about
Rigorous derivation of electromagnetic self-forceCosmology and action-at-a-distance electrodynamicsClassical direct interstring actionStochastic theory of relativistic particles moving in a quantum field: Scalar Abraham-Lorentz-Dirac-Langevin equation, radiation reaction, and vacuum fluctuationsThe Self-Oscillations of a Charged ParticleInteraction with the Absorber as the Mechanism of RadiationClassical Electrodynamics in Terms of Direct Interparticle ActionDissipation of Currents in Ionized MediaFeynman and the visualization of space-time processesThe transactional interpretation of quantum mechanicsTheory of post-Newtonian radiation and reactionExtremely high-intensity laser interactions with fundamental quantum systemsGeneral-relativistic celestial mechanics. I. Method and definition of reference systemsRadiative corrections in symmetrized classical electrodynamicsVacuum electron acceleration by coherent dipole radiation.Stochastic electron gas theory of coherence in laser-driven synchrotron radiationThree-dimensional theory of emittance in Compton scattering and x-ray protein crystallography.Integration of the Lorentz-Dirac equation: Interaction of an intense laser pulse with high-energy electrons.Energy gain of an electron by a laser pulse in the presence of radiation reaction.Lorentz-Abraham-Dirac versus Landau-Lifshitz radiation friction force in the ultrarelativistic electron interaction with electromagnetic wave (exact solutions).Phase-space contraction and attractors for ultrarelativistic electrons.Modeling of radiation losses in ultrahigh power laser-matter interaction.Improving the accuracy of simulation of radiation-reaction effects with implicit Runge-Kutta-Nyström methods.Detecting radiation reaction at moderate laser intensities.The Motion of Point Particles in Curved Spacetime.Radiation reaction effects on the interaction of an electron with an intense laser pulse.Solutions of the Wheeler-Feynman equations with discontinuous velocities.The Motion of Point Particles in Curved Spacetime.Classical theory of Compton scattering: assessing the validity of the Dirac-Lorentz equation.Classical helium atom with radiation reaction.Dynamics of spherical distributions of charge with small internal dipolar motion.Transverse spreading of electrons in high-intensity laser fields.Self-attraction into spinning eigenstates of a mobile wave source by its emission back-reaction.Dynamics of a relativistic charge in the Penning trap.Optical extinction, refractive index, and multiple scattering for suspensions of interacting colloidal particles.Stored electromagnetic energy and quality factor of radiating structures.Asymptotics of physical solutions to the Lorentz-Dirac equation for planar motion in constant electromagnetic fields.Strong signatures of radiation reaction below the radiation-dominated regime.Generalized Lorentz-Dirac equation for a strongly coupled gauge theory.Absence of a consistent classical equation of motion for a mass-renormalized point charge.
P2860
Q21651303-248F6DD0-0B93-4AFD-B87F-202194433A17Q21698171-51E5D6A8-C1AB-4E7A-91A5-553E8E1275F3Q21706734-15C4A944-63EB-4134-B0D1-4FCC4131BA5CQ21707313-DB437A30-A4EF-4975-B6C6-4D276B4D1A5DQ21709232-F5FAED0E-E0AE-4672-85FE-2EC7C9EE24B8Q21709778-329AE9F3-5C13-4C16-9791-C20E1B482B70Q27339422-E1B1B972-2AB9-41EE-A174-91281115657EQ27343180-20879352-5ECF-46EB-ACC7-0DB7BEDF8287Q27346488-3DD3C0E7-7466-460D-B664-A55B21815AFAQ27346519-556E95D4-4DE5-424B-9799-5453287F1E0BQ27349422-29B0A8A8-DEB3-4E55-A889-4E5DAB75149AQ27350443-C862EC44-7E41-4B93-9B5B-258D5DA7F6A0Q27441117-19F8B678-F781-4F68-BA5A-D6AEF5EABEEBQ30642417-BA4F3C41-DF35-48C1-9C13-BA2E78505D7AQ30833679-4A39A010-E8EE-420E-9C21-EB10A6ED57EBQ30949608-B1145764-A114-480B-9282-7FBF27A4C7EAQ30995861-740E72DE-297B-4EF8-9A5C-DCBFF2D4C43FQ33209887-8C73CA79-E07D-44C2-B677-0CE25A9A0932Q34105387-CB4283D5-FC8F-4A0E-B258-D2837714D7F4Q34105469-D59140CC-C70E-4D29-BF3C-59DF4CE73688Q34419759-CC6C8418-FDF6-4FB0-8EE8-D0A3B615CD0CQ34431887-DAF1344D-60B0-452B-AE8D-85397AA318AAQ35374794-E10AFC2A-1664-452F-B12C-D61FA87D4058Q35576867-6038F3A4-E9D5-4F5D-8477-59AD978EECB3Q39127245-612CFBFF-0BC2-493F-A107-8F3C69E2DCDBQ39367098-1E060285-B9EA-45CA-9DE2-2EBEEF4DAF31Q41502186-5D9A10D8-F2EE-466C-BE42-CF55C7BC6D95Q41975347-F3EDED53-6690-4710-BBB2-8B8536082450Q46230445-5E3C9AD4-B6A5-4A09-969B-5F55FAC4EA7CQ47424441-3811BF07-EB34-4F3D-A9BC-58678AECC70DQ48615590-BB99788B-7C08-428E-8738-C5EFC9B8DE25Q50456529-518A6503-9664-415D-A173-0C83C0A6D1A4Q50611982-0734E27C-9213-4580-978F-55809C7B2417Q50906578-2520FCD1-901D-4DFF-A4CA-7A469677A17DQ51030399-D363FFA6-EE0A-4EEC-A84A-1D47BA1A0E2BQ51300313-823BEDEF-01ED-4719-A58D-03E9D8FDAA9FQ51544370-3D8272BE-3CBC-4803-93A6-2BDA27B09E49Q51804404-351D1B9C-9ABE-4779-B36E-3A125983435FQ51804431-5A572CDB-71E4-4F82-BEB7-D4E81C002224Q51863645-8A28D593-B3FF-466C-BA4F-33761C576B2B
P2860
description
im August 1938 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в серпні 1938
@uk
name
Classical Theory of Radiating Electrons
@en
Classical Theory of Radiating Electrons
@nl
type
label
Classical Theory of Radiating Electrons
@en
Classical Theory of Radiating Electrons
@nl
prefLabel
Classical Theory of Radiating Electrons
@en
Classical Theory of Radiating Electrons
@nl
P356
P1476
Classical Theory of Radiating Electrons
@en
P304
P356
10.1098/RSPA.1938.0124
P50
P577
1938-08-05T00:00:00Z