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Particle Nature of Light
Fluctuations of Energy in the Radiation Field
23 other sections not shown
angular momentum assume basic equation beam Bohr theory calculated classical mechanics commutation rules components Compton effect coordinates corresponding crystal dependent determined differential equation diffraction Dirac equation direction discrete discussed eigenfunctions eigenvalues electromagnetic electron rays electron spin elementary particles emission energy levels experimental experiments expression fact formula frequency function grad grating Hamiltonian harmonic oscillator Hermitian hypothesis integral interference lattice constant Laue light magnetic field matrix mechanics matter waves means method molecules negative energy non-relativistic nucleus number of electrons observed obtained operator orbital motion Pauli principle phenomena photon physical quantity Planck plane position possess possible potential properties quantization quantum mechanics quantum number quantum physics quantum theory radiation relation relativistic scattering Schrodinger equation solutions space spectrum spherical stationary Stern-Gerlach Stern-Gerlach experiment symmetric term tion valency electron valid values variable vector velocity wave conception wave mechanics wave nature wave packet wave theory wavelength X-rays yields zero