High-precision measurements and theoretical calculations of indium excited-state polarizabilities

TL;DR

This paper presents high-precision measurements and theoretical calculations of indium's excited-state polarizabilities, providing benchmarks for atomic physics and guiding future theoretical improvements.

Contribution

It offers the first high-precision experimental data for high excited states of indium and compares two advanced relativistic calculation methods.

Findings

Measured scalar polarizabilities of $7p_{1/2}$ and $7p_{3/2}$ states.

Estimated tensor polarizability of the $7p_{3/2}$ state.

Demonstrated the ability to differentiate between theoretical methods.

Abstract

We report measurements of the $^{115}$In $7p_{1/2}$ and $7p_{3/2}$ scalar and tensor polarizabilities using two-step diode laser spectroscopy in an atomic beam. The scalar polarizabilities are one to two orders of magnitude larger than for lower lying indium states due to the close proximity of the $7p$ and $6d$ states. For the scalar polarizabilities, we find values (in atomic units) of $1.811(4) \times 10^5$ $a_0^3$ and $2.876(6) \times 10^5$ $a_0^3$ for the $7p_{1/2}$ and $7p_{3/2}$ states respectively. We estimate the smaller tensor polarizability component of the $7p_{3/2}$ state to be $-1.43(18) \times 10^4$ $a_0^3$. These measurements represent the first high-precision benchmarks of transition properties of such high excited states of trivalent atomic systems. We also present new ab initio calculations of these quantities and other In polarizabilities using two high-precision relativistic methods to make a global comparison of the accuracies of the two approaches. The precision of the experiment is sufficient to differentiate between the two theoretical methods as well as to allow precise determination of the indium $7p-6d$ matrix elements. The results obtained in this work are applicable to other heavier and more complicated systems, and provide much needed guidance for the development of even more precise theoretical approaches.