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An Electron Frequency in Light
Diffraction of Electron Waves in Light
Beam Divergence of Electron Waves in Diffracted Light
5 other sections not shown
air turbulence aperture approximately assumed assumption atoms attenuation coefficient beam divergence beam of light beam spread beam wander behavior bp(x Bragg angle Bragg-reflected beam Bragg-reflected light beam circular aperture coherence conclusion Consequently consider deduced detect diffracted light diffracting screen double-pinhole dual PWR Ee(x effects electric-field amplitude electron frequency electron waves estimate experimental Fresnel diffraction gamma-ray Hence incident light beam incident Xp incoherent individual photons inside the crystal light intensity matter waves medium metallic microradian microscopic near-field range near-field region optical diffraction ostensibly photographic film photon center physical optics theory plane-wave pair point source presumably produced propagating properties quartz ratio Ee/Ep refracted resulting S/N ratio seems reasonable slightly-attenuating spherical suggested Te(x trajectories transmitted ue Bragg ue Bragg-reflected light ue Bragg-reflection efficiency upper bound vacuum waves in light Xe diffraction patterns Xe Fresnel spot Xe plane waves Xe signal Xe waves Xe/Xp Xp and Xe