Abstract
The indistinguishability of identical quantum particles can lead to quantum interferences that profoundly affect their scattering. If two particles collide and scarer, the process that results in the detection of the first particle in one direction and the second particle in another direction interferes quantum mechanically with the physically indistinguishable process where the roles of the particles are reversed. For bosons such as photons, a constructive interference between probability amplitudes can enhance the probability, relative to classical expectations, that both are detected in the same direction-this is known as 'bunching'. But for fermions such as electrons, a destructive interference should suppress this probability ('anti-bunching'); this interference is the origin of the Pauli exclusion principle, which states that two electrons can never occupy the same state. Although two-particle interferences have been shown for colliding photons, no similar demonstration for electrons exists. Here we report the realization of this destructive quantum interference in the collision of electrons at a beam splitter. In our experiments, the quantum interference responsible for the Pauli exclusion principle is manifest as the suppression in electron current noise after collision.
Original language | English (US) |
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Pages (from-to) | 263-265 |
Number of pages | 3 |
Journal | Nature |
Volume | 391 |
Issue number | 6664 |
DOIs | |
State | Published - Jan 15 1998 |
ASJC Scopus subject areas
- General