The path toward realizing practical quantum technologies begins with understanding the fundamental physics that govern quantum behavior—and how those phenomena can be harnessed in real materials. In ...
It will be a feat of engineering and physics at the smallest scales, but it could open the biggest doors — to new science and more advanced technologies. UC Santa Barbara physicists Ania Jayich and ...
The quest to create useful quantum technologies begins with a deep understanding of the strange laws that govern quantum behavior and how those principles can be applied to real materials. At the ...
Most people think of diamonds as high-end adornments. Not Ania Bleszynski Jayich. The UC Santa Barbara physicist sees diamonds, which she grows in the UC Quantum Foundry, as a potentially powerful ...
If using a single atom to capture high-resolution images of nanoscale material sounds like science fiction, think again. That’s exactly what the Quantum Sensing and Imaging Group at UC Santa Barbara ...
Researchers in Ania Bleszynski Jayich’s lab use a mechanical resonator to enable greater entanglement for potentially more powerful sensors. Most people think of diamonds as high-end adornments. Not ...
(Santa Barbara, Calif.) –– Magnetic resonance imaging (MRI) on the nanoscale and the ever-elusive quantum computer are among the advancements edging closer toward the realm of possibility, and a new ...
If using a single atom to capture high-resolution images of nanoscale material sounds like science fiction, think again. That's exactly what the Quantum Sensing and Imaging Group at UC Santa Barbara ...
Physicists create a radically new sensor technology that captures nanoscale images with precise spatial resolution and sensitivity. If using a single atom to capture high-resolution images of ...