Researchers have discovered that light — in the form of a laser — can trigger a form of magnetism in a normally nonmagnetic material.
By bringing the benefits of mechanical devices into the quantum realm, Stanford researchers aim to create advanced computing and sensing devices.
Physicists have demonstrated the use of a hydrogen molecule as a quantum sensor in a terahertz laser-equipped scanning tunneling microscope.
The new type of artificial vision device incorporates a vertical stacking architecture, allows for greater depth of color recognition and scalability.
One advantage of neutral atom qubits used in this approach is that they do not naturally interact, so it is easier to control “on” or “off” status.
Dative epitaxy allows flexibility and choice, with the benefits of conventional and van der Waals epitaxial techniques, and addresses the drawbacks.
The integration of several imaging technologies into a system can study in real time the fundamental mechanics of electron beam powder bed fusion.
A Rice University study suggests stress among misaligned particles in typical cathodes limits flow.
The Cornell study is a step toward adapting plants to rapid climate changes and increasing yields to feed a projected 9 billion people by 2050.
AF2Complex: Researchers Leverage Deep Learning to Predict Physical Interactions of Protein Complexes
Center for Quantum Information and Control researchers contribute their views and explain how they maximize the collaborative opportunities at QSA.