Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Exploring CME - Solar Wind Interaction in Heliosphere using SWASTi framework
View through CrossRef
Coronal Mass Ejections (CMEs) are key to solar eruptions and geomagnetic storms, heavily influenced by their interaction with solar wind streams. Accurately predicting CME trajectories and impacts hinges on understanding how they evolve within ambient solar wind. Despite numerous qualitative studies, a detailed quantitative analysis of these interactions, crucial for predicting CME behavior, remains elusive, primarily due to the challenges in isolating CMEs from the solar wind.In the initial segment of the presentation, I'll introduce a newly developed MHD model, SWASTi, offering fresh insights into CME-SW interaction through simulation. Developed on the PLUTO code framework, SWASTi integrates a modified WSA relation for setting initial solar wind conditions and features two CME modules: a basic non-magnetized cone CME and an advanced flux rope CME. I'll also discuss a passive scalar tracing approach, developed for isolating CME structures in the heliosphere and analyzing their interactions with stream interaction regions.Following this, I'll delve into an in-depth analysis of CME interactions with variable ambient solar wind and the resulting effects on their evolution. Our approach involves two distinct setups: the 'real case', utilizing the standard SWASTi-CME flux rope model, and the 'synthetic case', a controlled scenario with uniform solar wind speed to examine CME behavior without SIR interference. The synthetic case, acting as a benchmark, allows us to measure the impact of solar wind variability on CME characteristics, contrasting it with findings from the real case.To conclude, the presentation will highlight our research's key outcomes, encompassing both qualitative and quantitative dimensions. These include examining the deformation of the CME front, and the evolution of thermal, kinetic, and magnetic pressures. Additionally, I will discuss the dynamic nature and implications of the drag force exerted on CMEs. We observed that the volume of CME follows a non-fractal power-law expansion over time, eventually reaching a balanced state.
Title: Exploring CME - Solar Wind Interaction in Heliosphere using SWASTi framework
Description:
Coronal Mass Ejections (CMEs) are key to solar eruptions and geomagnetic storms, heavily influenced by their interaction with solar wind streams.
Accurately predicting CME trajectories and impacts hinges on understanding how they evolve within ambient solar wind.
Despite numerous qualitative studies, a detailed quantitative analysis of these interactions, crucial for predicting CME behavior, remains elusive, primarily due to the challenges in isolating CMEs from the solar wind.
In the initial segment of the presentation, I'll introduce a newly developed MHD model, SWASTi, offering fresh insights into CME-SW interaction through simulation.
Developed on the PLUTO code framework, SWASTi integrates a modified WSA relation for setting initial solar wind conditions and features two CME modules: a basic non-magnetized cone CME and an advanced flux rope CME.
I'll also discuss a passive scalar tracing approach, developed for isolating CME structures in the heliosphere and analyzing their interactions with stream interaction regions.
Following this, I'll delve into an in-depth analysis of CME interactions with variable ambient solar wind and the resulting effects on their evolution.
Our approach involves two distinct setups: the 'real case', utilizing the standard SWASTi-CME flux rope model, and the 'synthetic case', a controlled scenario with uniform solar wind speed to examine CME behavior without SIR interference.
The synthetic case, acting as a benchmark, allows us to measure the impact of solar wind variability on CME characteristics, contrasting it with findings from the real case.
To conclude, the presentation will highlight our research's key outcomes, encompassing both qualitative and quantitative dimensions.
These include examining the deformation of the CME front, and the evolution of thermal, kinetic, and magnetic pressures.
Additionally, I will discuss the dynamic nature and implications of the drag force exerted on CMEs.
We observed that the volume of CME follows a non-fractal power-law expansion over time, eventually reaching a balanced state.
Related Results
SIR‐HUXt—A Particle Filter Data Assimilation Scheme for CME Time‐Elongation Profiles
SIR‐HUXt—A Particle Filter Data Assimilation Scheme for CME Time‐Elongation Profiles
AbstractWe present SIR‐HUXt, the integration of a sequential importance resampling data assimilation scheme with the HUXt solar wind model. SIR‐HUXt assimilates the time‐elongation...
Determination of CME orientation and consequences for their propagation
Determination of CME orientation and consequences for their propagation
<p>The configuration of the interplanetary magnetic field and features of the related ambient solar wind in the ecliptic and meridional plane are different. Therefore...
Parker Solar Probe in the inner heliosphere: insights and problems
Parker Solar Probe in the inner heliosphere: insights and problems
The solar magnetic field plays a dual role in the generation of the Heliosphere. On the one hand it creates the corona by storing and transmitting, via a Poynting flux crossing the...
Solar wind heating by an embedded quasi-isothermal pick-up ion fluid
Solar wind heating by an embedded quasi-isothermal pick-up ion fluid
Abstract. It is well known that the solar wind plasma consists of primary ions of solar coronal origin and secondary ions of interstellar origin. Interstellar H-atoms penetrate int...
Extrapolation of solar wind parameters in three-dimensions in the inner heliosphere
Extrapolation of solar wind parameters in three-dimensions in the inner heliosphere
<p>Solar wind parameters, such as the velocity, density or pressure of the solar wind, are one of the most important factors in space physics, and their knowledge at ...
Magnetohydrodynamic simulation of multiple coronal mass ejection (CME) events: Effects of input parameters and CME-CME interactions
Magnetohydrodynamic simulation of multiple coronal mass ejection (CME) events: Effects of input parameters and CME-CME interactions
<p>Geomagnetic storms are one of the most important terrestrial space weather events and often commence in association with the arrival of coronal mass ejections (CME...
Wind lidars within Dutch offshore wind farms
Wind lidars within Dutch offshore wind farms
The growing number of wind farms in the Dutch part of the North Sea [1] offers the necessity, as well as the opportunity, to measure the meteorological conditions at these location...
Primary health care professionals’ opinions regarding continuing medical education: A cross sectional study
Primary health care professionals’ opinions regarding continuing medical education: A cross sectional study
Continuing medical education (CME) is the foremost among the learning strategies that enhance knowledge and skills within the medical profession. This study aimed to evaluate prima...