By applying a magnetic field to semiconducting nanowires laid across a superconductor, you can move
electrons along these wires, creating two points in space that each mimic half an electron.
Not exact matches
If the human quest is reduced to
electrons dancing
along wires and computational patterns crossing a population of neurons, does such a «story» justify even caring whether our society attains the success of a complex adaptive system?
Patricia Churchland, one of the leading (and most reductionistic) neurophilosophers at work today, makes an analogy to electricity —
electrons dancing
along a
wire.
For this to work, the
wire's surface must be extremely clean, allowing
electrons to move freely and spread
along the
wire to create a uniform temperature.
For this to work, the
wire's surface must be extremely clean, allowing
electrons to move freely and spread
along the
wire to create...
The nanotubes act as an electrical conductor, capturing the
electrons from the plant material and sending them
along a
wire.
The word electricity comes from the fact that current is nothing more than
electrons moving
along a conductor, like a
wire, that has been harnessed for energy.