Phys. Rev. Focus28, 4 (2011) – Published July 22, 2011
In the Aharonov-Bohm effect, proposed in 1959, quantum particles are affected in measurable ways by the classical electromagnetic potential, previously regarded as a purely mathematical construct. The electromagnetic field is too far from the particles to have any direct influence.
Phys. Rev. Focus23, 2 (2009) – Published January 16, 2009
The quantum jiggling that molecules experience even at the lowest temperatures–motion associated with the uncertainty principle–is not as tiny as researchers assumed and may be detected in the scattering of light through a liquid.
Phys. Rev. Focus21, 17 (2008) – Published May 21, 2008
Electrons can act like light waves in many ways, but according to recent experiments, their wave-like effects don’t always correspond with light. The unexpected behavior occurs because electrons feel each other’s presence, while photons do not.