# Some lower bounds for the numerical radius of Hilbert space operators

Document Type: Original Article

Author

Abstract

We show that if $T$ is a bounded linear operator on a complex Hilbert space, then
\begin{equation*}
\frac{1}{2}\Vert T\Vert\leq \sqrt{\frac{w^2(T)}{2} + \frac{w(T)}{2}\sqrt{w^2(T) - c^2(T)}} \leq w(T),
\end{equation*}
where $w(\cdot)$ and $c(\cdot)$ are the numerical radius and the Crawford number, respectively.
We then apply it to prove that for each $t\in[0, \frac{1}{2})$ and natural number $k$,
\begin{equation*}
\frac{(1 + 2t)^{\frac{1}{2k}}}{{2}^{\frac{1}{k}}}m(T)\leq w(T),
\end{equation*}
where $m(T)$ denotes the minimum modulus of $T$. Some other related results are also presented.

Keywords

### History

• Receive Date: 09 December 2016
• Revise Date: 06 January 2017
• Accept Date: 30 January 2017