Scattering theory approach to electrodynamic Casimir forces
about
Lifshitz theory of van der Waals pressure in dissipative mediaCasimir forces on a silicon micromechanical chip.Scattering approach for fluctuation-induced interactions at fluid interfaces.Three-body fluctuation-induced interaction at fluid interfaces: a strong deviation from the pairwise summation.Plasma versus Drude Modeling of the Casimir Force: Beyond the Proximity Force Approximation.Entanglement entropy of dispersive media from thermodynamic entropy in one higher dimension.Nonequilibrium Casimir Force with a Nonzero Chemical Potential for Photons.Spontaneous emission by rotating objects: a scattering approach.Constraints on stable equilibria with fluctuation-induced (Casimir) forces.Unifying Microscopic and Continuum Treatments of van der Waals and Casimir Interactions.The Casimir effect in microstructured geometriesComputation of Casimir interactions between arbitrary three-dimensional objects with arbitrary material propertiesScattering approach to the dynamical Casimir effectHeat radiation from long cylindrical objectsMaterial dependence of Casimir forces: Gradient expansion beyond proximityTrace formulas for nonequilibrium Casimir interactions, heat radiation, and heat transfer for arbitrary objectsAnalytical results on Casimir forces for conductors with edges and tipsElectromagnetic Casimir forces of parabolic cylinder and knife-edge geometriesNonequilibrium Electromagnetic Fluctuations: Heat Transfer and InteractionsCasimir force at a knife’s edgeA Generalization of Electromagnetic Fluctuation-Induced Casimir Energy
P2860
Q27350470-24ABB502-2717-4FED-AC88-2CF13F1C7B5FQ34344639-3B1F30AC-335C-40E5-A1A7-2C0117F251B8Q44312226-7DDF123B-F11B-42FA-BC28-DA837C09DA08Q45960195-E66040C3-4D90-4CAD-8B20-EF209A769195Q50004553-EFB11DBC-78C7-4C83-9646-F3713AB419F2Q50921710-CDED597A-99DE-4491-85E9-CA2B93935466Q51058164-6D5B5FD1-625C-40DE-BDDC-467D9D107812Q51320327-1B94E69B-03FE-495D-B4BB-58A5725DDF30Q51655853-CC656465-9CE5-440E-B0E4-BF37397FA0E4Q52837188-DC9BC686-860F-4D19-95E0-E80451A10F3DQ56041195-4A52934E-C13A-4F60-A42C-B783223EA841Q56041196-B1627EF0-D374-4058-964F-968909650CA7Q59062602-296A3D1B-EF94-4AA0-926A-2A8B0DB7643EQ59062687-4CF868FD-358F-449A-91B5-EE6C93108B9DQ59062705-80ACE76F-4DB4-47CA-88D3-21CE0BCADA77Q59062759-69FE0300-D270-48D5-89FB-C8D3F55856E9Q59062772-947B4B73-910B-4602-A816-B0B813FAE827Q59062796-B7394C60-E683-497D-AD55-793569049607Q59062858-C21852D3-C607-49CE-83D1-BA4AD56A5893Q59062895-2FCE523E-7F1A-4B99-9CEA-3B5B4D51BE26Q59101714-4EF35FFD-D097-4181-9DE8-17D62933ADA5
P2860
Scattering theory approach to electrodynamic Casimir forces
description
article
@en
im Oktober 2009 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2009
@uk
name
Scattering theory approach to electrodynamic Casimir forces
@en
Scattering theory approach to electrodynamic Casimir forces
@nl
type
label
Scattering theory approach to electrodynamic Casimir forces
@en
Scattering theory approach to electrodynamic Casimir forces
@nl
prefLabel
Scattering theory approach to electrodynamic Casimir forces
@en
Scattering theory approach to electrodynamic Casimir forces
@nl
P2093
P2860
P1433
P1476
Scattering theory approach to electrodynamic Casimir forces
@en
P2093
Noah Graham
Robert L. Jaffe
Sahand Jamal Rahi
Thorsten Emig
P2860
P356
10.1103/PHYSREVD.80.085021
P407
P577
2009-10-19T00:00:00Z