Multi-wavelength study of white-light flares

Mravcová, Lucia

Spektrální analýza bílých erupcí

diploma thesis (DEFENDED)

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Záznam o průběhu obhajoby (152.6Kb)

Permanent link

http://hdl.handle.net/20.500.11956/107707

Identifiers

Study Information System: 193928

CU Catalogue: 002283832

Consultant

Kašparová, Jana

Referee

Zemanová, Alena

Faculty / Institute

Faculty of Mathematics and Physics

Discipline

Astronomy and Astrophysics

Department

Astronomical Institute of Charles University

Date of defense

19. 6. 2019

Publisher

Univerzita Karlova, Matematicko-fyzikální fakulta

Language

English

Grade

Excellent

Keywords (Czech)

Slunce, sluneční aktivita, erupce, bílé erupce

Keywords (English)

The Sun, solar activity, flares, white-light flares

Slunečnı́ erupce jsou častým a výrazným projevem slunečnı́ aktivity. Jsou pozorovatelné napřı́č celým elektromagnetickým spektrem. Pozorujeme-li široko-pásmovou emisi ve viditelném kontinuu, pak mluvı́me o bı́lých erupcı́ch. Původ vzniku bı́lých erupcı́ch nenı́ doposud úplně znám. Detekovali jsme 24 bı́lých erupcı́ v pozorovánı́ch z přı́stroje SDO/HMI, která jsme analyzovali použitı́m pozorovánı́ z SDO/AIA na vlnových délkách 1 700 ̊A a 304 ̊A a pozorovánı́ v čáře Hα ze sı́tě GONG. Z našı́ práce plyne, že emise na vlnové délce 1 700 ̊A je podobná emisi v bı́lém světle, ale začı́ná dřı́ve. Pozice zjasněnı́ v 1 700 ̊A jsou podobné pozicı́m zjasněnı́ bı́lých erupcı́ a jsou s nimi spojené vlákny viditelnými na vlnové délce 304 ̊A a v čáře Hα. Dále jsme studovali typický čas útlumu bı́lých erupcı́. Pro většinu bodů bı́lé erupce je typický čas útlumu v rozsahu 2 - 3 min. 1

Abstract (English)

Solar flares are common and strong demonstrations of solar activity. They are observable throughout the whole electromagnetic spectrum. If they show a broadband emission in the visible continuum, then we speak of white-light flares. The origin of white-light flares is not fully understood. We detected 24 white-light flares in SDO/HMI data and analyzed them using SDO/AIA wavelength bands at 1 700 ̊A and 304 ̊A and GONG Hα observations. According to our work, the emission in the 1 700 ̊A band is similar to the white-light emission but usually starts sooner. The positions of intensity enhancements in the 1 700 ̊A band are similar to the positions of the white-light flares and are connected by ribbons visible in the 304 ̊A band and in the Hα line. Then we studied the decay time of white-light flares and found that for most of the white-light flare points the typical decay time ranges in 2 - 3 min. 1

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