A few years ago, researchers from the University of Cambridge showed that it was possible to
create electron pairs in which the spins are aligned: up - up or down - down.
Not exact matches
Now, a
pair of scientists from the U.S. Department of Energy's Brookhaven National Laboratory and Ludwig Maximilian University in Munich have proposed the first solution to such subatomic stoppage: a novel way to
create a more robust
electron wave by binding together the
electron's direction of movement and its spin.
* 5) Superconducting gap An energy cost to
create a superconducting
electron pair (Cooper
pair).
«Researchers amplify the pulse and measure its height and from that figure out how much energy
created the
electron - hole
pairs,» ORNL's David Radford said.
The light
creates an
electron - hole
pair that subsequently migrates in opposing directions.
When a high - energy
electron (a beta particle) is
created during a double - beta decay, that
electron will scatter off other
electrons and
create electron - hole
pairs that move inside the germanium and
create a pulse of charge inside the detector.
Light
creates an
electron - hole
pair.
To address the terahertz gap, the team
created a hybrid semiconductor: a layer of thick conducting material
paired with two thin, two - dimensional crystalline layers made from graphene, silicene (a graphene - like material made from silicon instead of carbon), or a two - dimensional
electron gas.
Infrared light illuminates bilayer graphene and
create an exciton — a
pairing of
electron and hole, locating mostly at the top and bottom layers, respectively, of carbon atoms.