The team can visualize magnetic signals of nuclear magnetic resonance with a microscope. Quantum sensors convert the signals into light, enabling extremely high-resolution optical imaging. Magnetic ...

The race among quantum computers is full of higher number of qubits and error correction rates. But what problems that need ...

Schrödinger’s cat is scratching its head over the “topological” qubit that is causing a buzz in quantum computing. We should ...

Nuclear Magnetic Resonance (NMR) was first experimentally observed in late 1945, nearly simultaneously by the research groups of Felix Bloch, at Stanford University and Edward Purcell at Harvard ...

Dynamic nuclear polarization (DNP) has revolutionized the field of nanoscale nuclear magnetic resonance ... faculty member of ...

CWRU’s breakthrough, Magnetic ... quantum computers are not yet a full reality, Microsoft developed quantum-inspired algorithms that work on existing machines. The result: 30 percent more precise ...

That’ll be where quantum computers routinely deliver significant ... manipulating the spin states of nuclei in nuclear-magnetic-resonance (NMR) experiments. “Although we were using different systems ...

The five finalists are developing everything from a next-generation nuclear ... quantum processor based on a novel state of matter. The technology provides a clear path to achieve quantum ...

For more than half a century, experts in spin resonance ... to ascertain that a nuclear spin is actually a quantum mechanical object by simply watching its precession in a magnetic field.

The team can visualize magnetic signals of nuclear magnetic resonance with a microscope. Quantum sensors convert the signals into light, enabling extremely high-resolution optical imaging.