Cauchy estimates for derivatives: Difference between revisions

Statement

Let ${\displaystyle U}$ be a domain in ${\displaystyle \mathbb{C}}$ and ${\displaystyle f:U\to \mathbb{C}}$ be a holomorphic function. Suppose there exists a nonnegative real constant ${\displaystyle M}$ such that:

${\displaystyle |f(z)|\le M\mathrm{\forall }z\in U}$

Then, we have that for all ${\displaystyle z\in U}$ and for all ${\displaystyle n\ge 0}$:

${\displaystyle |f^{(n)}(z)|\le \frac{M(n!)}{dist(z,\partial U{)}^n}}$

Here ${\displaystyle f^{(n)}(z)}$ denotes the ${\displaystyle n^{th}}$ partial derivative of ${\displaystyle f}$, evaluated at the point ${\displaystyle z\in \mathbb{C}}$.

Facts used

These estimates are a direct consequence of the Cauchy integral formula for derivatives

Applications

• Bounded and entire implies constant: Any bounded entire function is constant
• Fundamental theorem of algebra