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DTSTART:19960101T000000 END:STANDARD BEGIN:STANDARD TZNAME:GMT TZOFFSETFROM:+0100 TZOFFSETTO:+0000 DTSTART:19961027T020000 RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=-1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20260428T033316Z DTSTART;VALUE=DATE-TIME:20231024T150000 DTEND;VALUE=DATE-TIME:20231024T160000 SUMMARY:Harley Kelly (Imperial): Magnetopause Surface Waves in MHD Simula tions TZID:Europe/London UID:20231024-8a1785d78b141968018b19743485299c@warwick.ac.uk CREATED:20231023T095751Z DESCRIPTION:Earth’s magnetic field and the solar wind interact in such a manner that a cavity around the planet known as the magnetosphere forms. The magnetosphere is not a perfect shield from the solar wind\; energy and momentum can be passed between the two systems at their interface - the magnetopause. The solar wind energy circulation throughout Earth’s m agnetosphere leads to many technologically disruptive phenomena\, collec tively known as space weather. Understanding this energy source is vital for space weather impact mitigation and prediction. One example of how this energy and momentum transfer occurs is via the Kelvin-Helmholtz Ins tability (KHI). The KHI plays a significant role in the viscous-like mas s\, momentum\, and energy transfer from the solar wind into the magnetos phere through its intrinsically coupled vortical and wave dynamics. Thes e dynamics have both direct and indirect influences throughout magnetosp heric regions (such as the radiation belts\, auroral zones\, and ionosph ere) and provide different pathways for solar wind energy circulation th roughout geospace. Since sparse in situ measurements cannot resolve this global problem\, we employ a novel global 3D magnetohydrodynamic (MHD) simulation called Gorgon to confidently study and compare the effects of these dynamics\, as only global simulations can reproduce the KHI in a representative magnetospheric environment. In this talk\, I aim to cover how a KHI vortex is formally defined and reliably identified using loca l pressure-minima to derive a novel vortex identification technique know n as 𝜆𝑀𝐻𝐷. This technique leads to an investigation into how plasma inhomogeneity\, compressibility\, and magnetic tension influence the for mation of an MHD vortex. Furthering this work\, the spatial-temporal amb iguity associated with KHI-generated magnetopause surface waves (MSWs) i s explored using a factorisation and dimensionality reduction technique known as Dynamic Mode Decomposition (DMD). Analysis using this technique reveals dominant MSW frequencies and their spatial dependences and domi nances. Furthermore\, it indicates that discrete frequency MSWs have a f inite extent along the boundary and a superposition of modes is present showing the KHI both generates and advects MSWs and vortices. The analys is also reveals MSW effects on the magnetosphere: MSWs drive magnetoshea th waves which cause bow shock motion\; the KHI is present along the hig h-latitude magnetopause in the noon-midnight meridian\; and MSWs are sho wn to be linked to plasma sheet waves. I conclude by discussing how this approach improves our understanding of MSWs energy transfer. LOCATION:P5.23 CATEGORIES:CFSA Seminar LAST-MODIFIED:20231023T095751Z ORGANIZER;CN=Anne-Marie Broomhall: END:VEVENT END:VCALENDAR