GeophysicalResearchLetters RESEARCHLETTER The plasmaspheric plume and magnetopause reconnection 10.1002/2013GL058802 B.M.Walsh1,T.D.Phan2,D.G.Sibeck1,andV.M.Souza1,3 KeyPoints: 1NASAGoddardSpaceFlightCenter,Greenbelt,Maryland,USA,2UniversityofCalifornia,SpaceScienceLab,Berkeley, •Theplasmasphericplumegreatly California,USA,3NationalInstituteforSpaceResearch/INPE,SaoJosedosCampos,Brazil impactsmagnetopausereconnection •Theplumereducessolar wind-magnetospherecouplingina AbstractWepresentnear-simultaneousmeasurementsfromtwoTHEMISspacecraftatthedayside localizedregion magnetopausewitha1.5hseparationinlocaltime.Onespacecraftobservesahigh-densityplasmaspheric plumewhiletheotherdoesnot.Bothspacecraftobservesignaturesofmagneticreconnection,providing Correspondenceto: atestforthechangestoreconnectioninlocaltimealongthemagnetopauseaswellastheimpactofhigh B.M.Walsh, [email protected] densitiesonthereconnectionprocess.Whentheplumeispresentandthemagnetosphericdensityexceeds thatinthemagnetosheath,thereconnectionjetvelocitydecreases,thedensitywithinthejetincreases,and thelocationofthefasterjetisprimarilyonfieldlineswithmagnetosheathorientation.Slowerjetvelocities Citation: Walsh,B.M.,T.D.Phan,D.G.Sibeck, indicatethatreconnectionisoccurringlessefficiently.Inthelocalizedregionwheretheplumecontacts andV.M.Souza(2014),Theplasma- themagnetopause,thehigh-densityplumemayimpedethesolarwind-magnetospherecouplingbymass sphericplumeandmagnetopause loadingthereconnectionsite. reconnection,Geophys.Res.Lett.,41, 223–228,doi:10.1002/2013GL058802. Received21NOV2013 1.Introduction Accepted31DEC2013 Acceptedarticleonline4JAN2014 Ithasbeenpredictedthatsolarwind-magnetospherecouplingislimitedduringtimeswhendenseplasma- Publishedonline21JAN2014 sphericplumescontactthedaysidemagnetopause.Thesepredictionsarebasedontheoryandmodeling whichshowthatthereconnectionratedecreaseswhentheplasmadensityincreases[e.g.,CassakandShay, 2007;Birnetal.,2008].Astheplumecontactsthemagnetopause,itshouldmassloadtheregionandslow magnetopausereconnection.Thisinturnshoulddecreasethelevelofsolarwind-magnetospherecoupling. Observationally,thecontrolofsolarwind-magnetospherecouplingbytheplumehasbeeninferredinsta- tisticalworkbyBorovskyandDenton[2006].BorovskyandDenton[2006]examinedmanyyearsofsolarwind measurementsandgeosychronousplumeobservationstoshowreducedsolarwind-magnetospherecou- plingasmeasuredthroughgeomagneticindices.Globalmagnetohydrodynamic(MHD)modelingshows thatmassloadingofthemagnetopausereconnectionwillgreatlyslowthereconnectionrateinalocalized region,whichisconsistentwithpreviousresults[Borovskyetal.,2008]. Althoughmanymeasurementsoftheplumeexistatgeosynchronousorbit[e.g.,Moldwinetal.,1994; Elphicetal.,1996;BorovskyandDenton,2008],fewspacecraftmeasurementshavebeenreportedofthe plumeactuallycontactingthemagnetopause[e.g.,Suetal.,2000;McFaddenetal.,2008a;Walshetal., 2013].Thecurrentstudyprovidessimultaneousspacecraftobservationsatthemagnetopausewitha separationinlocaltime.Onespacecraftobservesahigh-densityplumecontactingthemagnetopause nearlocalnoonwhileanotherspacecraftencountersthemagnetopauseprenoonanddoesnotobserve theplume.Severalstudieshavepresentedcaseswithmultiplespacecraftobservingreconnectionat themagnetopausewithlocaltimeseparation[Phanetal.,2000;Dunlopetal.,2011],butthisisthefirst involvingtheplume.Sincethemagnetosheathpropertiesareroughlythesameatthetwospacecraft, theobservationsserveasatestfortheimpactoftheplumeonmagnetopausereconnectionandsolar wind-magnetospherecoupling. 2.Instrumentation InsituobservationsfromtheTimeHistoryofEventsandMacroscaleInteractionsduringSubstorms(THEMIS) spacecraftareused.Magneticfieldmeasurementsaremadewiththefluxgatemagnetometer(FGM)[Auster etal.,2008].OnboardplasmamomentsfromtheESAinstrument[McFaddenetal.,2008b]areusedfor bulkflowvelocities,andenergeticparticlemeasurementsareobtainedfromtheSolidStateTelescope. TheelectrondensitymeasurementscomefromthespacecraftpotentialmeasuredbyEFI[Bonnelletal., 2008],sincemuchofthecoldplasmasphericpopulationisbelowtheenergythresholdofESA(∼8eV). WALSHETAL. ©2014.AmericanGeophysicalUnion.AllRightsReserved. 223 Geophysical Research Letters 10.1002/2013GL058802 15 3.Observations Duringa45minintervalfrom13:10to13:55UTon15 September2008,bothThAandThDcrossthemag- netopauseanumberoftimes.Thespacecraftare 10 primarilyequatorialandareseparatedby1.5hin magneticlocaltimeat11.6hand10.0h,respectively. ] RE ThelocationsofthespacecraftareshowninFigure1. [ X 5 Figure2presentssolarwindobservationsfromThB whichislocatedjustupstreamofthebowshockat GSM(X,Y,Z)=(26,−16,3)R .Theinterplanetarymag- E 0 neticfield(IMF)Bzcomponentremainssouthwardfor theentireintervalwiththeexceptionofseveralshort periodsnear13:41UT.Formuchoftheinterval,the 5 0 -5 IMFclockangle(CA=tan−1(By))isgreaterthan120◦. Bz Y [R ] Themagneticfieldstrengthandelectrondensity E remainnearlyconstantduringthisinterval,indicating Figure1.ThelocationsofThA(blue)andThD(red)on steadyinputstothemagnetopause.Propagationtime 15September2008ingeocentricsolarmagnetospheric ofthemeasurementsfromtheupstreamspacecraft (GSM).Thegreyregionisanominallocationofthe (ThB)tothesubsolarmagnetopauseisestimatedat plasmasphereandplume. lessthan13minbasedonthebulkflowvelocity. Figure3showsthemeasurementsfromThAandThDduringthesametimeperiodwhileeachencounters themagnetopause.Bothspacecraftmeasuretheelectrondensityinthemagnetosheathtobe∼5–10cm−3; however,thedensitymeasuredinsidethemagnetospherebythetwospacecraftdiffersby2ordersof magnitude.InsidethemagnetosphereThDobservesadensityof0.4–0.7cm−3,typicalforthedayside outermagnetosphere.ThAmeasuresthedensityoftheplumeplasmacontactingthemagnetopausetobe 18–72cm−3.Themagneticfieldandvelocitymeasurementsarepresentedintheboundarynormalcoordi- natesystem(LMN)whereLisalongtheoutflowdirection,MisalongtheXline,andNisthecurrentsheet normal.Thecoordinatesystemwasidentifiedthroughminimumvarianceofthemagneticfield(MVAB) [SonnerupandCahill,1967].Thespacecraftobservejetsorenhancementsinthev componentinboththe L positiveandnegativedirectionswhileencounteringtheboundarylayer.Thisindicatesthatthespacecraft weremakingobservationsbothaboveandbelowthereconnectionsiteasseenbyTrenchietal.[2008]. 4 Bz 2 BT] 0 By [n --42 Bx -6 e gl 150 Ang] 100 k de c[ 50 o Cl 0 10 8 B|T] 6 |[n 4 2 0 10 ne-3m] c [ 1 X [R ] 26.4 26.4 26.4 26.4 26.4 26.4 E Y [R ] -16.1 -16.1 -16.0 -16.0 -16.0 -16.0 E Z [R ] 3.3 3.2 3.1 3.1 3.0 2.9 E hhmm 1300 1310 1320 1330 1340 1350 2008 Sep 15 Figure2.UpstreamsolarwindmeasurementsfromThB.Thespacecraftisjustupstreamofthebowshockat(X,Y,Z)= (26,−16,3)R .Fromtoptobottom,thepanelsaremagneticfieldvector,IMFclockangle,magneticfieldmagnitude,and E electrondensity. WALSHETAL. ©2014.AmericanGeophysicalUnion.AllRightsReserved. 224 Geophysical Research Letters 10.1002/2013GL058802 ThD - No Plume ThA - Plume gy 10000 a 108 eV) gy 10000 e 108 eV) ctron Ener[eV] 1100000 111000765-2cm-s-sr- ctron Ener[eV] 1010000 111000765-2cm-s-sr- Ele 10 104 ev/( Ele 10 104 ev/( 100.0 100.0 ] ] n-3m 10.0 n-3m 10.0 c c [ 1.0 b [ 1.0 f 0.1 0.1 400 400 g c 200 200 s] s] Vm/ 0 Vm/ 0 k k [ -200 [ -200 -400 -400 60 60 40 40 BT] 200 BT] 200 n n [ -20 [ -20 -40 d -40 h -60 -60 hhmm 1310 1320 1330 1340 1350 hhmm 1310 1320 1330 1340 1350 2008 Sep 15 2008 Sep 15 Figure3.THEMISmeasurementsforthesametimeperiod(13:10-13:55UT)areshownforThDandThA.(a,e)Electronenergyspectra,(b,f)electrondensity derivedfromspacecraftpotential,and(d,h)magneticfieldcomponents.Bothspacecraftcrossthemagnetopauseanumberoftimesduringtheinterval.Theblack arrowsindicatefullboundarycrossingswithreconnection. Weattributethedifferenceindensitybetweenthetwospacecrafttobefromalocalizedplasmaspheric plumegiventhemagnitudeofthedensityandthelocationoftheobservations.Anumberofstud- ieshavedemonstratedaconnectionbetweentheplasmasphericstructureandgeomagneticactivity [e.g.,Chappelletal.,1970;HigelandLei,1984;Carpenteretal.,1993].Duringgeomagneticallydisturbedperi- ods,theplasmapauseerodesradiallyinwardandadrainageplumecanforminthedusksectorextending sunwardtowardthemagnetopause[Spasojevic´etal.,2003].Thecurrenteventisconsistentwiththispicture asitoccursduringamoderategeomagneticstormwithaSym-Hindexof−40nT.Duringthistimeperiod, theenhancedmagnetosphericconvectionbringstheplasmasphericplumetothemagnetopausewhereit isobservedbyoneofthetwospacecraftattheboundary. 4.Reconnection Duringthetimeperiodfrom13:10to13:55UT,bothspacecraftexperienceanumberoffullandpartial magnetopausecrossings.Forcloseranalysisofthestructureofreconnection,weselectfullmagnetopause crossingswithreconnectionoccurring.Weidentifyfullcrossingsbyarotationofthemagneticfieldanda changeindensity.Forarotationaldiscontinuityatthemagnetopause,MHDpredictsthattheoutflowwill beAlfvènicinthereferenceframeoftheXline.InthecaseofasymmetricreconnectiontheAlfvénspeedis ahybridoftheAlfvénspeedoneachsideofthecurrentsheet.A15stimeperiodjustinsideandoutsidethe magnetopauseisaveragedtoobtaintheplasmaparametersinthemagnetosphereandmagnetosheath. Reconnectionduringthesecrossingsisidentifiedwhenthejetspeediswithin25%ofthepredictedhybrid AlfvénvelocityfromCassakandShay[2007].Thejetvelocitiesareobtainedbysubtractingthereconnecting componentoftheexhaustvelocity(v )fromthebackgroundflowintheLdirection.Theexhaustvelocityis L selectedasthemaximumvaluewithinthecurrentsheet. Thebackgroundflowistakenfromthesidewiththelargermassinflowwhichisdeterminedfrom𝜌∕B followingCassakandShay[2007].TheratioofmassinflowforeachcrossingisgiveninTable1withthe assumptionthattheeffectivemassissimilarfortheplasmaonbothsidesofthemagnetopause.AtThD,the magnetosheathmassinflowclearlydominatesandsubtractingthebackgroundv fromthemagnetosheath L isaclearchoice.AtThA,themagnetosphericmassinflowislargerbutdoesnotdominate.Inthisscenarioit WALSHETAL. ©2014.AmericanGeophysicalUnion.AllRightsReserved. 225 Geophysical Research Letters 10.1002/2013GL058802 Table1.ParametersforReconnectionMeasurementsa Time vjet vC+S njet ns nm Bs Bm MassInflow hh:mm SC (km/s) (km/s) (cm−3) (cm−3) (cm−3) (nT) (nT) Ratio JetField 13:29 D 363 441 1.7 4.2 0.5 21 63 0.04 ’sphere 13:34 D 362 364 2.9 8.4 0.4 24 63 0.05 ’sphere 13:44 D 255 283 7.2 11.9 0.7 23 54 0.04 ’sphere 13:26 A 190 213 15.2 9.8 20.3 51 29 2.35 ’sheath 13:28 A 126 163 14.9 11.6 18.3 30 28 1.69 ’sheath 13:31 A 221 176 15.9 9.4 55.0 38 56 3.97 ’sheath a“SC”istheTHEMISspacecraft.vC+SisthecalculatedCassakandShayhybridAlfvénvelocity.Thesubscript mindicatesmagnetosphericsidewhilesisthemagnetosheathside.Theratioofmagnetospheretomagne- tosheathmassinflowis nmBs.“JetField”istheorientationofthemagneticfieldvectoratthetimeofthemaxi- mumjetvelocity.AfieldnosBrmientationwith+B ismagnetosphericwhile−B ismagnetosheathforthisevent. L L islikelythatbothsidesarecontributingplasma,sothedecisionislessclear.Sinceweareonlyselectingone sidetosubtractabackground,wechoosethesidewiththelargermassinflow.Inthesecrossingsv from L themagnetosheathissubtractedwhennoplumeispresent(ThD),whilev fromthemagnetosphereissub- L tractedwhentheplumeispresent(ThA).Wenote,however,thatourcriteriaforreconnectionaremetusing v fromeithersideoftheboundary. L UsingthecrossingbyThDat13:34UTasanexample(showninFigure4),themaximumv component L withintheexhaustis370km/swhilethebackgroundcomponent(magnetosheathinthiscase)is8km/s. Thisgivesajetvelocityofv =v -v =362km/s.ThehybridAlfvénspeedis364km/s,sothe jet exhaust background jetmeasurementis99%ofthepredictedvalueandisthereforeselectedasareconnectionevent.Withthese criteria,wehaveidentifiedthreeperiodsforeachspacecraftwhenreconnectionisobservedduringafull magnetopausecrossing.ThetimesoftheseperiodsandreconnectionparametersareprovidedinTable1. ThetimesarealsoshowninFigure3withblackarrows.WenotethatthederivationofthehybridAlfvén velocityfromCassakandShay[2007]assumesv =0km/sonbothsidesofthecurrentsheetwhichdoesnot L occurinthesemeasurements.Thebackgroundflowissubtractedfromtheexhaustmeasurementtoobtain anappropriatereferenceframeforcomparisonwiththeprediction. ThD - No Plume ThA - Plume Energy [eV] 111111000000123456 a 111111100000002345678V/(cm^2-sec-sr-eV) Energy [eV] 111111000000123456 e 111111100000002345678V/(cm^2-sec-sr-eV) 100.0 b e 100.0 f e 3] 10.0 3] 10.0 nem- nem- c 1.0 c 1.0 [ [ Sphere Sheath Sheath Sphere 0.1 0.1 100 100 0 V m/s] -100 V m/s] -100 k -200 c k -200 g [ -300 [ -300 -400 -400 80 80 60 60 40 40 BnT] 200 BnT] 20 [ -20 d [ -20 h -40 -40 -60 -60 Seconds 30 00 30 00 30 Seconds 00 30 00 2008 Sep 15 1333 1334 1335 2008 Sep 15 1331 1332 Figure4.MagnetopausecrossingfromThDandThA.(a,e)Ionenergyspectragram,(b,f)electrondensityderivedfrom spacecraftpotential,(c,g)bulkflowcomponents,and(d,h)magneticfieldcomponents.Themagneticfieldandbulk flowareinboundarynormalcoordinatesdeterminedthroughMVAB.Theverticaldashedbarsindicatethetimeofthe peakjetvelocity. WALSHETAL. ©2014.AmericanGeophysicalUnion.AllRightsReserved. 226 Geophysical Research Letters 10.1002/2013GL058802 Twonear-simultaneouscrossingsfromThAandThDareshowninFigure4forcloseranalysis.These arerepresentativeoftheothercrossingsbyeachspacecraft.InthisexampleThAcrossesthemagne- topausefromthemagnetosheathtothemagnetosphereat13:31:37UT.Threeminuteslater,ThDpasses fromthemagnetospheretothemagnetosheathat13:34:45UT.ThDmeasuresadensityof0.2cm−3 insidethewhileThAmeasuresamagnetosphericdensityof55cm−3(Figures4band4f).Partofthecold plumeplasmacanbeseenasafluxenhancementintheionenergyspectragramwithanenergynear 10eV(Figure4e).Thiscoldpopulationcoexistswiththehottermagnetosphericpopulationobservedby bothspacecraft. Thedensityasymmetrybetweenthespacecraftimpactsseveralaspectsofthereconnection.Thefirstaspect isthelocationofthereconnectionjetinrespecttotheXline.InthecaseofThD,thedensityishigherin themagnetosheath,resultinginasymmetricreconnectionwherethejetliesprimarilyonmagneticfield lineswithmagnetosphericorientation(+B )(Figures4cand4d).Thisistypicalforterrestrialmagnetopause L reconnection.ThAobservesahigherdensityinthemagnetosphere,causingthereverseasymmetry.Inthis scenariothejetliesprimarilyonmagneticfieldlinesofmagnetosheathorientation(−B )orlowerdensity L (Figures4gand4h).Ineachcasethejetisdisplacedtowardthesidewithlowerdensityandlower𝜌∕B,con- sistentwithpredictionsbyMHDtheory[CassakandShay,2007].Themagneticfieldorientationduringthe peakjetvelocityfortheothercrossingsisconsistentwithwhateachspacecraftobservesinthisexample andisincludedinTable1. Themagnitudeofthejetvelocitiesarealsodifferentbetweenthespacecraft(Figures4cand4g).ThD observesasignificantlylargerjetvelocity(v =362km/s)thanThA(v =162km/s).ThDalsoobserveslower jet jet densityinsidethemagnetopausethanThA.Thejetiscausedbythemagneticcurvatureforcethatacceler- atestheexhaustplasmatothehybridAlfvénspeed.TheAlfvénspeedisinverselyproportionalton1∕2,soa slowerjetvelocityinthecrossingswithhigherdensityisconsistentwiththeobservations.Inadditiontothe velocity,thedensitywithineachexhaustjetisalsodifferentinthetwocases.Thedensityshowsmixingof theplasmapopulationsfrombothsides.InthecaseofThA,whenreconnectionishighlyasymmetric,the bulkofthecontributioncomesfromthemagnetosheathsideorthesidewithlargerdensity.Thevelocity anddensitywithineachjetaregiveninTable1. 5.Discussion Apredictedeffectoftheplasmasphericplumeatthemagnetopauseisthatthedenseplasmainthe magnetospherewillslowreconnectionanddecreasesolarwind-magnetospherecoupling[Borovsky andDenton,2006].Theoryofsymmetric[Sweet,1958],aswellasasymmetricreconnection[Cassakand Shay,2007],showsthereconnectionratetoscalewiththeAlfvénspeedorinverselywithn1∕2.Asthe densityincreases,thereconnectionratedecreases.Themultispacecraftobservationspresentedhere showreconnectionoccurringoverarangeoflocaltimewithsimilarmagnetosheathbutgreatlydifferent magnetosphericdensities. Withcurrentspacecraftinstrumentation,observationalmeasurementsofadimensionlessreconnection ratecanvarybyafactorof2ormoreforasingleeventdependingonwhattechniquesareused[Phan etal.,2001].Thesetechniquesoftenrequireidentifyingaboundarynormalofthecurrentsheetwhich canbedonethroughseveralmethods,aswellasidentifyingthevelocityoftheXlinestructureunderan assumptionofconstantmotion.Bothofthesecanintroducesignificanterrorsintothemeasurement.An alternativewaytomeasuretheefficiencyofreconnectionistomonitorthevelocityoftheexhaustjet. Althoughitdoesnotproducearatequantitativelysimilartoothermethods(i.e.,B /|B|orv /v ),theeffi- n n A ciencyofreconnectionattwospacecraftcanbecomparedbythemagnitudeofthereconnectionjet.Using thejetvelocityassumesthatthedimensionlessreconnectionratestaysroughlyconstantoverthetime periodofthespacecraftpass.Ifthereconnectionratedoesnotchangesignificantly,thevelocityofthejetis afunctionoftheinflowspeedwhichisinturnameasureofthereconnectionrate. ThDobservesfasterjetsattendingcrossingswithoutaplumethanThAobserveswithaplume.Thisiscon- sistentwiththeideathatthereconnectionratedecreaseswithhigherdensitiesandthattheplasmaspheric plumecanslowreconnectionwhenitcontactsthemagnetopause.Onalargerscale,theseobservations showthatreconnectionwillbeimpactedinalocalizedregionwheretheplumecontactsthemagne- topause.Thesizeoftheplumeatthemagnetopausemustalsodeterminetheimpactontheoverallsolar wind-magnetospherecoupling,andameasureofthissizeisneededtoquantifythiseffect.Inadditionto WALSHETAL. ©2014.AmericanGeophysicalUnion.AllRightsReserved. 227 Geophysical Research Letters 10.1002/2013GL058802 affectingreconnection,thenewlyopenedfieldlineswilltransportplasmasphericplasmaastheyconvect overthepolestothenightsidewheretheplasmaisdepositedintothetailandlobes[Elphicetal.,1997]. Tounderstandtheglobalimpactoftheplumeonsolarwind-magnetospherecoupling,onemustfollow theentirecirculationpatternbeginningwiththeentrainmentofdenseplasmasphericmaterialonnewly reconnectedmagneticfieldlines. 6.Conclusion Near-simultaneousspacecraftobservationsatthemagnetopauseshowthepresenceofalocalizedregion withhighdensitiesfromtheplasmasphericplume.Separatedby1.5hinmagneticlocaltime,bothspace- craftmeasuremagneticreconnection;however,onlyonemeasuresthehigh-densityplume.Whenthe plumeispresent,thereconnectionjetshavelowervelocitiesandlargerdensities.Adecreasedjetvelocity indicatesalocalizedreductioninsolarwind-magnetospherecouplingduetothepresenceoftheplasmas- phericplume.Theseobservationsalsoshowthatthepropertiesofreconnectionareafunctionofthelocal plasmadensityandvaryalongthesurfaceofthemagnetopause. References Acknowledgments Theauthorswouldliketothank Auster,H.U.,etal.(2008),TheTHEMISfluxgatemagnetometer,SpaceSci.Rev.,141,235–264. L.Wilsonforusefuldiscussions. 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