Erratum: Observation of the dynamical structure arising from spatially extended quantum entanglement and long-lived quantum coherence in the KHCO3 crystal (Physical Review B - Condensed Matter and Materials Physics (2003) 67 (54301))
Physical Review B - Condensed Matter and Materials Physics 67:18 (2003) 1899011
Observation of the dynamical structure arising from spatially extended quantum entanglement and long-lived quantum coherence in the KHCO3 crystal
Physical Review B - Condensed Matter and Materials Physics 67:5 (2003) 543011-5430110
Abstract:
The crystal structures of KHCO3 and KDCO3 at 14 K were determined with the single-crystal neutron-diffraction technique. There is no evidence for proton/deuteron disorder. The diffraction pattern of KHCO3 reveals rods of intensity separate from the Bragg peaks. These rods are not observed for KDCO3. They are attributed to diffraction by the sublattice of protons forming regular arrays of double slits parallel to the dimer planes. They reveal quantum coherence in two dimensions for the proton dynamics. It is shown that quantum statistics for fermions impose quantum entanglement and strict separation of the H dynamics from the lattice. The main decoherence mechanism for the vibrational states is thus canceled out. The vibrational ground state is a superposition of fully entangled macroscopic wave functions with long-lived quantum coherence.Observation of the dynamical structure arising from spatially extended quantum entanglement and long-lived quantum coherence in the KHCO3 crystal
Physical Review B American Physical Society (APS) 67:5 (2003) 054301
Structural and superionic properties of Ag+-rich ternary phases within the AgI?MI2 systems
Journal of Physics Condensed Matter IOP Publishing 14:49 (2002) 13579
Structural disorder and loss of piezoelectric properties in α-quartz at high temperature
Applied Physics Letters AIP Publishing 81:16 (2002) 2968-2970