Winter 2019 Lecture Notes
Introduction - Introduction -
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Lecture 1 - Time scales, critical masses -
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Lecture 2 - Initial Mass Function; Abundances -
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Lecture 3 - Basic nuclear physics - 1. The liquid drop model
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Lecture 4 - Basic nuclear physics - 2. Stability and the shell Model -
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Lecture 5 - Basic nuclear physics - 3. Nuclear Reactions and Rates -
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Lecture 6 - Special Nuclear Reactions and Energy Generation -
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Lecture 7 - Evolution of Massive Stars - On the Main Sequence -
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Lecture 8 - Semiconvection, Mass Loss, and Rotation -
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Lecture 9 - Hydrogen burning nucleosynthesis, Novae, X-Ray Bursts -
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Lecture 10 - Helium Burning and the s-Process -
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Lecture 11 - Neutrino Losses and Advanced Stages of Stellar Evolution _ I -
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Lecture 12 - Advanced Stages of Stellar Evolution - II - Silicon Burning and NSE -
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Lecture 13 - Presupernova Models, Core Collapse and Bounce -
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Lecture 14 - Neutrino Powered Explosions, Fall Back and Mixing -
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Lecture 15 - Explosive Nucleosynthesis and the r-Process -
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Lecture 16 - Supernova Light Curves and Observations -
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Lecture 17 - Binaries and Type Ibc Supernovae -
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Lecture 18 - Type Ia Supernovae -
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Lecture 19 - Unusual and Superluminous SNe -
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Lecture 20 - Gamma-Ray Bursts -
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