000003078 001__ 3078
000003078 005__ 20170116144005.0
000003078 037__ $$aCTALK-2017-0032
000003078 100__ $$aMagdalenic, Jasmina
000003078 245__ $$aRadio observations and Space Weather Research
000003078 260__ $$c2016
000003078 269__ $$c2016-10-25
000003078 520__ $$aCoronal mass ejections and associated shock waves are the most frequent drivers of disturbed geomagnetic conditions. Therefore, tracking of CMEs and the CME-driven shock waves from the low corona through the inner heliosphere became one of the most often addressed topics of the space weather research. Observations of solar radio emission associated with CME-driven shock waves are unique means for tracking the shocks, as the shock radio emission can be observed in a broad frequency range (from several hundred MHz down to a few kHz), which encompasses the whole solar atmosphere and the inner heliosphere. Moreover, in many instances, radio emission also brings unique information on the coronal parameters e.g. coronal magnetic field strength and coronal electron density. In this presentation I will discuss how the radio observations (from metric to kilometric wavelength range) can be used in the space weather forecasting. The focus will be on the so-called type II bursts, radio signatures of shock waves. I will also address some of the recent results of the radio triangulation studies (of type II, type III and type IV radio bursts) which bring completely new insight into the causal relationship of the CMEs and associated solar radio emission. 
000003078 594__ $$aSTCE
000003078 773__ $$tThe 4th AOSWA Workshop 2016, Jeju, South Korea
000003078 8560_ $$fjasmina.magdalenic@observatoire.be
000003078 906__ $$aInvited
000003078 980__ $$aCTALKINVI