Аннотация:
The Ax-Schanuel Theorem implies that for any $\mathbb{Q}$-linearly
independent modulo $\mathbb{C}$ entire functions of one complex variable
$f_1,...,f_n$, the transcendence degree over $\mathbb{C}$ of $f_1, ...,
f_n, e(f_1),..., e(f_n)$ is at least $n+1$ where $e(z)=e^{2\pi i z}$.
It is natural to ask what happens if one replaces the exponential map $e$
by some other meromorphic functions. In this talk, we will apply
Nevanlinna theory to obtain several
inequalities of the transcendence degree over $\mathbb{C}$ of $f_1, ...,
f_n, F(f_1),..., F(f_n)$ when $f_i$'s are entire functions with some
growth restrictions and $F$ is a transcendental meromorphic function. The
results are joint work with Jiaxing Huang.