Earman, John, "Aspects of Determinism in Modern Physics"
... value at every moment of time; call these the occurrent magnitudes. Other physical magnitudes may be dispositional in character and may take on determinate values only in appropriate contexts; but it was assumed that these dispositional magnitudes supervene on the nondispositional magnitudes.2 A his ...
... value at every moment of time; call these the occurrent magnitudes. Other physical magnitudes may be dispositional in character and may take on determinate values only in appropriate contexts; but it was assumed that these dispositional magnitudes supervene on the nondispositional magnitudes.2 A his ...
Abstracts - QCMC 2016 - Centre for Quantum Technologies
... Programmable integrated optical circulator controlled by a single spin-polarized atom 11:30 Chao-Yang Lu, University of Science and Technology of China, Hefei Creating perfect single photons for the demonstration of quantum supremacy 12:00 David DiVincenzo, RWTH Aachen University Longitudinal Coupli ...
... Programmable integrated optical circulator controlled by a single spin-polarized atom 11:30 Chao-Yang Lu, University of Science and Technology of China, Hefei Creating perfect single photons for the demonstration of quantum supremacy 12:00 David DiVincenzo, RWTH Aachen University Longitudinal Coupli ...
Introduction to Integrable Models
... integrable models are however one-dimensional, which means that we have quite some way to go before we can solve realistic systems. The models we can solve fully are a bit like very simple table-top experiments. By studying these systems, we hope to gain valuable tools for tackling more complicated ...
... integrable models are however one-dimensional, which means that we have quite some way to go before we can solve realistic systems. The models we can solve fully are a bit like very simple table-top experiments. By studying these systems, we hope to gain valuable tools for tackling more complicated ...
Electronic Structure of Clusters and Nanocrystals
... the heat capacity, enthalpy, entropy and free energy of the system. Matter at the nanoscale is different. Properties that are intensive at the macroscopic scale may not be intensive at the “nano-” or “subnano-” scale. In fact, such properties may be hard to define at very small length scales. Consid ...
... the heat capacity, enthalpy, entropy and free energy of the system. Matter at the nanoscale is different. Properties that are intensive at the macroscopic scale may not be intensive at the “nano-” or “subnano-” scale. In fact, such properties may be hard to define at very small length scales. Consid ...
Universal diffraction of atoms and molecules from a quantum
... the cluster-surface potential well depth of 10−2 eV. However, because dimers and trimers are quantum-reflected tens of nanometers above the surface, they do not come close to where surface-induced forces would inevitably break up the fragile bonds. Emerging beam resonance, also known as the Rayleigh ...
... the cluster-surface potential well depth of 10−2 eV. However, because dimers and trimers are quantum-reflected tens of nanometers above the surface, they do not come close to where surface-induced forces would inevitably break up the fragile bonds. Emerging beam resonance, also known as the Rayleigh ...
