A spectropolarimeter for vacuum-ultraviolet emission lines

TL;DR

The paper presents a newly developed vacuum-ultraviolet spectropolarimeter capable of measuring linear polarization of spectral lines around Lyman-alpha, demonstrated through experiments with Li-like nitrogen emission.

Contribution

A novel spectropolarimeter design using multilayer-coated optics and a grazing-incidence grating for polarization measurement in the vacuum-ultraviolet range.

Findings

Successfully measured polarization of N$^{4+}$ emission line at 124 nm.

Achieved an absolute polarization uncertainty of about 0.01.

Confirmed the instrument's capability to determine polarization with high precision.

Abstract

We have developed a vacuum-ultraviolet spectropolarimeter to measure the linear polarization of spectral lines around the Lyman-$\alpha$ wavelength. The main components for polarimetry are a rotatable MgF$_2$ waveplate and a SiO$_2$/MgF$_2$ multilayer-coated fused silica plate that functions as a reflective polarizer. A grazing-incidence grating is mounted between them to provide wavelength dispersion. The polarization is determined from the intensity modulation of the spectral line as the waveplate is rotated. The performance of the spectropolarimeter was demonstrated by measuring the polarization of the $2s$--$2p_{3/2}$ transition in Li-like N$^{4+}$ (124~nm) excited by a 1000~eV electron beam in an electron beam ion trap. Clear modulation of the line intensity was observed as a function of the waveplate rotation angle. From the measured modulation amplitude, the degree of linear polarization was determined to be $P=-(0.178^{+0.012}_{-0.005})$, with the negative sign indicating that the emission is polarized predominantly perpendicular to the electron beam. This result demonstrates the capability of the present spectropolarimeter to determine polarizations with an absolute uncertainty $\Delta P$ on the order of $0.01$. This instrument provides a useful tool for polarization diagnostics of vacuum-ultraviolet emission lines from laboratory plasmas.