Magnetic Structure of Umbral Dots Observed with Hinode Solar Optical Telescope

TL;DR

This study investigates the magnetic and velocity structures of umbral dots in a decaying sunspot using Hinode observations, revealing center-to-limb variations and potential oscillatory convection, and compares findings with existing models.

Contribution

It provides detailed magnetic and Doppler velocity measurements of umbral dots, highlighting center-to-limb variations and oscillatory behavior, and discusses implications for sunspot models.

Findings

Umbral dots have slightly weaker magnetic fields at disk center.

Blue shifts observed in UDs suggest upflows.

Oscillatory light curves indicate possible convection oscillations.

Abstract

High resolution and seeing-free spectroscopic observation of a decaying sunspot was done with the Solar Optical Telescope aboard Hinode satellite. The target was NOAA 10944 located in the west side of the solar surface from March 2 to March 4, 2007. The umbra included many umbral dots (UDs) with size of ~300 km in continuum light. We report the magnetic structures and Doppler velocity fields around UDs, based on the Milne-Eddington inversion of the two iron absorption lines at 6302 angstrom. The histograms of magnetic field strength(B), inclination angle(i), and Doppler velocity(v) of UDs showed a center-to-limb variation. Observed at disk center, UDs had (1)slightly smaller field strength (Delta B=-17 Gauss) and (2)relative blue shifts (Delta v=28 m s-1) compared to their surroundings. When the sunspot got close to the limb, UDs and their surroundings showed almost no difference in the magnetic and Doppler values. This center-to-limb variation can be understood by the formation height difference in a cusp-shaped magnetized atmosphere around UDs, due to the weakly magnetized hot gas intrusion. In addition, some UDs showed oscillatory light curves with multiple peaks around 10 min, which may indicate the presence of the oscillatory convection. We discuss our results in the frameworks of two theoretical models, the monolithic model (Schussler & Vogler 2006) and the field-free intrusion model (Spruit & Scharmer 2006).