Igor Evgen’evich Tamm (1895–1971).- I Electrodynamics.- E.1 Coherent Visible Radiation of Fast Electrons Passing Through Matter.- E.2 Radiation Emitted by Uniformly Moving Electrons.- E.3 General Characteristics of Radiation Emitted by Systems Moving with Superlight Velocities with Some Applications to Plasma Physics.- II Quantum Mechanics and Solid State Physics.- Q.1 Über die Quantentheorie der molekularen Lichtzerstreuung in festen Körpern.- Q.2 Über eine mögliche Art der Elektronenbindung an Kristalloberflächen.- Q.3 Die verallgemeinerten Kugelfunktionen und die Wellenfunktionen eines Elektrons im Feld eines Magnetpoles.- Q.4 The Uncertainty Relation Between Energy and Time in Non-relativistic Quantum Mechanics.- III Nuclei, Particles, Interactions.- N.1 Exchange Forces Between Neutrons and Protons, and Fermi’s Theory.- N.2 Nuclear Magnetic Moments and the Properties of the Neutron.- N.3 Über die Wechselwirkung der freien Elektronen mit der Strahlung nach der Diracschen Theorie des Elektrons und nach der Quantenelektrodynamik.- N.4 Relativistic Interaction of Elementary Particles.- N.5 The Energy Spectrum of Cascade Electrons.- IV Fundamental Problems.- F.1 On the Theory of Spin.- F.2 On the Curved Momentum Space.- V Atomic Physics.- A. Theory of a Magnetic Thermonuclear Reactor.- I: Properties of High Temperature Plasma in the Presence of a Magnetic Field.- II: By A.D. Sakharov.- III: Drift and Thermal Conductivity of a Plasma in a Toroid in the Presence of a Stabilizing Current.- VI Miscellaneous.- M.1 Basic Ideas of Faraday and Their Role in the Development of the Science of Electricity.- M.2 Einstein and Contemporary Physics.- M.3 Niels Bohr and Modern Physics.- M.4 On the Work of L. I. Mandelstam in Theoretical Physics.- M.5 L. D. Landau — Nobel Laureate 1962.- M.6 Theoretical Physics.- M.7 The Evolution of Quantum Theory.- M.8 Arms Race and Disarmament.- M.8.1 Danger of a Continued Arms Race.- M.8.2 Contribution to the Discussion on Disarmament.- M.8.3 A New Approach on the Test Ban Negotiations.
