[see also: shape, structure, type, kind]

The map $F$ can be put $\langle$brought$\rangle$ into this form by setting ......

Let $S$ be the set of all solutions of (8) of the form (3).

We shall then show that this $f$ can be represented in the form $f=$ ......

This implies that the local martingale must take a very specific form.

in diagonal form


[see also: constitute, make up, account for, represent]

Consider the Blaschke product formed with the zeros of $f$.

They form a base of the topology of $X$.

Theorem 2 will form the basis for our subsequent results.

The key part is to show that the submanifolds $U_k$ fit together to form a complex submanifold.

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