21 research outputs found
Pauli's Principle in Probe Microscopy
Get PDFExceptionally clear images of intramolecular structure can be attained in
dynamic force microscopy through the combination of a passivated tip apex and
operation in what has become known as the "Pauli exclusion regime" of the
tip-sample interaction. We discuss, from an experimentalist's perspective, a
number of aspects of the exclusion principle which underpin this ability to
achieve submolecular resolution. Our particular focus is on the origins,
history, and interpretation of Pauli's principle in the context of interatomic
and intermolecular interactions.Comment: This is a chapter from "Imaging and Manipulation of Adsorbates using
Dynamic Force Microscopy", a book which is part of the "Advances in Atom and
Single Molecule Machines" series published by Springer
[http://www.springer.com/series/10425]. To be published late 201
The Logic of Identity: Distinguishability and Indistinguishability in Classical and Quantum Physics
No full textPhotoluminescence of planar and 3D InGaN/GaN LED structures excited with femtosecond laser pulses close to the damage threshold
No full text
Pauli's principle in probe microscopy
Get PDFExceptionally clear images of intramolecular structure can be attained in dynamic force microscopy (DFM) through the combination of a passivated tip apex and operation in what has become known as the "Pauli exclusion regime" of the tip-sample interaction. We discuss, from an experimentalist's perspective, a number of aspects of the exclusion principle which underpin this ability to achieve submolecular resolution. Our particular focus is on the origins, history and interpretation of Pauli's principle in the context of interatomic and intermolecular interactions
Bose-Einstein Condensation of Excitons in Planar Systems and Superconductive Phase Transition Temperature
No full textPauli's principle in probe microscopy
No full textExceptionally clear images of intramolecular structure can be attained in dynamic force microscopy (DFM) through the combination of a passivated tip apex and operation in what has become known as the "Pauli exclusion regime" of the tip-sample interaction. We discuss, from an experimentalist's perspective, a number of aspects of the exclusion principle which underpin this ability to achieve submolecular resolution. Our particular focus is on the origins, history and interpretation of Pauli's principle in the context of interatomic and intermolecular interactions
