The Feynman Lectures on Physics: Quantum mechanicsAddison-Wesley Publishing Company, 1963 - Physics |
Contents
THE HAMILTONIAN MATRIX | 8-1 |
MORE TWOSTATE SYSTEMS | 11-1 |
THE HYPERFINE SPLITTING IN HYDROGEN | 12-1 |
Copyright | |
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a-particle absolute square ammonia ammonia molecule amplitude to find angle angular momentum apparatus axis beam benzene Bose particles C₁ carriers Chapter classical classical mechanics coefficients conservation coordinate corresponding crystal definite energy density depends described detector diamagnetism direction electric field energy levels equal equation experiment factor find the electron frequency give Hamiltonian happens hole hydrogen atom interaction J₂ lattice LHC photon look magnetic field magnetic moment means motion multiplied n-type neutron nucleus operator oscillating paramagnetism parity phase physics polarized position positronium possible potential precession probability amplitude proton quantum mechanics result rotation scattering Schrödinger Schrödinger equation set of base shown in Fig solution spin one-half particle spin-one stationary Stern-Gerlach superconducting Suppose symmetry theory thing two-state system values vary vector vector potential wave function wave number write z-axis z-component z-direction zero