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This lecture is part of MedPhys 4D03 lecture series for the Fall 2020 semester. It introduces the mathematics of image reconstruction in Magnetic Resonance Imaging.
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Dr. El Gouhary is an associate Professor in the division of Neonatology. She is the program Director for the neonatal perinatal medicine program, chair of the pediatric department mentorship and…
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1) Discussed the Heisenberg equation of motion applied to the simple harmonic oscillator 2) Discussed coherent states
Usage Rights
None (All Rights Reserved)
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Discussed how to obtain the WKB connection formulae using both the transitional approximation and the complex method. Also applied the WKB method to quantize wave functions in various potential wells.
Usage Rights
None (All Rights Reserved)
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Studied the Aharonov-Bohm effect (as an example of a Berry phase) and thereby finished the slides on Berry's phase.
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Worked through an example of Berry's phase: a spin in a rotating magnetic field (L20BerryPhase)
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Went through slides on Foucault's pendulum (L19FoucaultPendulum) and began new set of slides on Berry's phase (L20BerryPhase)
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Finished slides QI6_Spins_and_Photons, started slides on Operators
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Went through the first slides in QI6_Spins_and_photons
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Finished quantum measurement (QI20_q_measurement)
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Finished the set of slides on Operators (covered the rotation operator, Pauli spin matrices, the Schrodinger equation)
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Finished the slides on the adiabatic approximation (L18Adiabatic)
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Studied the WKB approximation for a particle in a potential well (L15WKB_potential_well)
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Finished going through WKB connection formulae (L14WKBconnection)
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Continued going through the slides: QI2_Overview
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Presenter: Ahmad Arefi Supervisor(s): Dr. Michael Thompson Project Description: Solid-liquid dispersions consisting of polymer nanoparticles have several applications such as adhesives, coatings, and…
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An introduction to the physics of magnetic resonance imaging.
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