Unit information: Quantum Mechanics in 2017/18

Unit name	Quantum Mechanics
Unit code	MATH35500
Credit points	20
Level of study	H/6
Teaching block(s)	Teaching Block 1 (weeks 1 - 12)
Unit director	Dr. Muller
Open unit status	Not open
Pre-requisites	Either MATH20101 Ordinary Differential Equations 2 or MATH20402 Applied Partial Differential Equations 2
Co-requisites	None
School/department	School of Mathematics
Faculty	Faculty of Science

Description including Unit Aims

Unit aims

The aim of the unit is to provide mathematics students with a thorough introduction to nonrelativistic quantum mechanics, with emphasis on the mathematical structure of the theory.

General Description of the Unit

Quantum mechanics forms the foundation of 20th century and present-day physics, and most contemporary disciplines, including atomic and molecular physics, condensed matter physics, high-energy physics, quantum optics and quantum information theory, depend essentially upon it. Quantum mechanics is also the source and inspiration for various fields in mathematical physics and pure mathematics.

The aim of the unit is to provide mathematics students with a thorough introduction to nonrelativistic quantum mechanics, with emphasis on the mathematical structure of the theory. Additionally, in conjunction with other units, it should provide suitably able and inclined students with the necessary background for further study and research at the postgraduate level. Two relevant research fields, namely quantum chaos and quantum information theory are at present strongly represented in the Mathematics Department and in the Science Faculty as a whole.

Relation to Other Units

This unit cannot be taken by students who have taken or are taking relevant physics units at either level 2 or level 3. For mathematics students, it is a prerequisite for the Level M unit Quantum Chaos and a useful preparation for the Level M unit Quantum Information Theory.

Additional unit information can be found at http://www.maths.bristol.ac.uk/study/undergrad/current_units/index.html

Intended Learning Outcomes

Learning Objectives

At the end of the unit the student should:

• be familiar with the time-independent and time-dependent Schroedinger equations, and be able to solve them in simple examples
• be familiar with the notions of Hilbert space, self-adjoint operators, unitary operators, commutation relations, understand their relevance to the mathematical formulation of quantum mechanics and be able to use the notions to formulate and solve problems
• understand the probabilistic interpretation of quantum states, and basic aspects of the relation between classical and quantum mechanics

understand the quantum mechanical description of angular momentum and spin

Transferable Skills

Expressing physical axioms mathematically and analysing their consequences.

Teaching Information

Lectures, problem sheets.

Assessment Information

100% Examinations.

Raw scores on the examinations will be determined according to the marking scheme written on the examination paper. The marking scheme, indicating the maximum score per question, is a guide to the relative weighting of the questions. Raw scores are moderated as described in the Undergraduate Handbook.

Reading and References

Reading and references are available at http://www.maths.bristol.ac.uk/study/undergrad/current_units/index.html