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Quantum Chemistry
Quantum chemistry aims at accurate and efficient approximations for the solution of the many-particle Schroedinger equation. The derivation of such systematically improvable analytic approximations to many-particle wave functions and Hamiltonians is at the heart of theoretical chemistry because knowing the wave function of a molecule allows one to predict any desired molecular property in chemistry.
The broad range of quantum chemical methods applied in computer programs for molecular modeling requires a deep understanding of the underlying many-particle physics, which shall be provided in the course of the lectures on quantum chemistry.
Prerequisite (self-study): Quantum Mechanics
Autumn Semester
| Number | Title | Lecturer(s) |
| 529-0003-00L | Advanced Quantum Chemistry | Reiher, Markus |
Spring Semester
| Number | Title | Lecturer(s) |
| 529-0474-00L | Quantum Chemistry | Reiher, Markus / Lüthi-Diploudis, Hans Peter / Stiebritz, Martin Tillmann |
Contact
D-MATH
Kaspar Nipp
D-CHAB
Markus Reiher
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