TY  -  
T1  - Improving predictions of high-latitude Coronal Mass Ejections throughout the heliosphere 
SN  -  /  
UR  - http://hdl.handle.net/10138/314886 
T3  -  
A1  - Scolini, C.; Chané, E.; Pomoell, J.; Rodriguez, L.; Poedts, S. 
A2  -  
PB  -  
Y1  - 2020 
LA  - eng 
AB  - Predictions of the impact of coronal mass ejections (CMEs) in the heliosphere mostly rely on cone CME models, whose performances are optimized for locations in the ecliptic plane and at 1 AU (e.g., at Earth). Progresses in the exploration of the inner heliosphere, however, advocate the need to assess their performances at both higher latitudes and smaller heliocentric distances. In this work, we perform 3-D magnetohydrodynamics simulations of artificial cone CMEs using the EUropean Heliospheric ... 
VO  -  
IS  -  
SP  -  
OP  -  
KW  - Coronal Mass Ejections; Modelling; Forecasting; Heliosphere; coronal mass ejections; SPACE WEATHER; modeling; forecasting; CMES; heliosphere; MODEL; SOLAR-WIND; PROPAGATION; 115 Astronomy, Space science 
N1  -   
PP  -  
ER  -