Definition:Cantor Normal Form

Definition
Let $x$ be an ordinal.

Let $\omega$ denote the minimal infinite successor set.

Let $\langle a_i \rangle$ be a strictly decreasing finite sequence of ordinals.

Let $\langle n_i \rangle$ be a finite sequence of members of $\omega$.

Cantor normal form of $x$ is of the form:


 * $\omega^{a_1} n_1 + \dots + \omega^{a_k} n_k$

In summation notation:


 * $\displaystyle \sum_{i \mathop = 1}^k \omega^{a_i} n_i$

Properties
Every ordinal number can be written in Cantor normal form by Unique Representation of Ordinal as Sum.

Moreover, the Cantor normal form is unique. The ordinal cannot be written any other way that could still be considered Cantor normal form.

Cantor normal form is useful when performing operations like multiplication and exponentiation. See Ordinal Multiplication via Cantor Normal Form/Limit Base and Ordinal Exponentiation via Cantor Normal Form/Limit Exponents.

Also see

 * Unique Representation of Ordinal as Sum shows that Cantor normal form exists for every ordinal and is unique.