Inducing and tuning spin interactions in layered material by inserting iron atoms, protons
Magnetic-spin interactions that allow spin-manipulation by electrical control allow potential applications in energy-efficient spintronic devices.
Magnetic-spin interactions that allow spin-manipulation by electrical control allow potential applications in energy-efficient spintronic devices.
Nanophysics
Jun 16, 2021
0
136
Quantum spin Hall insulators are a class of two-dimensional (2D) topological states of matter that are electrically insulating in their interior but, unlike semiconductors, carry a pair of one-dimensional (1D) metallic states, ...
Nanophysics
May 28, 2021
0
320
New FLEET research confirms the potential for topological materials to substantially reduce the energy consumed by computing.
Nanophysics
Apr 20, 2021
0
591
Just as James Cameron's Terminator-800 was able to discriminate between "clothes, boots, and a motorcycle," machine-learning could identify different areas of interest on 2-D materials.
Nanomaterials
Mar 3, 2021
0
92
The 'sloshing' of a quantum fluid comprised of light and matter reveals superfluid properties.
Condensed Matter
Feb 16, 2021
4
34
Could long-distance interactions between individual molecules forge a new way to compute?
Nanophysics
Feb 15, 2021
1
26
An international team of scientists has invented the equivalent of body armour for extremely fragile quantum systems, which will make them robust enough to be used as the basis for a new generation of low-energy electronics.
Nanophysics
Feb 8, 2021
0
1680
While it is fascinating that living creatures develop distinct patterns on their skin, what may be even more mysterious is their striking similarity to the skin of frozen liquid metals.
Nanomaterials
Jan 18, 2021
1
63
Why is studying spin properties of one-dimensional quantum nanowires important?
Quantum Physics
Jan 18, 2021
0
55
Why do some ferroelectric materials display bubble-shaped patterning, while others display complex, labyrinthine patterns?
General Physics
Dec 21, 2020
1
24