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Definition

A unitary operator is a unitary morphism in the †-category Hilb.

Explicitly, this means the following.

Unitary operators

A unitary operator $U$ on a Hilbert space $\mathcal{H}$ is a bounded linear operator $U: \mathcal{H} \to \mathcal{H}$ that satisfies

$U^{*}U=U U^{*}=I$

where $U^{*}$ is the Hilbert space adjoint? of $U$ and $I$ is the identity operator. This property is equivalent to saying that the range of $U$ is dense and that $U$ preserves the inner product $\langle \cdot,\cdot\rangle$ on the Hilbert space. An operator is unitary if and only if $U^{-1}=U^{*}$.

Unitary operators are the isomorphisms of Hilbert spaces since they preserve the basic structure of the space, e.g. the topology. The group of all unitary operators from a given Hilbert space to itself is sometimes called the unitary group $U(\mathcal{H})$ or Hilbert group of $H$ and is denoted Hilb($H$).

Sometimes operators may only obey the linear isometry condition $U^{*}U=I$ or the coisometry? condition $U U^{*}=I$.

The generalization of a unitary operator is called a unitary element of a unital *-algebra.

Unitary matrices

If a basis for a finite dimensional Hilbert space is chosen, the defnition of unitary operator reduces to that of unitary matrix.

A unitary matrix is an $n \times n$ matrix with complex entries that satisfies the condition

$U^{*}U=U U^{*}=I_{n}$.

This is equivalent to saying that both the rows and the columns of $U$ form an orthonormal basis in $\mathbb{C}^{n}$ with respect to the respective inner product. $U$ is also a normal matrix? whose eigenvalues lie on the unit circle.

Notation

The notation used here for the adjoint, $U^{*}$, is commonly used in linear algebraic circles (as is $U^{H}$). In quantum mechanics, $U^{\dagger}$ is exclusively used for the adjoint while $U^{*}$ is interpreted as the same thing as $\bar{U}$, i.e. the complex conjugate.

Examples

• In harmonic analysis, Parseval's theorem says that the Fourier transform is a unitary operator.

Related concepts

• linear isometry

• unitary group

• special unitary group

• Hermitian operator

• antiunitary operator

• unitary quantum channel

• unitary fusion category

• unitary functorial field theory

References

See also:

• Wikipedia, Unitary operator