In response to a solar wind dynamic pressure enhancement, the compression of the magnetosphere generates strong ionospheric signatures and a sharp variation in the ground magnetic field, termed sudden commencement (SC). Whilst such compressions have also been associated with a contraction of the ionospheric polar cap due to the triggering of reconnection in the magnetotail, the effect of any changes in dayside reconnection is less clear and is a key component in fully understanding the system response. In this study we explore the time-dependent nature of dayside coupling during SC by performing global simulations using the Gorgon MHD code, and impact the magnetosphere with a series of interplanetary shocks with different parameters. We ide...
This paper describes properties and behavior of magnetic reconnection and flux transfer events (FTEs...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1989In this thesis, the day side reconnection p...
The quasi‐DC compressions of the Earth’s dayside magnetic field by ram‐pressure fluctuations in the ...
In response to a solar wind dynamic pressure enhancement, the compression of the magnetosphere gener...
The interaction between the solar wind and the terrestrial magnetosphere-ionosphere system is highly...
One of the most significant observations associated with a sharp enhancement in solar wind dynamic p...
During southward interplanetary magnetic field, dayside reconnection will drive the Dungey cycle in ...
Solar wind mass, energy and momentum can be transferred to Earth's magnetosphere at the magnetopause...
Sudden commencement (SC) induced by solar wind pressure enhancement can produce significant global i...
We present space- and ground-based observations of the signatures of magnetic reconnection during an...
The magnetopause marks the outer edge of the Earth’s magnetosphere and a distinct boundary between s...
The magnetopause marks the outer edge of the Earth’s magnetosphere and a distinct boundary between s...
We use a novel method to evaluate the global opening and closure of magnetic flux in the terrestrial...
Reconnection at the dayside magnetopause is the principal method by which energy is transferred from...
The response of the Earth’s magnetotail current sheet to the external solar wind driver is highly ti...
This paper describes properties and behavior of magnetic reconnection and flux transfer events (FTEs...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1989In this thesis, the day side reconnection p...
The quasi‐DC compressions of the Earth’s dayside magnetic field by ram‐pressure fluctuations in the ...
In response to a solar wind dynamic pressure enhancement, the compression of the magnetosphere gener...
The interaction between the solar wind and the terrestrial magnetosphere-ionosphere system is highly...
One of the most significant observations associated with a sharp enhancement in solar wind dynamic p...
During southward interplanetary magnetic field, dayside reconnection will drive the Dungey cycle in ...
Solar wind mass, energy and momentum can be transferred to Earth's magnetosphere at the magnetopause...
Sudden commencement (SC) induced by solar wind pressure enhancement can produce significant global i...
We present space- and ground-based observations of the signatures of magnetic reconnection during an...
The magnetopause marks the outer edge of the Earth’s magnetosphere and a distinct boundary between s...
The magnetopause marks the outer edge of the Earth’s magnetosphere and a distinct boundary between s...
We use a novel method to evaluate the global opening and closure of magnetic flux in the terrestrial...
Reconnection at the dayside magnetopause is the principal method by which energy is transferred from...
The response of the Earth’s magnetotail current sheet to the external solar wind driver is highly ti...
This paper describes properties and behavior of magnetic reconnection and flux transfer events (FTEs...
Dissertation (Ph.D.) University of Alaska Fairbanks, 1989In this thesis, the day side reconnection p...
The quasi‐DC compressions of the Earth’s dayside magnetic field by ram‐pressure fluctuations in the ...