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The Wave Nature of Matter • • • • • • Subatomic particles De Broglie Electron beam Davisson-Germer Experiment Electron Interference Matter Waves PHYS140 Matter Waves 1 Problem • What is the de Broglie wavelength of a 50 kg person traveling at 15 m/s? (h = 6.6 x 10-34 J s) comparable to spacing PHYS140 Matter Waves 2 Subatomic Particles • • We can see the electron tracks There is evidence of light as a particle from the collision of light with the electrons at point P PHYS140 Matter Waves 3 De Broglie Hypothesis • • Linking momentum and wavelength Based on the photoelectric effect, de Broglie surmised that particles should behave by photons and their wavelength should be related to their momentum p h h p PHYS140 Matter Waves 4 The electric beam • • To create a beam of electrons for a double slit experiment, the electrons must have the same wavelength To have the same wavelength, the electrons must have the same momentum or equivalently, energy 1 2 p2 p 2Km K mv 2 2m h h hc p 2Km 2Kmc 2 Matter Waves PHYS140 5 Davisson-Germer Experiment • By accident, Davisson and Germer found that electrons were diffracted by large nickel crystals, similar to diffraction of light by crystals PHYS140 Matter Waves 6 Matter Waves • Like photons and electrons, protons, neutrons, atoms, and even molecules have wave properties • • • hc 2Kmc 2 Electrons have lowest mass As mass increases, wavelength decreases For macroscopic molecules, the wavelength is smaller than any known particles. • it’s impossible to make the slit separation small enough • The screen must be placed much to far away to resolve the interference pattern PHYS140 Matter Waves 7 Model of the atom - electrons PHYS140 Matter Waves 8 Complementarity • • • • Light waves that interfere and diffract deliver their energy in particle package of quanta Electrons that move through space in straight lines and experience collisions as if they were particles, distribute themselves spatially in interference patterns as if they were waves What you see depends on what facet you look at When Niels Bohr was knighted for his contributions to physics, he chose the yin-yang symbol for his coat of arms PHYS140 Matter Waves 9 Practice • • Quantum Wave Interference • Worksheet • http://phet.colorado.edu/simulations/sims.php?sim=Quantum_Wave _Interference Movie • • • Good Lecture • • Dr. Quantum double slit http://www.youtube.com/watch?v=DfPeprQ7oGc http://www.youtube.com/watch?v=UXvAla2y9wc&NR=1 Group Problems • Q4B.1, Q4B.5, Q4S.1 PHYS140 Matter Waves 10
