Abstract
Magnetic reconnection is believed to be the dominant process by which solar wind plasma enters the magnetosphere. However, for periods of northward interplanetary magnetic field (IMF) reconnection is less likely at the dayside magnetopause, and Kelvin–Helmholtz waves (KHWs) may be important agents for plasma entry and for the excitation of ultra-low-frequency (ULF) waves. The relative importance of KHWs is controversial because no statistical data on their occurrence frequency exist. Here we survey 7 years of in situ data from the NASA THEMIS (Time History of Events and Macro scale Interactions during Substorms) mission and find that KHWs occur at the magnetopause ∼19% of the time. The rate increases with solar wind speed, Alfven Mach number and number density, but is mostly independent of IMF magnitude. KHWs may thus be more important for plasma transport across the magnetopause than previously thought, and frequently drive magnetospheric ULF waves.
Highlights
Magnetic reconnection is believed to be the dominant process by which solar wind plasma enters the magnetosphere
We find that the Kelvin–Helmholtz waves (KHWs) occurrence rate increases with solar wind speed, Alfven Mach number and number density, but is mostly independent of interplanetary magnetic field (IMF) magnitude
Each interval is classified as KHW or not, and tagged with ancillary data, such as time-shifted solar wind (SW) and IMF data
Summary
Magnetic reconnection is believed to be the dominant process by which solar wind plasma enters the magnetosphere. We find that the KHWs occurrence rate increases with solar wind speed, Alfven Mach number and number density, but is mostly independent of IMF magnitude.
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