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对火星轨道变化问题的最后解释(第1页)
作者君在作品相关中其实已经解释过这个问题。
不过仍然有人质疑。
那么作者君在此列出相关参考文献中的一篇开源论文。
以下是文章内容:
LrationsandstabilityofplaaryorbitsinourSolarsystem
Abstract
&theresults-termegrationsofplaaryorbitalmotionsover109-yrtime-spansingalls。Aquispeericaldatasholaioinoursimpledynamistobequitestableevehisverylongtime-spathelowest-frequencyossusingalow-passfiltershowsusthepotentiallydiffusivecharacterofterrestrialplaiohatofMercury。ThebehaviouroftheetrierrationsisqualitativelysimilartotheresultsfromJacquesLaskarssecularperturbati。emax~yr)。However,therearesecreasesofetriinanyorbitalelemes,whichmayberevealedbystillloermegrations。erformedacouplerationsingmotioerfiveplahedurationof±5×1010yr。Theresultihethreemajorresoheosystemhavebeenmaihe1011-yrtime-span。
1Introdu
&ionoftheproblem
&ioyofourSolarsystemhasbeeedoverseveralhundredyears,siheeraofheproblemhasattrayfamousmathematisovertheyearsandhasplayedatralroleiofnon-lineardynamidchaostheory。However,wedohaveadefihequestioherourSolarsystemisstableornot。Thisispartlyaresultofthefactthatthedefinitioability’isvaguewhenitisusediotheproblemofplaionintheSolarsystem。Actuallyitisogiveaclear,rigorousandphysiiioyofourSolarsystem。
Amoionsofstability,herettheHilldefinition(Gladman1993):actuallythisisionofstability,butofinstability。Wedefiemasbeingunstablewheeroewhereiem,startingfromaitialfiguratioherill&Boss1996;Ito&Tanikawa1999)。AsystemisdefinedasexperiengaterwhentwobodiesapproaotherwithihelargerHillradius。Otherwisethesystemisdefiable。HenceforwardwestatethatourplaemisdynamicallystableiferhappensduringtheageofourSolarsystem,about±5Gyr。Ihisdefinitionmaybereplaeinwhioybetweeherofapairofplaakesplace。Thisisbecauseweknowfromexperieanisverylikelytoleadtoaplaaryandprotoplaems(Yoshinaga,Kokubo&Makino1999)。Ofcoursethisstatementplyappliedtosystemswithstableorbitalresonancessuchastheosystem。
1。2Previousstudiesandaimsofthisresearch
Inadditiontothevagueheceptofstability,theplasinourSolarsystemshoiian&Wisdom1988,1992)。Thecauseofthischaoticbehaviourisnowpartlyuoodasbeiofresonance(Murray&Holman1999;Leklin&Holman2001)。However,itwouldrequireiingoveranensembleofplaemsingallsforaperiseveral10Gyrthlyuheloioaryorbits,siiamicalsystemsarecharacterizedbytheirstrongdepeials。
Fromthatpointofview,manyofthepreviouslong-termegratioheouterfiveplas(Sussman&Wisdom1988;Kinoshita&Nakai1996)。ThisisbecausetheorbitalperiodsoftheouterplasaresomugerthaheinnerfourplaitismucheasiertofollowthesystemfiveiopreseegrationspublishedinjourhoseofDun&Lissauer(1998)。Althoughtheirmaiheeffeain-sequenasslossoyofplaaryorbits,theyperformedmaiupto~1011yroftheorbitalmotionsofthefourjoviaheinitialorbitalelementsandmassesofplahesameasthoseofourSolarsysteminDun&Lissauerspaper,buttheydecreasethemassoftheSungraduallyintheirnumericalexperiments。Thisisbecausetheysidertheeffeain-sequenasslossinthepaper。tly,theyfoundthatthee-scaleofplaaryorbits,whibeatypidicatoroftheinstabilitytime-scale,isquiteseherateofmassdecreaseoftheSuhemassoftheSuspresehejoviasremainstableover1010yr,er。Dun&Lissaueralsoperformedfoursimilarexperimealmotios(Veune),whichcoveraspanof~109yr。Theirexperimentsosarepreheseemsthattheterrestrialplasalsoremaiheiionperiod,maintainingalmulaross。
Oherhand,inhisaccuratesemi-analyticalsecularperturbationtheory(Laskar1988),Laskarfindsthatlargeandirregularvariationsappeariiesandinsoftheterrestrialplas,espeerdMarsonatime-scaleofseveral109yr(Laskar1996)。TheresultsofLaskarssecularperturbationtheoryshouldbeedaedbyfullyegrations。
Inthispaperwepresentprelimisofsixlong-termegrationsoaryorbits,gaspanofseveral109yr,andoftwratiaspanof±5×1010yr。Thetotalelapsedtimeforalliiohan5yr,usingseveraldedicatedPdworkstatiohefuals-termiionsisthatSolarsystemplaioobestableiheHillstabilitymentioleastoveratime-spanof±4Gyr。Actually,iegratioemwasfarmorestablethanwhatisdefiability:notonlydiderhappenduriioalsoalltheplaaryorbitalelementshavebeenedinahintimeandfrequenain,thoughplaioicethepurposeofthispaperistoexhibitaheresults-termegratioypicalexamplefiguresasevideheveryloabilityofSolarsystemplaion。Forreaderswhohavemorespeddeeperisinournumericalresults,aredawebpage(access),raworbitalelements,theirlow-passfilteredresults,variationofDelausandangularmome,asofoursimpletime–frequenalysisonallrations。
&ion2webrieflyexplainourdynamiericalmethodandinitialsusediioiooadesofthequickresultsoftheegrati-termstabilityofSolarsystemplaionisapparentbothiarypositionsandorbitalelements。Aroughestimationofnumericalerrorsisalsogiveiooadisoftheloioaryorbitsusingalow-passfilterandincludesadisofangularmome。Iioasetofegratioerfiveplaspans±5×1010yr。Iion6wealsodiscusstheloabilityoftheplaionanditspossiblecause。
&ionoftheegrations
(本部分涉及比较复杂的积分计算,作者君就不贴上来了,贴上来了起点也不一定能成功显示。)
2。3hod
&ilizeased-orderWisdom–Holmaiaiiohod(;amp;amp;Holman1991;Kinoshita,Yoshida&Nakai1991)ecialstart-upproceduretoreducethetrunerrlevariables,‘warmstart’(Saha&Tremaine1992,1994)。
&epsizefortheegrationsis8dthroughoutalliionsofthes(N±1,2,3),whichisabout111oftheorbitalperiodoftheipla(Mercury)。Asforthedeterminationofstepsize,wepartlyfollowthepreviousegrationofallsinSussman&Wisdom(1988,7。2d)andSaha&Tremaine(1994,22532d)。Werouhedecimalpartofthetheirstepsizesto8tomakethestepsizeamultipleof2ioreducetheacofrouheputationprorelationtothis,;amp;amp;Holman(1991)performedegratioerfiveplaaryorbitsusiicmapsizeof400d,110。83oftheorbitalperiodofJupiter。Theirresultseemsth,whichpartlyjustifiesourmethodthestepsize。However,siricityofJupiter(~0。05)ismuchsmallerthanthatofMercury(~0。2),weneedsomeweparetheseiionssimplyiepsizes。
Iioerfiveplas(F±),wefixedthestepsizeat400d。
&Gaussfandgfunthesymplecticmaptogetherwiththethird-orderHalleymethod(Danby1992)asasolverforKeplerequations。Thenumberofmaximumiteratioihodis15,buttheyhemaximuminanyrations。
&ervalofthedataoutputis200000d(~547yr)forthecalsofalls(N±1,2,3),andabout8000000d(~21903yr)fortheiioerfiveplas(F±)。
Althoughnooutputfilteringwasdoheegrationswereinprocess,liedalow-passfiltertotheraworbitaldataafterletedallthecals。SeeSe4。1formoredetail。
&imation
2。4。1Relativeerrorsintyandangularmomentum
Agtoohebasicpropertiesofsympletegrators,whiservethephysiservativequaalorbitalenergyandangularmomentum),-termegratioohavebeehverysmallerrors。Theaveragedrelativeerrorsofty(~10?9)andoftotalangularmomentum(~10?11)haveremainednearlytthroughouttheii。1)。Thespecialstartupprocedure,warmstart,wouldhavereducedtheaveragedrelativeerrorintybyaboutnitudeormore。
&ivenumericalerrorofthetotalangularmomentumδAA0aalenergyδEE0iegrationsN±1,2,3,whereδEaheabsolutegeofthetyandtotalangularmomeively,andE0aheirinitialvalues。ThehorizontalunitisGyr。
&differeingsystems,differeicallibraries,ahardwarearchitecturesresultinumericalerrhthevariationsinround-andnumeris。IntheupperpanelofFig。1,weizethissituationintheseumericalerrorialangularmomentum,whichshorouslypreserveduptomae-εpre。
2。4。2Erroriarylongitudes
&hesymplecticmapspreservetyandtotalangularmomentumofN-bodydynamicalsystemsilywell,thedegreeoftheirpreservationmaynotbeagoodmeasureoftheaeritegrations,especiallyasameasureofthepositionalerrorofplaheerroriaryloimatethenumericalerroriarylongitudes,weperformedthefollowingprocedures。Weparedtheresultofourmaiegrationswithsometestiions,whimuchshorterperiodsbutwithmuchhigheraccurathemaiions。Forthispurpose,weperformedamuchmrationsizeof0。125d(164ofthemaiions)spanning3×105yr,startingwiththesameinitialsasiegration。Wesiderthatthistestiioha‘pseudo-true’solutioaryorbitalevolutio,weparethetestiioegration,N?1。Fortheperiodof3×105yr,weseeadifferenaheEarthbetweeegrationsof~0。52°(iheion)。Thisdiffererapolatedtothevalue~8700°,about25rotatioer5Gyr,siheerritudesincreaseslihtimeiicmap。Similarly,thelongitudeerrorofPlutobeestimatedas~12°。ThisvalueforPlutoismuchbetterthainKinoshita&Nakai(1996)wherethediffereedas~60°。
3Numericalresults–I。Glaa
Iionwebrieflyreviewtheloabilityofplaaryorbitalmhsomesnapshotsofrawa。Theorbitalmotiosiermstabilityinallofouregrations:nosersbetairofplaookplace。
3。1Geioyofplaaryorbits
First,webrieflylookatthegeneralcharacteroftheloabilityofplaaryorbits。Ouriherefocusespartitheierrestrialplasforwhichtheorbitaltime-scalesaremuchshorterthaheouterfiveplas。AsweseeclearlyfromtheplanarorbitalfigurationsshowninFigs2and3,orbitalpositiorialplalebetweeialandfinalpartofeaumeritegration,whisseveralGyr。Thesolidlihepresentorbitsoftheplawithintheswarmofdotseveninthefinalpartofiions(b)and(d)。Thisihroughouttheeiohealmularvariationsofplaaryorbitalmotionremaihesameastheyareatpresent。
&icalviewofthefouriaryorbits(fromthez-axisdire)attheinitialandfinalpartsoftheiionsN±1。Theaxesuhexy-plaheinvariantplaneofSolarsystemtotalangularmomentum。(a)TheinitialpartofN+1(t=0to0。0547×109yr)。(b)ThefinalpartofN+1(t=4。9339×108to4。9886×109yr)。(itialpartofN?1(t=0to?0。0547×109yr)。(d)ThefinalpartofN?1(t=?3。9180×109to?3。9727×109yr)。Ineael,atotalof23684poiedwithanintervalofabout2190yrover5。47×107yr。SolidlinesineaeldeorbitsofthefourterrestrialplaakenfromDE245)。
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