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Let $\mathbb{D}=\{|z|<1,\ z\in\mathbb{C}\}$. Are there any other automorphisms in $\mathbb{D}$ except the Blaschke factor $\displaystyle B_{a}(z)=\frac{z-a}{1-\overline{a}z},\ a\in\mathbb{D}$?

I denote with $\overline{a}$ the complex conjugate of $a$.

Thank you for your time,

Chris

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$f(z) = ze^{i\theta}$ for $\theta \in \mathbb{R}$, the rotations are also conformal automorphism of $\mathbb{D}$.

In fact, if you denote $\Psi_a$ for $a \in \mathbb{D}$ as the Blaschke factor above, you can prove that all conformal automorphism are of the form $f(z) = \Psi_a(z)e^{i\theta}$.

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    @ChangweiZhou I believe it is the conformal automorphism chapter. I think it is done in the text where they classify the conformal automorphisms of the disc.2012-06-17