A new electron spin resonance-atomic force microscopy setup enables single-spin quantum control on nonconductive samples.

A research effort has made advances that could enable a broader range of currently unimagined optoelectronic devices. A research effort led by scientists at the U.S. Department of Energy's (DOE's) ...

David Reilly and his University of Sidney team developed a silicon chip that can control spin qubits at milli-kelvin temperatures. That’s just slightly above absolute zero (-273.15 degrees Celsius), ...

Research is actively underway to develop a "dream memory" that can reduce heat generation in smartphones and laptops while delivering faster performance and lower power consumption. Korean researchers ...

The main job of the Legislature is to spend money. But because Washington lawmakers have to wait for more than half the session before receiving the information that will tell them how much or little ...

Characteristics of the graphene/In 2 Se 3 heterostructure transport device that shows the spin chirality switch. Over the past two decades, spintronics has emerged as one of the most promising ...

The twisting direction of metal nanoparticles is controlled to be right- or left-handed by adding chiral molecules, which are adsorbed onto the particle surface, during the electrochemical reduction ...

Scientists have found a new way to control the alignment state of magnetic atoms in an antiferromagnetic material, showing promise for the development of tiny sensors and memory devices. Researchers ...