Structure of elements of the unitary group

In summary, the conversation discusses the representation of an element in the unitary group as a diagonal matrix and the requirements for an element to be unitary. The conversation also mentions the concept of basis transformation and the theorem in linear algebra that states every unitary matrix is diagonalizable.
  • #1
FunkyDwarf
489
0
Hey guys,

I'm having a massive brain freeze here trying to show that for any element g in the unitary group you can always represent it as s*some diagonal matrix*s^-1. The only requirement for an element to be unitary is that its hermitian conjugate is its inverse correct? Any hints/help would be appreciated!

Cheers
-G
 
Last edited:
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  • #3
Ah i think i see what youre saying, its kind of a basis transformation thing? I sort of understand that (not in a way to provide a proper proof though) but is there a way to arrive at that relation just from the strict definition of a unitary matrix?

Cheers
-G
 
  • #4
It inevitably follows from a theorem in Linear algebra that states every unitary matrix is diagonalizable. You can probably find it in some L(Alg) textbook or alternatively you can simply google that statement.
 

1. What is the unitary group?

The unitary group is a mathematical group that consists of all unitary matrices, which are square matrices with complex entries that satisfy the condition of unitarity. In simpler terms, it is a collection of matrices that preserve the length and angle of vectors in a complex vector space.

2. What is the significance of the unitary group in physics?

The unitary group plays a crucial role in quantum mechanics, as it represents the symmetries of physical systems. It is used to describe the transformations of quantum states, and its elements correspond to physical operations such as rotations, reflections, and translations.

3. How is the structure of elements in the unitary group determined?

The structure of elements in the unitary group is determined by the properties of unitary matrices. These matrices have complex entries, and their columns and rows are orthonormal vectors. Additionally, the product of a unitary matrix and its conjugate transpose is equal to the identity matrix.

4. Can the unitary group be represented in a finite-dimensional space?

Yes, the unitary group can be represented in a finite-dimensional space. For example, the group of 2x2 unitary matrices can be represented as a subgroup of the special linear group SL(2,C). However, the unitary group is infinite-dimensional and cannot be represented in a finite-dimensional space in its entirety.

5. What is the relationship between the unitary group and the special unitary group?

The special unitary group is a subgroup of the unitary group, consisting of unitary matrices with determinant 1. In other words, it is the set of all unitary matrices that preserve the orientation of vectors. It is denoted as SU(n) for a group of n-dimensional matrices and is of particular importance in physics, especially in the study of particles and fields.

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