# Observations on spatial variations of the Sr~{\sc i} 4607~\AA~scattering   polarization signals at different limb distances with ZIMPOL

**Authors:** Sajal Kumar Dhara, Emilia Capozzi, Daniel Gisler, Michele Bianda,, Renzo Ramelli, Svetlana Berdyugina, Ernest Alsina, and Luca Belluzzi

arXiv: 1908.03366 · 2019-08-12

## TL;DR

This study used high-resolution spectro-polarimetric observations to detect and analyze spatial variations in the Sr I 4607 Å scattering polarization signals across the solar limb, revealing correlations with granular structures.

## Contribution

First detection of spatial variations of Sr I 4607 Å scattering polarization at different limb distances with high spatial resolution, linking polarization signals to granular activity.

## Key findings

- Spatial variations are observed at granular scales at all limb distances.
- The polarization amplitude correlates positively with continuum intensity.
- Variations are consistent across different limb positions.

## Abstract

The Sr~{\sc i} 4607~\AA\ spectral line shows one of the strongest scattering polarization signals in the visible solar spectrum. The amplitude of this polarization signal is expected to vary at granular spatial scales, due to the combined action of the Hanle effect and the local anisotropy of the radiation field. Observing these variations would be of great interest because it would provide precious information on the small-scale activity of the solar photosphere. At present, few detections of such spatial variations have been reported. This is due to the difficulty of these measurements, which require combining high spatial ($\sim$ 0.1"), spectral ($\leq$ 20 m\AA), and temporal resolution (< 1 min) with increased polarimetric sensitivity ($\sim$ 10$^-$$^4$). Aims. We aim to detect spatial variations at granular scales of the scattering polarization peak of the Sr~{\sc i} 4607~\AA\ line at different limb distances, and to study the correlation with the continuum intensity. Methods.Using the Zurich IMaging POLarimeter (ZIMPOL) system mounted at the GREGOR telescope and spectrograph in Tenerife, Spain, we carried out spectro-polarimetric measurements to obtain the four Stokes parameters in the Sr~{\sc i} line at different limb distances, from $\mu=0.2$ to $\mu=0.8$, on the solar disk. Results.Spatial variations of the scattering polarization signal in the Sr~{\sc i} 4607~\AA\ line, with a spatial resolution of about 0.66", are clearly observed at every $\mu$. The spatial scale of these variations is comparable to the granular size. A statistical analysis reveals that the linear scattering polarization amplitude in this Sr~{\sc i} spectral line is positively correlated with the intensity in the continuum, corresponding to the granules, at every $\mu$.

## Full text

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## Figures

24 figures with captions in the complete paper: https://tomesphere.com/paper/1908.03366/full.md

## References

19 references — full list in the complete paper: https://tomesphere.com/paper/1908.03366/full.md

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Source: https://tomesphere.com/paper/1908.03366