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密度泛函理论新进展及应用杨金龙中国科学技术大学ComputationExperimentTheoryScienceResearch计算机模拟已经与理论与实验并列,成为三种基本的科学研究手段之一Time•空间尺度:电子机构•时间尺度:动力学电子结构计算:预言材料性质、验证理论猜想、理解实验观测现象。动力学模拟:预言反应过程、验证理论猜想、理解实验观测现象。MaterialsPropertiesfromFirst-principles“Supercomputer”Giganticcomputerprograms01020304050600246810...)34()3;42()14()31()12(][||||16)()()(]21[,22222dGWifvirrVVViffiiiixcextHTop500SupercomputersintheworldA“small”PCclustertodayFourordersofmagnitudein15years计算量随体系大小急剧增长MaterialPropertiesfromFirst-PrinciplesFromfirstprinciples!Predictnewbehaviors/propertiesofexistingmaterialsDesignmaterialswithdesiredpropertiesUnderstandandexplainmaterialsproperties√√Becomingreality内容•密度泛函理论新进展•石墨烯条带体系的第一性原理计算研究密度泛函理论新进展•理论体系交换相关泛函、含时密度泛函、动力学平均场、密度泛函微扰理论•数值方法基组、格点、线性标度•应用物理、化学、生物、材料、纳米科学、光谱学PartI:理论体系PerdewPRL2003+Localdensity+Densitygradient+Inexplicitoccupiedorbitalinformation+Explicitoccupiedorbitalinformation+Unoccupiedorbitalinformation交换相关泛函jacob'sladder•LDAunderestimatesEcbutoverestimatesEx,resultinginunexpectedlygoodvaluesofExc.•TheLDAhasbeenappliedin,calculationsofbandstructuresandtotalenergiesinsolid-statephysics.•Inquantumchemistry,itismuchlesspopular,becauseitfailstoprovideresultsthatareaccurateenoughtopermitaquantitativediscussionofthechemicalbondinmolecules.局域密度近似(LDA)•Anyrealsystemisspatiallyinhomogeneous,ithasaspatiallyvaryingdensityn(r),itwouldclearlybeusefultoalsoincludeinformationontherateofthisvariationinthefunctional.•Inthisapproximation,onetriestosystematicallycalculategradient-correctionsofgeneralfunctionsofn(r)and∇n(r)•DifferentGGAsdifferinthechoiceofthefunctionf(n,∇n).rnrnrfdnEGGAxc,3广义梯度近似(GGA)AlexD.Becke“一切都是合法的”剑宗JohnP.Perdew一定的物理规律(如标度关系和渐进行为)为基础,PBE气宗•GGAsusedinquantumchemistrytypicallyproceedbyfittingparameterstotestsetsofselectedmolecules.•NowadaysthemostpopularGGAsarePBEinphysics,andBLYPinchemistry.•CurrentGGAsseemtogivereliableresultsforallmaintypesofchemicalbonds(covalent,ionic,metallicandhydrogenbridge).•Inadditiontothedensityanditsderivatives,Meta-GGAsdependalsoontheKohn-Shamkinetic-energydensity:•SothatExccanbewrittenasExc[n(r),∇n(r),τ(r)].TheadditionaldegreeoffreedomprovidedbyτisusedtosatisfyadditionalconstraintsonExc.•Meta-GGAshavegivenfavorableresults,evenwhencomparedtothebestGGAs.•Thefullpotentialofthistypeofapproximationisonlybeginningtobeexploredsystematically.22()|()|2iirrmMeta-GGA•CommonhybridfunctionalmixafractionofHartree-FockexchangeintotheDFTexchangefunctional.HybridFunctionalsB3LDAexactLDAGGAGGAEEa(EE)bcxcxcxxxcEEa0.20,b0.72,c0.81)Ea(EEEDFTxexactxDFTxc0xc25.0a(Becke,1993)(Perdew,1998)B3PW91,B3LYPPBE0B3LYPisthemainworking-horseincomputationalchemistryLDA:SlaterexchangeVosko-Wilk-Nusaircorrelation,etcGGA:Exchange:B88,PW91,PBE,OPTX,HCTH,etcCorrelations:LYP,P86,PW91,PBE,HCTH,etcHybridGGA:B3LYP,B3PW91,B3P86,PBE0,B97-1,B97-2,B98,O3LYP,etcMeta-GGA:VSXC,PKZB,TPSS,etcHybridmeta-GGA:HCTHh,TPSSh,BMK,etcL(S)DA+U•Mott绝缘体,Hubbard模型•Anisimovetal.:StonerI--HubbardU•轨道序:•Dudarevetal.:惩罚泛函PartII:数值方法数值离散方法•基组展开–LCAO基组(Gaussian基组、数值基组)•实空间网格平面波基组:从OPW到PP•平面波展开•正交化平面波(OPW)•赝势(PP)方法–经验赝势–模守恒赝势–超软赝势Muffin-tin势场与分波方法•Muffin-tin势场近似–缀加平面波(APW)–格林函数方法(KKR)•线性化方法–LAPW–LMTO•分波方法的发展–FP-LAPW–third-generationMTO,NMTO,EMTO平面波基组:从USPP到PAW•投影缀加波(PAW)方法•赝波函数空间•USPPorPAW?(VASP,ABINIT,...)实空间网格•简单直观•允许通过增加网格密度系统地控制计算收敛精度•线性标度•可以方便的通过实空间域分解实现并行计算•处理某些特殊体系(带电体系、隧穿结。。。)有限差分•从微分到差分•提高FD方法的计算效率–对网格进行优化,如曲线网格(适应网格)和局部网格优化(复合网格)–结合赝势方法–多尺度(multiscale)或预处理(preconditioning)有限元•变分方法•处理复杂的边界条件•矩阵稀疏程度及带状结构往往不如有限差分好•广义的本征值问题多分辨网格上的小波基组•多分辨分析•半取样(semicardinal)基组PartIII:应用物理学:强相关体系•模型哈密顿量•LDA++•电子结构:CrO2•点阵动力学:钚化学:弱作用体系•松散堆积的软物质、惰性气体、生物分子和聚合物,物理吸附、Cl+HD反应•用传统的密度泛函理论处理弱作用体系•一个既能产生vdW相互作用系数又能产生总关联能的非局域泛函:无缝的(seamless)方法•GW近似•密度泛函加衰减色散(DFdD)生命科学:生物体系•困难(尺寸问题、时间尺度)•QM/MM方法(饱和原子法、冻结轨道法)•简单势能面方法–线性同步过渡(LST)–二次同步过渡(QST)•完全的分子动力学–并行复制动力学(parallelreplicadynamics)–超动力学(hyperdynamics,metadynamics)–温度加速的动力学(temperatureaccelerateddynamics)–快速蒙特卡罗(on-the-flykinericMonteCarlo)方法纳米和材料科学:输运性质及其他•输运:非平衡态第一性原理模拟•材料力学:运动学MonteCarlo(KMC)--点阵气体和元胞自动机--连续方程的有限差分有限元求解光谱学:激发态和外场•系综密度泛函理论•考虑系统对称性,用求和方法计算多重态激发能•多体微扰理论,GW近似Bethe-Salpeter方程•TDDFT,线性响应石墨烯体系的第一性原理研究Graphene•Introductiontographeneandgraphenenanoribbon(GNR)•GNRbasedspintronics•Nearlyfreeelectron(NFE)statesingatedGNRsuperlattice•Cuttingmechanismingrapheneoxide(GO)Graphene:amonolayeroftwo-dimensionalcarbonatoms198519912004CrystalstructureofgrapheneEnergybandsKorK’Siliconout,Graphenein?RVanNoorden,Nature442,228(2006)WhatareGraphenenanoribbons(GNRs)?UnlimitedLimitedZigzagGNRsUnlimitedLimitedArmchairGNRsArmchairGNRsZigzagGNRs•ArmchairGNRsarePM.•ZigzagGNRsfavorAFM.BandGapsinGNRsY.-W.Sonetal.,Phys.Rev.Lett.2006,97,216803Half-metallicity(HM)•100%spinpolarization•Applications:–Spininjection–Spintransport•SomeHMmaterials:–CrO2,NiMnSb,Fe3O4•TransitionMetalEncapsula
本文标题:密度泛函理论新进展及应用
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