|Lecturer||Dr. Roman Schmied|
|Time and place|
Lecture: Wednesdays 14:15–16:00, department of physics, room 1.09
|Start date||February 24, 2016|
|Final lecture||June 1, 2016|
|No lecture on March 23|
|Project report due||July 1, 2016|
Quantum mechanics is too complicated to be done by hand. Even relatively simple problems, such as two interacting particles in a one-dimensional trap, do not have analytic solutions and require the use of computers for their solution and visualization. More complex problems scale exponentially with the number of degrees of freedom, and make the use of large computer simulations unavoidable.
This course will revisit most of the problems encountered in introductory quantum mechanics, focusing on computer implementations for finding analytical as well as numerical solutions and their visualization. We will use these implementations as building blocks for solving more complex problems such as the coherent laser-driven dynamics in the Rubidium hyperfine structure.
The course will be taught in the Mathematica programming language. No prior knowledge of Mathematica is necessary, and Mathematica licenses will be provided. Alternatives to Mathematica, such as Matlab or Maple, may be used by the students, but only limited help will be available from the instructor.
You can download the latest version of the lecture script here. You are expected to read ahead in the script and come to the lectures prepared to discuss the topics in the script.