with transformative potential for research and innovation in medicine, engineering and the physical sciences.

IonQ, a leader in the quantum computing and networking industries, today announced the renewal of its agreement with Abu Dhabi’s Quantum Research Center – Technology Innovation Institute (TII) in the United Arab Emirates (UAE). This renewed customer agreement ensures that TII will continue to leverage IonQ’s quantum computing technology to advance the UAE’s position as a global leader in science and technology.

MIT physicists have created a new ultrathin, two-dimensional material with unusual magnetic properties that initially surprised the researchers before they went on to solve the complicated puzzle behind those properties’ emergence. As a result, the work introduces a new platform for studying how materials behave at the most fundamental level — the world of quantum physics.

A kind of ‘umbilical cord’ between different quantum states can be found in some materials. Researchers at TU Wien have now shown that this ‘umbilical cord’ is generic to many materials.

MIT physicists have created a new ultrathin, two-dimensional material with unusual magnetic properties that initially surprised them before they went on to solve the complicated puzzle behind those properties’ emergence. As a result, the work introduces a new platform for studying how materials behave at the most fundamental level, the world of quantum physics.

In a recent study published in Science Advances, a team of researchers led by Shengxi Huang, associate professor of electrical and computer engineering and materials science and nanoengineering at Rice, describes how one such type of quasiparticle - polarons - behaves in tellurene, a nanomaterial first synthesized in 2017 that is made up of tiny chains of tellurium atoms and has properties useful in sensing, electronic, optical and energy devices.