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start [2014/07/07 14:05] bogner |
start [2014/07/07 21:27] bogner [Training in Advanced Low Energy Nuclear Theory] |
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====== TALENT ====== | ====== TALENT ====== | ||
===== Training in Advanced Low Energy Nuclear Theory ===== | ===== Training in Advanced Low Energy Nuclear Theory ===== | ||
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===== Course 4: Density Functional Theory and Self-Consistent Methods ===== | ===== Course 4: Density Functional Theory and Self-Consistent Methods ===== | ||
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The goals of the course are threefold: (i) To gain an in-depth understanding of the basic concepts, mathematical methods, and computational techniques used to solve the quantum many-body problem within the framework of density functional theory (DFT) and related methods, (ii) To learn about the current developments, challenges, and research opportunities in the specific context of nuclear structure, and (iii) To conduct and manage a group computational nuclear physics project utilizing various DFT methods. The course will thus give the participants the necessary proficiency to tackle a broad spectrum of research problems in atomic and nuclear physics. | The goals of the course are threefold: (i) To gain an in-depth understanding of the basic concepts, mathematical methods, and computational techniques used to solve the quantum many-body problem within the framework of density functional theory (DFT) and related methods, (ii) To learn about the current developments, challenges, and research opportunities in the specific context of nuclear structure, and (iii) To conduct and manage a group computational nuclear physics project utilizing various DFT methods. The course will thus give the participants the necessary proficiency to tackle a broad spectrum of research problems in atomic and nuclear physics. | ||
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