花皮文学网 - 科幻悬疑 - 死在火星上在线阅读 - 第76章 对火星轨道变化问题的最后解释

第76章 对火星轨道变化问题的最后解释

oasignifitextent.thisispartlybecausetheorbitaltime-scaleoftheplaheshortestofalltheplas,whichleadstoamorerapidorbitalevolutionthanotherplaheinnermostplamaybeoinstability.thisresultappearstobeinsomeagreementwithlaskar's(1994,1996)expectationsthatlargeandirregularvariationsappearintheetricitiesandinationsofmercuryonatime-scaleofseveral109yr.however,theeffectofthepossibleinstabilityoftheorbitofmercurymaynotfatallyaffecttheglobalstabilityofthewholeplaarysystemowingtothesmallmassofmercury.wewillmentiohelong-termorbitalevolutionofmercurylateriion4usinglow-passfilteredorbitalelements.

    theorbitalmotionoftheouterfiveplasseemsrigorouslystableandquiteregularoverthistime-span(seealsose5).

    3.2time–frequencymaps

    althoughtheplaarymotionexhibitsveryloabilitydefiheenceofcloseenterevents,thechaotiatureofplaarydynamigetheoscillatoryperiodandamplitudeofplaaryorbitalmotiongraduallyoversugtime-spans.evensuchslightfluctuationsoforbitalvariationinthefrequenain,particularlyinthecaseofearth,potentiallyhaveasignifiteffeitssurfaceclimatesystemthroughsolarinsolationvariation(cf.berger1988).

    togiveanoverviewofthelong-termgeinperiodicityinplaaryorbitalmotion,weperformedmanyfastfouriertransformations(ffts)aloimeaxis,andsuperposedtheresultingperiodgramstodrawtwo-dimensionaltime–frequencymaps.thespecificapproachtodrawiime–frequencymapsinthispaperisverysimple–muchsimplerthanthewaveletanalysisorlaskar's(1990,1993)frequenalysis.

    dividethelow-passfilteredorbitaldataintomanyfragmentsofthesamelenh.thelenhofeachdatasegmentshouldbeamultipleof2ioapplythefft.

    eachfragmentofthedatahasalargeoverlappingpart:forexample,whehdatabeginsfromt=tiandendsatt=ti t,thedatasegmentrangesfromti δt≤ti δt t,whereδt?t.wetihisdivisionuntilwereachacertainnumbernbywhi treachesthetotaliionlenh.

    lyanffttoeachofthedatafragments,andobtainnfrequencydiagrams.

    ineachfrequencydiagramobtainedabove,thestrenhofperiodicitybereplacedbyagrey-scale(orcolour)chart.

    weperformthereplat,andectallthegrey-scale(orcolour)chartsintoonegraphforeategration.thehorizontalaxisofthesenehsshouldbethetime,i.e.thestartingtimesofeachfragmentofdata(ti,wherei=1,…,n).theverticalaxisrepresentstheperiod(orfrequency)oftheoscillationoforbitalelements.

    wehaveadoptedanfftbecauseofitsoverwhelmingspeed,siheamountofnumericaldatatobedeposedintofrequenposisterriblyhuge(severaltensofgbytes).

    atypicalexampleofthetime–frequencymapcreatedbytheaboveproceduresisshowninagrey-scalediagramasfig.5,whichshowsthevariationofperiodicityintheetricityandinatiohinn 2iion.infig.5,thedarkareashowsthatatthetimeindicatedbythevalueontheabscissa,theperiodicityindicatedbytheordirohaninthelighterareaaroundit.wereizefromthismapthattheperiodicityoftheetricityandinatiohonlygesslightlyovertheentireperiodcoveredbythen 2iion.thisnearlyregulartrendisqualitativelythesameiegrationsandforotherplas,althoughtypicalfrequenciesdifferplabyplaabyelement.

    4.2long-termexgeoforbitalenergyandangularmomentum

    wecalculateverylong-periodicvariationandexgeofplaaryorbitalenergyandangularmomentumusingfiltereddelaunayelementsl,g,h.gandhareequivalenttotheplaaryorbitalangularmomentumanditsvertipoperunitmass.lisrelatedtotheplaaryorbitalenergyeperunitmassase=?μ22l2.ifthesystemispletelyliheorbitalenergyandtheangularmomentumineachfrequenmustbestant.non-liyintheplaarysystemcauseanexgeofenergyandangularmomentuminthefrequenain.theamplitudeofthelowest-frequencyoscillationshouldincreaseifthesystemisunstableandbreaksdowngradually.however,suchasymptomofinstabilityisnotpromiin-termiions.

    infig.7,thetotalorbitalenergyandangularmomentumofthefourinnerplasandallnineplasareshownforiionn 2.theupperthreepanelsshowthelong-periodicvariationoftotalenergy(denotedase-e0),totalangularmomentum(g-g0),aipo(h-h0)oftheinnerfourplascalculatedfromthelow-passfiltereddelaunayelements.e0,g0,h0deheinitialvaluesofeachquantity.theabsolutedifferentheinitialvaluesisplottedinthepahelowerthreepanelsineachfigureshowe-e0,g-g0andh-h0ofthetotalofnineplahefluctuationshowninthelowerpanelsisvirtuallyentirelyaresultofthemassivejovianplas.

    paringthevariationsofenergyandangularmomentumoftheinnerfourplasandallnineplas,itisapparentthattheamplitudesofthoseoftheinnerplasaremuchsmallerthanthoseofallnineplaheamplitudesoftheouterfiveplasaremuchlargerthanthoseoftheinnerplahisdoeshattheierrestrialplaarysubsystemismorestablethaerohisissimplyaresultoftherelativesmallnessofthemassesofthefourterrestrialplasparedwiththoseoftheouterjovianplas.ahiiceisthattheinnerplaarysubsystemmaybeeunstablemorerapidlythaeronebecauseofitsshorterorbitaltime-scales.thisbeseeninthepanelsdenotedasinner4infig.7wherethelonger-periodidirregularoscillationsaremoreapparentthaninthepanelsdeotal9.actually,thefluctuationsintheinner4panelsareteextentasaresultoftheorbitalvariationofthemercury.however,weothetributionfromotherterrestrialplas,aswewillseeinsubsequeions.

    4.4long-termcouplingofseveralneighbplapairs

    letusseesomeindividualvariationsofplaaryorbitalenergyandangularmomentumexpressedbythelow-passfiltereddelaunayelements.figs10and11showlong-termevolutionoftheorbitalenergyofeachplaandtheangularmomentuminn 1andn?2iioicethatsomeplasformapparentpairsintermsoforbitalenergyandangularmomentumexge.inparticular,venusahmakeatypicalpair.inthefigures,theyshowivecorrelationsinexgeofenergyandpositivecorrelationsinexgeofangularmomentum.theivecorrelationinexgeoforbitalenergymeansthatthetwoplasformacloseddynamicalsystemintermsoftheorbitalenergy.thepositivecorrelationinexgeofangularmomentummeansthatthetwoplasaresimultaneouslyundercertainlong-termperturbations.didatesforperturbersarejupiterandsaturn.alsoinfig.11,weseethatmarsshows'itivecorrelationintheangularmomentumvariationtothevehsystem.mercuryexhibitscertaiivecorrelationsintheangularmomentumversusthevehsystem,whichseemstobeareacausedbytheservationofangularmomentumierrestrialplaarysubsystem.

    itisnotclearatthemomentwhythevehpairexhibitsaivecorrelationinenergyexgeand'itivecorrelationinangularmomentumexge.ossiblyexplainthisthroughthegeneralfactthattherearenoseculartermsinplaarysemimajoraxesuptosed-orderperturbationtheories(cf.brouwerboccalettipucacco1998).thismeansthattheplaaryorbitalenergy(whichisdirectlyrelatedtothesemimajoraxisa)mightbemuchlessaffectedbyperturbingplahanistheangularmomentumexge(whichrelatestoe).heheetricitiesofvenusahbedisturbedeasilybyjupiterandsaturn,whichresultsin'itivecorrelationintheangularmomentumexge.oherhand,thesemimajoraxesofvenusaharelesslikelytobedisturbedbythejovianplahustheenergyexgemaybelimitedonlywithinthevehpair,whichresultsiivecorrelationintheexgeoforbitalenergyinthepair.

    asfortheouterjovianplaarysubsystem,jupiter–saturnanduranus–uomakedynamicalpairs.however,thestrenhoftheircouplingisnotasstrongparedwiththatofthevehpair.

    5±5x1010-yriionsofouterplaaryorbits

    sihejovianplaarymassesaremuchlargerthaerrestrialplaarymasses,wetreatthejovianplaarysystemasanindepeplaarysystemintermsofthestudyofitsdynamicalstability.hence,weaddedacoupleoftrialiionsthatspan±5x1010yr,includingonlytheouterfiveplahefourjovianplaspluspluto).theresultsexhibittherigorousstabilityoftheouterplaarysystemoverthislongtime-span.orbitalfigurations(fig.12),andvariationofetricitiesandinations(fig.13)showthisveryloabilityoftheouterfiveplasinboththetimeandthefrequenains.althoughwedonotshoshere,thetypicalfrequencyoftheorbitaloscillationofplutoaherouterplasisalmoststantduringtheseverylong-termiionperiods,whichisdemonstratediime–frequencymapsonourwebpage.

    iwoiions,therelativenumericalerrorialenergywas~10?6andthatofthetotalangularmomentumwas~10?10.

    5.1resoheune–plutosystem

    kinoshitanakai(1996)iedtheouterfiveplaaryorbitsover±5.5x109yr.theyfoundthatfourmajorresoweeuneandplutoaremaintainedduringthewholeiionperiod,andthattheresonancesmaybethemaincausesofthestabilityoftheorbitofpluto.themajorfourresonancesfoundinpreviousresearchareasfollows.inthefollowingdescriptioesthemeanlongitude,Ωisthelongitudeoftheasdingnodeand?isthelongitudeofperihelion.subscriptspaeplutoaune.

    meanmotionresoweeuneandpluto(3:2).thecriticalargumentθ1=3λp?2λn??plibratesaround180°litudeofabout80°andalibrationperiodofabout2x104yr.

    theargumentofperihelionofplutowp=θ2=?p?Ωplibratesaround90°eriodofabout3.8x106yr.thedominantperiodicvariationsoftheetricityandinationofplutoaresynizedwiththelibrationofitsargumentofperihelion.thisisanticipatedinthesecularperturbationtheorystructedbykozai(1962).

    thelongitudeofthenodeofplutoreferredtothelongitudeofthenodeofune,θ3=Ωp?Ωn,circulatesandtheperiodofthiscirculationisequaltotheperiodofθ2libration.whenθ3beeszero,i.e.thelongitudesofasdingnodesofuneandplutooverlap,theinationofplutobeaximum,theetricitybeinimumandtheargumentofperihelionbees90°.whenθ3bees180°,theinationofplutobeinimum,theetricitybeaximumandtheargumentofperihelionbees90°again.williamsbenson(1971)anticipatedthistypeofresoerfirmedbymilani,nobilicarpino(1989).

    anargumentθ4=?p??n 3(Ωp?Ωn)libratesaround180°withalongperiod,~5.7x108yr.

    inournumeritegrations,theresonances(i)–(iii)arewellmaintained,andvariationofthecriticalargumentsθ1,θ2,θ3remainsimilarduringthewholeiionperiod(figs14–16).however,thefourthresonance(iv)appearstobedifferent:thecriticalargumentθ4alternateslibrationandcirculationovera1010-yrtime-scale(fig.17).thisisaingfactthatkinoshitanakai's(1995,1996)shorteriionswerenotabletodisclose.

    6discussion

    whatkindofdynamicalmeismmaintainsthisloabilityoftheplaarysystem?weimmediatelythinkoftwomajorfeaturesthatmayberesponsiblefortheloability.first,thereseemtobenosignifitlower-orderresonances(meanmotionandsecular)betairamongthenineplas.jupiterandsaturnareclosetoa5:2meanmotionresohefamous‘greatinequality’),butnotjustintheresonane.higher-orderresonancesmaycausethechaotiatureoftheplaarydynamicalmotion,buttheyarenotsastodestroythestableplaarymotionwithinthelifetimeoftherealsolarsystem.thesedfeature,whichwethinkismoreimportantfortheloabilityofourplaarysystem,isthedifferendynamicaldistaweenterrestrialandjovianplaarysubsystems(itotanikawa1999,2001).whenwemeasureplaaryseparationsbythemutualhillradii(r_),separationsamongterrestrialplasaregreaterthan26rh,whereasthoseamongjovianplasarelessthan14rh.thisdifferenceisdirectlyrelatedtothediffereweendynamicalfeaturesofterrestrialandjovianplaerrestrialplashavesmallermasses,shorterorbitalperiodsandwiderdynamicalseparation.theyarestronglyperturbedbyjovianplahathavelargermasses,longerorbitalperiodsandnarrowerdynamicalseparation.jovianplasareurbedbyanyothermassivebodies.

    thepresentterrestrialplaarysystemisstillbeingdisturbedbythemassivejovianplas.however,thewideseparationandmutualiionamoerrestrialplasrehedisturbaneffective;thedegreeofdisturbancebyjovianplasiso(ej)(orderofmagnitudeoftheetricityofjupiter),sihedisturbancecausedbyjovianplasisaforcedoscillationhavinganamplitudeofo(ej).heighteningofetricity,forexampleo(ej)~0.05,isfarfromsuffittoprovokeinstabilityierrestrialplashavingsuchawideseparationas26rh.thusweassumethatthepresentwidedynamicalseparationamongterrestrialplas(;26rh)isprobablyohemostsignifitditionsformaintainiabilityoftheplaarysystemovera109-yrtime-span.ourdetailedanalysisoftherelationshipbetweendynamicaldistaweenplasaabilitytime-scaleofsolarsystemplaarymotionisnowon-going.

    althoughournumeritegrationsspanthelifetimeofthesolarsystem,thenumberofiionsisfarfromsuffittofilltheinitialphasespace.itisnecessarytoperformmoreandmorenumeritegrationstofirmandexamineiailtheloabilityofourplaarydynamics.

    ——以上文段引自ito,t.tanikawa,k.long-termiionsandstabilityofplaaryorbitsinoursolarsystem.mon.not.r.astron.soc.336,483–500(2002)

    这只是作者君参考的一篇文章,关于太阳系的稳定性。

    还有其他论文,不过也都是英文的,相关课题的中文文献很少,那些论文下载一篇要九美元(《nature》真是暴利),作者君写这篇文章的时候已经回家,不在检测中心,所以没有数据库的使用权,下不起,就不贴上来了。