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Color centers are point defects in a crystal lattice that exhibit properties that are useful in quantum technologies. We are building a confocal photoluminescence spectroscopy setup to characterize…
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Color centers are defects in silicon carbide (and other wide bandgap materials), that emerged as nearly-identical quantum emitters. Silicon carbide owing to its decades-long industrial presence, high…
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Quantum Mechanics: Wavefunctions
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from Alom Shahafull video: https://www.youtube.com/watch?v=IYnU4T3jbgA
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Photonic and Electronic Devices 23 Team Lead: Pranta Saha Advisor: Prof. Radulaski
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EEC239A Lecture 17 GMT20201202-185608_EEC-239A-0_2560x1440
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EEC239A Lecture 16 GMT20201130-185551_EEC-239A-0_2560x1440
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EEC239A Lecture 13 GMT20201118-185643_EEC-239A-0_2560x1440
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EEC-239A_Lecture 11 GMT20201109
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ECE-239A_Lecture 10 November 4, 2020
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EEC 239A lecture 2020 10 19
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How is atomic spectroscopy different from molecular spectrophotometry? What's going on inside an atomic spectrometer? How is copper analyzed by flame atomic absorption spectroscopy? Copyright…
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EEC239A_2020 Lecture3 Date: 20201007
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