From 3fea561f9d2d9509299a707dd07fe0b6b590e991 Mon Sep 17 00:00:00 2001 From: apkille Date: Sat, 6 Jul 2024 16:35:38 -0400 Subject: [PATCH] doc fix --- docs/src/introduction.md | 20 ++++++++++---------- 1 file changed, 10 insertions(+), 10 deletions(-) diff --git a/docs/src/introduction.md b/docs/src/introduction.md index 548b49e..b050917 100644 --- a/docs/src/introduction.md +++ b/docs/src/introduction.md @@ -157,19 +157,19 @@ B†A† ``` Below, we state all of the supported linear algebra operations on quantum objects: -- commutator of two operators: [`commutator`](@ref), -- anticommutator of two operators: [`anticommutator`](@ref), -- complex conjugate: [`conj`](@ref), -- transpose: [`transpose`](@ref), -- projection of a ket: [`projector`](@ref), -- adjoint or dagger: [`dagger`](@ref), -- inverse of an operator: [`inv`](@ref), -- exponential of an operator: [`exp`](@ref), -- vectorization of an operator: [`vec`](@ref). +- commutator of two operators: `commutator`, +- anticommutator of two operators: `anticommutator`, +- complex conjugate: `conj`, +- transpose: `transpose`, +- projection of a ket: `projector`, +- adjoint or dagger: `dagger`, +- inverse of an operator: `inv`, +- exponential of an operator: `exp`, +- vectorization of an operator: `vec`. ## Simplifying Expressions -For predefined objects such as the Pauli operators [`X`](@ref), [`Y`](@ref), and [`Z`](@ref), manual simplification can be performed with the [`qsimplify`](@ref) function. Take the following example: +For predefined objects such as the Pauli operators `X`, `Y`, and `Z`, manual simplification can be performed with the [`qsimplify`](@ref) function. Take the following example: ```jldoctest julia> qsimplify(X*Z)