Appendix H: Topics in Quantum Mechanics

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Introduction

In this section, some topics in quantum mechanics will be presented. These are outside the main topic of the book, which is focused on quantum computing and quantum error prevention. Here the topics are of quantum mechanics, but not directly having to do with those main topics of the book.

Time Independent Perturbation Theory

A fairly good introductory treatment of this topic can be found in Griffiths' book [4]. One may also consult many other good textbooks on quantum mechanics, such as Ballentine [47].

The Problem

The problem that we want to solve is the following. Suppose that we know how to solve a problem. Can we solve one that is "close" to this one? We have to be specific about what we mean by "close". But intuitively, if we know the solutions to a problem (we know the eigenfunctions and eigenvalues for a Hamiltonian), and the Hamiltonian is only changed slightly, we could expect that the solutions (e.g. the eigenvalues) for the new problem are not too different from the one we know how to solve. With this in mind, let us suppose that we know how to solve a problem:


(H.1)

Time Independent Perturbation Theory with Degeneracies

Unitary transformations are represented in a circuit diagram with a box around the unitary transformation. Consider a unitary transformation on a single qubit state . If the result of the transformation is , we can then write


(H.1)

The corresponding circuit diagram is shown in Fig. 2.1.

Vbox1qu.jpg
Figure 2.1: Circuit diagram for a one-qubit gate that implements the unitary transformation . The input state is on the left and the output, , is on the right.