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Phoenix666 writes:

Phys.org:

IMDEA Nanoscience and Universidad Autónoma de Madrid has found for the first time experimental evidence that one-dimensional lattices with nanoscale periodicity can interact with the electrons from a bidimensional gas by spatially separating their different wavelengths by means of a physical phenomenon known as Bragg diffraction. This phenomenon is well-known for wave propagation in general and is responsible for the iridescent color observed upon illumination of a CD surface. Due to the wave-particle duality proposed by De Broglie in 1924, electrons also present a wave-like behavior and, thus, diffraction phenomena. Actually, the observation that low-energy free electrons undergo diffraction processes upon interaction with well-ordered atomic lattices on solid surfaces was the first experimental confirmation of the wave-particle duality. Bidimensional electrons bonded to solid surfaces, of course, also present wave-like behavior which could be directly visualized in the 90s by Scanning Tunneling Microscopy. However, the observation of Bragg diffraction in such systems had remained hitherto elusive.

In this new work, published in Physical Review Letters, the group headed by Roberto Otero built a diffraction grating with nanometer periodicity by self-assembly of organic molecules on a copper surface. Via low-temperature scanning tunneling microscopy, the researchers observed the stationary waves caused by the interference between electrons arriving at the diffraction grating and those reflected by it, which allowed the researchers to find experimental evidence for Bragg diffraction. Moreover, the authors found that their results not only reflect diffraction phenomena, but also that electrons prefer to interact with the lattice such that their incidence direction is reverted.

Original Submission