Contraction property of differential operator on Fock space (2207.13606v1)

Abstract: In the paper, \cite{tilli} Nicola and Tilli proved the Faber-Krahn inequality, which for $p=2$, states the following. If $f\in\mathcal{F}\alpha^2$ is an entire function from the corresponding Fock space, then $$\frac{1}{\pi}\int{\Omega} |f(z)|^2 e^{-\pi |z|^2} dx dy \le (1-e^{-|\Omega|}) |f|^2_{2,\pi}.$$ Here $\Omega$ is a domain in the complex plane and $|\Omega|$ is its Lebesgue measure. This inequality is sharp and equality can be attained. We prove the following sharp inequality $$\int_{\Omega} \frac{|f^{(n)}(z)|^2e^{-\pi |z|^2}}{\pi^n n ! L_n(-\pi |z|^2)}dxdy \le (1-e^{-(n+1)|\Omega|})|f|^2_{2,\pi},$$ where $L_n$ is Laguerre polynomial, and $n\in{0,1,2,3,4} $. For $n=0$ it coincides with the result of Nicola and Tilli.