# Operators Whose Conjugation Orbits Satisfy Polynomial Growth Conditions

**Authors:** Heybetkulu Mustafayev

arXiv: 1904.05125 · 2019-04-11

## TL;DR

This paper characterizes operators whose conjugation orbits grow polynomially, especially when the spectrum of the base operator is a single point, linking to decomposability and providing commutator estimates.

## Contribution

It provides a complete description of the class of operators with polynomial growth conjugation orbits when the spectrum is a single point, connecting to operator decomposability.

## Key findings

- Complete characterization of the class _A^(\u211d) for single-point spectrum
- Link between polynomial growth and operator decomposability
- Estimates for the norm of the commutator in certain cases

## Abstract

Let $A$ be a bounded linear operator on a complex Banach space $X.$ For a given $\alpha \geq 0,$ we consider the class $\mathcal{D}_{A}^{\alpha }\left( \mathbb{R} \right) $ of all bounded linear operators $T$ on $X$ for which there exists a constant $C_{T}>0$, such that \begin{equation*} \left\Vert e^{tA}Te^{-tA}\right\Vert \leq C_{T}\left( 1+\left\vert t\right\vert \right) ^{\alpha }, \text {} \forall t\in \mathbb{R} \end{equation*} We present complete description of the class $\mathcal{D}_{A}^{\alpha }\left( \mathbb{R} \right) $ in the case when the spectrum of $A$ consists of one point. These results are linked to the decomposability of $A.$ Some estimates for the norm of the commutator $AT-TA$ are obtained in the case $0\leq \alpha <1.$

## Full text

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## References

19 references — full list in the complete paper: https://tomesphere.com/paper/1904.05125/full.md

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Source: https://tomesphere.com/paper/1904.05125