The
term quantum mirage refers to a phenomenon that may make it possible to
transfer data without conventional electrical wiring. Instead of
forcing charge carriers through solid conductors, a process impractical
on a microscopic scale, electron wave phenomena are made to produce
effective currents.
All moving particles have a wavelike nature. This is rarely significant on an everyday scale. But in atomic dimensions, where distances are measured in nanometers, moving particles behave like waves. This phenomenon is what makes the electron microscope workable. It is of interest to researchers in nanotechnology, who are looking for ways to deliver electric currents through circuits too small for conventional wiring.
A
quantum mirage is a spot where electron waves are focused so they
reinforce each other. The result is an energy hot zone, similar to the
acoustical hot zones observed in concrete enclosures, or the
electromagnetic wave focus of a dish antenna. In the case of electron
waves, the enclosure is called a quantum corral. An elliptical corral
produces mirages at the foci of the ellipse. A typical quantum corral
measures approximately 20 nm long by 10 nm wide. By comparison, the
range of visible wavelengths is approximately 390 nm (violet light) to
750 nm (red light). One nanometer is 10-9 meter, or a millionth of a
millimeter.All moving particles have a wavelike nature. This is rarely significant on an everyday scale. But in atomic dimensions, where distances are measured in nanometers, moving particles behave like waves. This phenomenon is what makes the electron microscope workable. It is of interest to researchers in nanotechnology, who are looking for ways to deliver electric currents through circuits too small for conventional wiring.
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