![complex analysis - Prove $F(z)=\prod_{n=1}^{\infty}(1-e^{-2\pi nt}e^{2\pi iz})$ is of growth order $2$. - Mathematics Stack Exchange complex analysis - Prove $F(z)=\prod_{n=1}^{\infty}(1-e^{-2\pi nt}e^{2\pi iz})$ is of growth order $2$. - Mathematics Stack Exchange](https://i.stack.imgur.com/Xq6yp.png)
complex analysis - Prove $F(z)=\prod_{n=1}^{\infty}(1-e^{-2\pi nt}e^{2\pi iz})$ is of growth order $2$. - Mathematics Stack Exchange
Quanta Magazine - This equation is often described as the most beautiful in all of mathematics. Each of its numbers, 0, 1, π, i and e symbolize an entire branch of math,
![Euler's Formula e, Pi, i, 1, 0 One zero. Complex numbers, Taylor series. Annual Conference, Mathematical Association - Antonio Gutierrez Euler's Formula e, Pi, i, 1, 0 One zero. Complex numbers, Taylor series. Annual Conference, Mathematical Association - Antonio Gutierrez](https://gogeometry.com/e_i_pi_full.jpg)