Invent.math.(2016)206:869–933 DOI10.1007/s00222-016-0665-5 The space of stability conditions on abelian threefolds, and on some Calabi-Yau threefolds ArendBayer1 · EmanueleMacrì2,3 · PaoloStellari4 Received:15October2014/Accepted:12April2016/Publishedonline:9May2016 ©TheAuthor(s)2016.ThisarticleispublishedwithopenaccessatSpringerlink.com Abstract Wedescribeaconnectedcomponentofthespaceofstabilitycondi- tions on abelian threefolds, and on Calabi-Yau threefolds obtained as (the crepant resolution of) a finite quotient of an abelian threefold. Our proof includesthefollowingessentialsteps: 1. We simultaneously strengthen a conjecture by the first two authors and Toda,andprovethatitfollowsfromamorenaturalandseeminglyweaker statement.ThisconjectureisaBogomolov-Giesekertypeinequalityinvolv- B ArendBayer [email protected] http://www.maths.ed.ac.uk/∼abayer/ EmanueleMacrì [email protected] http://nuweb15.neu.edu/emacri/ PaoloStellari [email protected] http://users.unimi.it/stellari/ 1 SchoolofMathematicsandMaxwellInstitute,UniversityofEdinburgh,JamesClerk MaxwellBuilding,PeterGuthrieTaitRoad,EdinburghEH93FD,UK 2 DepartmentofMathematics,TheOhioStateUniversity,231W18thAvenue, Columbus,OH43210,USA 3 PresentAddress:DepartmentofMathematics,NortheasternUniversity,360 HuntingtonAvenue,Boston,MA02115,USA 4 DipartimentodiMatematica“F.Enriques”,UniversitàdegliStudidiMilano,ViaCesare Saldini50,20133Milan,Italy 123 870 A.Bayeretal. ingthethirdCherncharacterof“tilt-stable”two-termcomplexesonsmooth projectivethreefolds;weextenditfromcomplexesoftilt-slopezerotoarbi- trarytilt-slope. 2. Weshowthatthisstrongerconjectureimpliestheso-calledsupportproperty of Bridgeland stability conditions, and the existence of an explicit open subsetofthespaceofstabilityconditions. 3. Weproveourconjectureforabelianthreefolds,therebyreprovingandgen- eralizingaresultbyMaciociaandPiyaratne. Importantinourapproachisamoresystematicunderstandingonthebehaviour of quadratic inequalities for semistable objects under wall-crossing, closely relatedtothesupportproperty. Mathematics Subject Classification Primary 14F05; Secondary 14J30 · 18E30 Contents 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 870 2 Review:tilt-stabilityandtheconjecturalBGinequality . . . . . . . . . . . . . . . . . 879 3 ClassicalBogomolov-Giesekertypeinequalities . . . . . . . . . . . . . . . . . . . . 882 4 Generalizingthemainconjecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . 887 5 Reductiontosmallα . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 890 6 TiltstabilityandétaleGaloiscovers . . . . . . . . . . . . . . . . . . . . . . . . . . . 894 7 Abelianthreefolds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 895 8 ConstructionofBridgelandstabilityconditions . . . . . . . . . . . . . . . . . . . . . 903 9 Thespaceofstabilityconditionsonabelianthreefolds . . . . . . . . . . . . . . . . . 914 10ThespaceofstabilityconditionsonsomeCalabi-Yauthreefolds . . . . . . . . . . . . 916 Appendix1:Supportpropertyviaquadraticforms . . . . . . . . . . . . . . . . . . . . . 921 Appendix2:Deformingtilt-stability . . . . . . . . . . . . . . . . . . . . . . . . . . . . 926 References. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 931 1 Introduction In this paper, we determine the space of Bridgeland stability conditions on abelian threefolds and on Calabi-Yau threefolds obtained either as a finite quotient of an abelian threefold, or as the crepant resolution of such a quo- tient. More precisely, we describe a connected component of the space of stabilityconditionsforwhichthecentralchargeonlydependsonthedegrees H3−i ch ( ), i = 0,1,2,3, of the Chern character1 with respect to a given i polarization H,andthatsatisfythesupportproperty. 1 Inthecaseofcrepantresolutions,wetaketheCherncharacterafterapplyingBKR-equivalence [8]betweenthecrepantresolutionandtheorbifoldquotient. 123 Thespaceofstabilityconditionsonabelianthreefolds… 871 Stability conditions on threefolds via a conjectural Bogomolov-Gieseker typeinequality The existence of stability conditions on three-dimensional varieties in gen- eral, and more specifically on Calabi-Yau threefolds, is often considered the biggest open problem in the theory of Bridgeland stability conditions. Until recentworkbyMaciociaandPiyaratne[29,30],theywereonlyknowntoexist onthreefoldswhosederivedcategoryadmitsafullexceptionalcollection.Pos- sibleapplicationsofstabilityconditionsrangefrommodularitypropertiesof generatingfunctionsofDonaldson-Thomasinvariants[43,45]toReider-type theoremsforadjointlinearseries[6]. In [11], the first two authors and Yukinobu Toda, also based on dis- cussions with Aaron Bertram, proposed a general approach towards the construction of stability conditions on a smooth projective threefold X. The construction is based on the auxiliary notion of tilt-stability for two- term complexes, and a conjectural Bogomolov-Gieseker type inequality for the third Chern character of tilt-stable objects; we review these notions in Sect. 2 and the precise inequality in Conjecture 2.4. It depends on the choice of two divisor classes ω,B ∈ NS(X)R with ω ample. It was shown that this conjecture would imply the existence of Bridgeland sta- bility conditions,2 and, in the companion paper [6], a version of an open case of Fujita’s conjecture, on the very ampleness of adjoint line bundles on threefolds. Ourfirstmainresultisthefollowing,generalizingtheresultof[29,30]for thecasewhen X hasPicardrankone: Theorem1.1 TheBogomolov-Giesekertypeinequalityfortilt-stableobjects, Conjecture2.4,holdswhen X isanabelianthreefold,andωisarealmultiple ofanintegralampledivisorclass. ThereareCalabi-Yauthreefoldsthatadmitanabelianvarietyasafiniteétale cover;wecallthemCalabi-Yauthreefoldsofabeliantype.Ourresultapplies similarlyinthesecases: Theorem1.2 Conjecture 2.4 holds when X is a Calabi-Yau threefold of abeliantype,andωisarealmultipleofanintegralampledivisorclass. Combined with the results of [11], these theorems imply the existence of Bridgelandstabilityconditionsineithercase.ThereisonemoretypeofCalabi- Yau threefolds whose derived category is closely related to those of abelian threefolds: namely Kummer threefolds, that are obtained as the crepant reso- lutionofthequotientofanabelianthreefold X bytheactionofafinitegroup 2 Notincludingtheso-called“supportproperty”reviewedfurtherbelow. 123 872 A.Bayeretal. G.Usingthemethodof“inducing”stabilityconditionsonthe G-equivariant derivedcategoryofXandtheBKR-equivalence[8],wecanalsotreatthiscase. Overallthisleadstothefollowingresult(whichwewillmakemoreprecisein Theorem1.4). Theorem1.3 BridgelandstabilityconditionsonX existwhenX isanabelian threefold,oraCalabi-Yauthreefoldofabeliantype,oraKummerthreefold. Supportproperty ThenotionofsupportpropertyofaBridgelandstabilityconditioniscrucialin ordertoapplythemainresultof[13],namelythatthestabilityconditioncan be deformed; moreover, it ensures that the space of such stability conditions satisfieswell-behavedwall-crossing. Inordertoprovethesupportproperty,wefirstneedaquadraticinequality foralltilt-stablecomplexes,whereasConjecture2.4onlytreatscomplexes E withtilt-slopezero.WestatesuchaninequalityinConjecture4.1forthecase whereω,B areproportionaltoagivenampleclass H: √ Conjecture4.1Let(X,H)beasmoothpolarizedthreefold,andω = 3αH, B = βH, for α > 0, β ∈ R. If E ∈ Db(X) is tilt-semistablewith respect to ω,B,then (cid:2)(cid:2) (cid:3) (cid:3) (cid:2) (cid:3) 2 2 α2 H2chB(E) −2H3chB(E)H chB(E) +4 H chB(E) 1 0 2 2 −6H2chB(E)chB(E) ≥ 0, 1 3 wherechB := e−Bch. InTheorem4.2,weprovethatthisgeneralizedconjectureisinfactequiv- alenttotheoriginalConjecture2.4.Moreover,inTheorem8.7weprovethat itimpliesasimilarquadraticinequalityforobjectsthatarestablewithrespect to the Bridgeland stability conditions constructed in Theorem 1.3, thereby obtainingaversionofthesupportproperty. To be precise, we consider stability conditions whose central charge Z: K(X) → Cfactorsvia (cid:4) (cid:5) v : K(X) → Q4, E (cid:7)→ H3ch (E),H2ch (E),H ch (E),ch (E) . H 0 1 2 3 (1) (In the case of Kummer threefolds, we apply the BKR-equivalence before takingtheCherncharacter.)Weprovethesupportpropertywithrespecttov ; H thisshowsthatastabilityconditiondeformsalongasmalldeformationofits centralcharge,ifthatdeformationstillfactorsviav . H 123 Thespaceofstabilityconditionsonabelianthreefolds… 873 We discuss the relation between support property, quadratic inequalities forsemistableobjectsanddeformationsofstabilityconditionssystematically in Appendix 1. In particular, we obtain an explicit open subset of stability conditionswheneverConjecture4.1issatisfied,seeTheorem8.2. Thespaceofstabilityconditions IneachofthecasesofTheorem1.3,weshowmoreoverthatthisopensubset isaconnectedcomponentofthespaceofstabilityconditions.Wenowgivea descriptionofthiscomponent. InsidethespaceHom(Q4,C),considertheopensubsetVoflinearmaps Z whose kernel does not intersect the (real) twisted cubic C ⊂ P3(R) parame- trized by (x3,x2y, 1xy2, 1y3); it is the complement of a real hypersurface. 2 6 Such a linear map Z induces a morphism P1(R) ∼= C → C∗/R∗ = P1(R); wedefinePbethecomponentofVforwhichthismapisanunramifiedcover oftopologicaldegree+3withrespecttothenaturalorientations.LetP(cid:6) beits universalcover. WeletStab (X)bethespaceofstabilityconditionsforwhichthecentral H charge factors via the map v as in equation (1) (and satisfying the support H property). Theorem1.4 Let X be an abelian threefold, or a Calabi-Yau threefold of abelian type, or a Kummer threefold. Then Stab (X) has a connected com- H ponentisomorphictoP(cid:6). Approach Wewillnowexplainsomeofthekeystepsofourapproach. Reductiontoalimitcase The first step applies to any smooth projective threefold. Assume that ω,B areproportionaltoagivenamplepolarization H of X.WereduceConjecture 4.1 to a statement for objects E that are stable in the limit as ω(t) → 0 and νω(t),B(t)(E) → 0;if B := limB(t),theclaimisthat (cid:7) e−Bch(E) ≤ 0. (2) X Thereductionisbasedonthemethodsof[26]:asweapproachthislimit,either Eremainsstable,inwhichcasetheaboveinequalityisenoughtoensurethatE satisfiesourconjectureeverywhere.Otherwise,E willbestrictlysemistableat 123 874 A.Bayeretal. somepoint;wethenshowthatallitsJordan-Hölderfactorshavestrictlysmaller “H-discriminant”(whichisavariantofthediscriminantappearingintheclas- sicalBogomolov-Giesekerinequality).Thisallowsustoproceedbyinduction. Abelianthreefolds Inthecaseofanabelianthreefold,wemakeextensiveuseofthemultiplication bym mapm: X → X inordertoestablishinequality(2).Thekeyfactisthat ∗ if E istilt-stable,thensoism E. To illustrate these arguments, assume that B is rational. Via pull-back we can then assume that B is integral; by tensoring with O (B) we reduce to X the case of B = 0. We then have to prove that ch (E) ≤ 0; in other words, 3 we have to prove an inequality of the Euler characteristic of E. To obtain a contradiction,assumethatch (E) > 0,andconsiderfurtherpull-backs: 3 χ(O ,m∗E) = ch (m∗E) = m6ch (E) ≥ m6. (3) X 3 3 However,bystabilitywehaveHom(O (H),m∗E) = 0;moreover,ifD ∈ |H| X isageneralelementofthelinearsystemofH,classicalarguments,basedonthe Grauert-Mülich theorem and bounds for global sections of slope-semistable sheaves,giveaboundoftheform h0(m∗E) ≤ h0((m∗E)| ) = O(m4) D Similarboundsforh2 leadtoacontradictionto(3). Supportproperty As pointed out by Kontsevich and Soibelman in [21, Sect. 2.1], the support property is equivalent to the existence of a real quadratic form Q: Q4 → R suchthat (a) Thekernelofthecentralcharge(asasubspaceofR4)isnegativedefinite withrespectto Q,and (b) Everysemistableobject E satisfies Q(v (E)) ≥ 0. H The inequality in Conjecture 4.1 precisely gives such a quadratic form. We therefore need to show that this inequality is preserved when we move from tilt-stabilitytoactualBridgelandstabilityconditions. We establish a more basic phenomenon of this principle in Appendix1, whichmaybeofindependentinterest:ifastabilityconditionsatisfiesthesup- portpropertywithrespectto Q,andifwedeformalongapathforwhichthe centralchargesallsatisfycondition(a),thencondition(b)remainspreserved 123 Thespaceofstabilityconditionsonabelianthreefolds… 875 underthisdeformation,i.e.,itispreservedunderwall-crossing.Theessential argumentsinvolveelementarylinearalgebraofquadraticforms. Tilt-stabilitycanbethoughtofasalimitingcaseofapathinthesetofsta- bilityconditionsweconstruct.InSect.8weshowthattheprincipledescribed in the previous paragraph similarly holds in this case: we show that a small perturbation of the quadratic form in Conjecture 4.1 is preserved under the wall-crossingsbetweentilt-stabilityandanyofourstabilityconditions,thereby establishingthedesiredsupportproperty. Connectedcomponent InAppendix1,wealsoprovideamoreeffectiveversionofBridgeland’sdefor- mationresult.Inparticular,theproofofthesupportpropertyyieldslargeopen setsofstabilityconditions,whichcombinetocoverthemanifoldP(cid:6)described above. In Sect. 9, we show that this set is in fact an entire component. The proof is based on the observation that semi-homogeneous vector bundles E with c (E)proportionalto H arestableeverywhereonP;theirChernclasses(up 1 torescaling)aredenseinC. Thisfactisveryuniquetovarietiesadmittingétalecoversbyabelianthree- folds.Inparticular,whileConjecture4.1impliesthatP(cid:6)isasubsetofthespace ofstabilityconditions,oneshouldingeneralexpectthespacetobemuchlarger thanthisopensubset. Applications Ourworkhasafewimmediateconsequencesunrelatedtoderivedcategories. Although these are fairly specific, they still serve to illustrate the power of Conjecture4.1. Corollary1.5 Let X be a Calabi-Yau threefold of abelian type. Given α ∈ Z>0,let L beanamplelinebundleon X satisfying • L3 > 49α, • L2D ≥ 7αforeveryintegraldivisorclassDwithL2D > 0andLD2 < α, and • L.C ≥ 3α foreverycurveC ⊂ X. Then H1(L ⊗ I ) = 0 for every 0-dimensional subscheme Z ⊂ X of length Z α. Inaddition,if L = A⊗5 foranamplelinebundle A,then L isveryample. Proof Since Conjecture 2.4 holds for X by our Theorem 1.2, we can apply Theorem4.1andRemark4.3of[6]. (cid:12)(cid:13) 123 876 A.Bayeretal. Settingα = 2weobtainaReider-typecriterionforL tobeveryample.The statement for A⊗5 confirms (the very ampleness case of) Fujita’s conjecture forsuch X.ThebestknownboundsforCalabi-Yauthreefoldssaythat A⊗8 is veryampleifL3 > 1[18,Corollary1], A⊗10isveryampleingeneral,andthat A⊗5 induces a birational map [33, Theorem I]. For abelian varieties, much strongerstatementsareknown,see[37,38]. Corollary1.6 Let X beoneofthefollowingthreefolds:projectivespace,the quadricinP4,anabelianthreefold,oraCalabi-Yauthreefoldofabeliantype. Let H be a polarization, and let c ∈ Z>0 be the minimum positive value of H2D for integral divisor classes D. If E is a sheaf that is slope-stable with respectto H,andwith H2c (E) = c,then 1 3cch (E) ≤ 2(H ch (E))2. 3 2 The assumptions hold when NS(X) is generated by H, and c (E) = H. We 1 refer to Example 4.4 and Remark 4.5 for a proof and more discussion. Even for vector bundles on P3, this statement was not previously known for rank biggerthanthree. ItisaspecialcaseofConjecture4.1.EvenwhenXisacompleteintersection threefold and E = I ⊗ L is the twist of an ideal sheaf of a curve C, this C inequalityisnotknown,see[49]. Openquestions GeneralproofofConjecture4.1 While Conjecture 4.1 for arbitrary threefolds remains elusive, our approach seemstogetabitcloser:inourproofofTheorem1.1(inSects.2,3,4,5,6,7), onlySect.7isspecifictoabelianthreefolds.Onecouldhopetogeneralizeour construction by replacing the multiplication map m with ramified coverings. This would immediately yield the set P(cid:6) as an open subset of the space of stabilityconditions. StrengtheningofConjecture4.1 In order to construct a set of stability conditions of dimension equal to the rankofthealgebraiccohomologyofX,wewouldneedastrongerBogomolov- Giesekertypeinequality,dependingonch andch directly,notjustonH2ch 1 2 (cid:4) (cid:5)1 and H ch .Wepointoutthattheobviousguess,namelytoreplace H2ch 2 2 1 byH ch2·H3,and(H ch )2byanappropriatequadraticformonH4(X),does 1 2 notworkingeneral:forα → +∞,suchaninequalityfailsfortorsionsheaves supportedonadivisor D with HD2 < 0. 123 Thespaceofstabilityconditionsonabelianthreefolds… 877 Higherdimension Ourworkalsoclarifiestheexpectationsforhigherdimensions.Thedefinition ofPdirectlygeneralizestodimensionn in(cid:4)anobviousway,byreplacingth(cid:5)e twistedcubicwiththerationalnormalcurve xn,xn−1y, 1xn−2y2,..., 1 yn . 2 n! LetP(cid:6) → P denotethecorrespondinguniversalcovering. n n Conjecture1.7 Let(X,H)beasmoothpolarizedn-dimensionalvariety.Its spaceStab (X)ofstabilityconditionscontainsanopensubsetP(cid:6) ,forwhich H n skyscrapersheavesofpointsarestable.Inthecaseofabelianvarieties,P(cid:6) ⊂ n Stab (X)isaconnectedcomponent. H Suchstabilityconditionscouldbeconstructedbyaninductiveprocedure;thei- thinductionstepwouldbeanauxiliarynotionofstabilitywithrespecttoaweak notion of central charge Z depending on Hnch ,Hn−1ch ,...,Hn−i ch . i 0 1 i Semistableobjectswouldhavetosatisfyaquadraticinequality Q involving i chi+1.Thepreciseformof Qi woulddependontheparametersofthestability condition; it would always be contained in the defining ideal of the rational normalcurve,andthekernelofZ wouldbesemi-negativedefinitewithrespect i to Q . i Onecouldhopetoprovesuchinequalitiesfori < nusingasecondinduction bydimension:forexample,aninequalityforch forstableobjectsonafourfold 3 wouldfollowfromaMehta-Ramanathantyperestrictiontheorem,showingthat such objects restrict to semistable objects on threefolds. As a first test case, oneshouldtrytoprovethatagiventilt-stableobjectonathreefoldrestrictsto aBridgeland-stableobjectonadivisorofsufficientlyhighdegree. Relatedwork Asindicatedabove,thefirstbreakthroughtowardsconstructingstabilitycon- ditionsonthreefolds(withoutusingexceptionalcollections)isduetoMaciocia and Piyaratne, who proved Theorem 1.1 in the case of principally polarized abelian varieties of Picard rank one in [29,30]. Their method is based on an extensive analysis of the behavior of tilt-stability with respect to Fourier- Mukaitransforms;inadditiontoconstructingstabilityconditions,theyshow theirinvarianceunderFourier-Mukaitransforms. Ourapproachisverydifferent,asitonlyusestheexistenceoftheétaleself- mapsgivenbymultiplicationwithm.Nevertheless,therearesomesimilarities. Forexample,acrucialstepintheirargumentsusesrestrictiontodivisorsand curvestocontrolacertaincohomologysheafoftheFourier-Mukaitransform of E, see the proof of [29, Proposition 4.15]; in Sect. 7 we use restriction of divisors explicitly and to curves implicitly (when we use Theorem 7.2) to controlglobalsectionsofpull-backsof E. 123 878 A.Bayeretal. Asmentionedearlier,itiseasytoconstructstabilityconditionsonanyvari- etyadmittingacompleteexceptionalcollection;however,itisstilladelicate problemtorelatethemtotheconstructionproposedin[11].Thiswasdonein [11,26]forthecaseofP3,andin[39]forthecaseofthequadricinP4;these aretheonlyothercasesinwhichConjecture2.4isknown. Thereisanalternativeconjecturalapproachtowardsstabilityconditionson the quintic hypersurface in P4 via graded matrix factorizations, proposed by Toda [46,47]. It is more specific, but would yield a stability condition that is invariant under certain auto-equivalences; it would also lie outside of our setP(cid:6).HisapproachwouldrequireastrongerBogomolov-Giesekerinequality already for slope-stable vector bundles, and likely lead to very interesting consequencesforgeneratingfunctionsofDonaldson-Thomasinvariants. Conjecture2.4canbespecializedtocertainslope-stablesheaves,similarto Corollary1.6;see[11,Conjecture7.2.3].ThisstatementwasprovedbyToda forcertainCalabi-Yauthreefolds,includingthequintichypersurface,in[48]. AnothercaseofthatconjectureimpliesacertainCastelnuovo-typeinequality between the genus and degree of curves lying on a given threefold; see [49] foritsrelationtoboundsobtainedviaclassicalmethods. Our results are at least partially consistent with the expectations formu- lated in [36]; in particular, semi-homogeneous bundles are examples of the Lagrangian-invariantobjectsconsideredbyPolishchuk,aresemistableforour stabilityconditions,andtheirphasesbehaveaspredicted. Planofthepaper Appendix1maybeofindependentinterest.Wereviewsystematicallytherela- tionbetweensupportproperty,quadraticinequalitiesforsemistableobjectsand deformationsofstabilityconditions,andtheirbehaviourunderwall-crossing. Sections 2 and 3 and Appendix 2 review basic properties of tilt-stabilty, itsdeformationproperties(fixingasmallinaccuracyin[11]),theconjectural inequalityproposedin[11]andvariantsoftheclassicalBogomolov-Gieseker inequalitysatisfiesbytilt-stableobjects. InSect.4weshowthatamoregeneralformofConjecture2.4isequivalent totheoriginalconjecture,whereasSect.5showsthatbothconjecturesfollows fromaspeciallimitingcase. ThislimitingcaseisprovedforabelianthreefoldsinSect.7;inthefollowing Sect.8weshowthatthisimpliestheexistenceoftheopensubsetP(cid:6)ofstabilty conditionsdescribedabove.Section9showsthatinthecaseofabelianthree- folds,P(cid:6) isinfactaconnectedcomponent,andSect.10extendstheseresults to(crepantresolutions)ofquotientsofabelianthreefolds. 123