Rapid Fluctuations in the Lower Solar Atmosphere

Details Rapid Fluctuations in the Lower Solar Atmosphere Rapid Fluctuations in the Lower Solar Atmosphere

2011-11-18

arxiv.org/abs/1111.4253v1

2011 ApJ, 743, L24

Astronomy and Astrophysics

Astrophysics

Solar and Stellar Astrophysics

Accepted by Astrophysical Journal Letters

Scientific paper

The Rapid Oscillations in the Solar Atmosphere (ROSA) instrument reveals solar atmospheric fluctuations at high frequencies. Spectra of variations of the G-band intensity (IG) and CaII K-line intensity (IK) show correlated fluctuations above white noise to frequencies beyond 300 mHz and 50 mHz, respectively. The noise-corrected G-band spectrum for f = 28 - 326 mHz shows a power law with exponent -1.21 \pm, 0.02, consistent with the presence of turbulent motions. G-band spectral power in the 25 - 100 mHz ("UHF") range is concentrated at the locations of magnetic bright points in the intergranular lanes and is highly intermittent in time. The intermittence of the UHF G-band fluctuations, shown by a positive kurtosis {\kappa}, also suggests turbulence. Combining values of IG, IK, UHF power, and {\kappa}, reveals two distinct states of the solar atmosphere. State 1, including almost all the data, is characterized by low IG, IK, and UHF power and {\kappa} \approx 6. State 2, including only a very small fraction of the data, is characterized by high IG, IK, and UHF power and {\kappa} \approx 3. Superposed epoch analysis shows that the UHF power peaks simultaneously with spatio-temporal IG maxima in either state. For State 1, IK shows 3.5 min chromospheric oscillations with maxima occurring 21 s after IG maxima implying a 150 - 210 km effective height difference. However, for State 2 the IK and IG maxima are simultaneous; in this highly magnetized environment sites of G-band and K-line emission may be spatially close together.

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