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Electronic Structure and First Principles Theory
11/29/2018 CIDER/ITP Short Course
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Equation of State Start from fundamental relation
Helmholtz free energy F=F(V,T,Ni) Isotherm, fixed composition F=F(V) Taylor series expansion Expansion variable must be V or a function of V F=af2 + bf3 + … f = f(V) Eulerian finite strain
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Microscopic Picture 1 Pair Potential
Assume pairwise interactions Assume simple functional form V(r) = exp(-r/ + Z1Z2e2/r Advantages Fast Fundamental inadequacies C12=C44 Empirical inadequacies N+1th observation More complex functional forms and/or parameters depend on Pressure Temperature Structure
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Microscopic Picture 2 Gordon-Kim
Assume charge density of crystal = that of overlapping, spherical, fully charged, ions Assume charge density of ions = that in free state Advantage Ab initio Problems Only ionic bonding Cauchy violations O2- not stable in free state Partial solution Breathing
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Ions or electrons? Pauling/Goldschmidt Model High pressure?
Hard fully charge spheres Rationalize/predict low pressure structures High pressure? Pbond~eV/Å3=160 GPa~Pmantle Ions change Size Shape Charge
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The one electron atom Exactly soluble i: wave function of state i
can have either sign Charge density, = square of wave function Ei Energy of state i States described by three quantum numbers (+ spin)
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Multi-electron Atom in a crystal field Multi-electron atom 3d3z2-r2 m=+2 One-electron atom 3dx2-y2 m=+1 3d 3dyz m=0 l=0 l=1 l=2 3dxz m=-1 3s 3p 3d 3p 3dxy n=3 m=-2 3s 2s 2p n=2 1s n=1
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Molecules Isolated Atoms Molecule One energy level Two energy levels
Bonding Anti-bonding Population Energy difference Temperature
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Metallic Solid Asymptotically continuous band of N states
Each state accommodates 2 electrons Half-filled band Fermi energy separates occupied from unoccupied states No gap
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Covalent Solid Doubled unit cell Halved Brillouin zone Folding Gap
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Ionic Solid Cation and Anion
Lower energy state: valence electrons on anion ~Flat bands: localized states Gap
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Density functional theory
No assumption about charge density, type of bonding, … No experimental input, i.e. no free parameters Positions and charges of nuclei. Assumption of nuclear positions is generally relaxed Not exact Cohen, 1992
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Uniform Charge Density
Uniform distribution of atoms P=RTnA Uniform distribution of electrons Kinetic Exchange Correlation Ion-electron interaction Nuclei Electrons
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Uniform Charge Density
EOS depends on Z Jupiter, Z~1 Mantle, Z~10 Core, Z~26 Calculated density too high Screening
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Density Functional Theory
Kohn,Sham,Hohenberg Ground State Internal Energy a unique functional of the charge density Approximations Essential Exchange-Correlation Functional Local density approximation Convenient Pseudopotential approximation
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Computational Methods
Pseudopotential Nuclear potential is hard! Replace with that of nucleus + core electrons Represent valence electrons with plane wave basis set
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Origin of Magnetism Bulk f(V) electron s=±1/2 atomic or local S=2
Ferromagnet Paramagnet Pauli Paramagnet
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Magnetic Collapse Origin
Levels Low Pressure High Pressure Bands
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Electronic transition in Potassium
Potassium shows a fundamental change in its electronic structure at high pressure, from that of an alkali metal to that of a transition metal. 4s electrons are more strongly influenced by compression than the initially unoccupied 3d states, which are increasingly populated at high pressure Large decrease in ionic radius Change in chemical affinity from lithophile to siderophile? 35 GPa EFFECT OF PRESSURE ON PHYSICS AND CHEMISTRY OF POTASSIUM BUKOWINSKI MST GEOPHYSICAL RESEARCH LETTERS 3 (8): Bukowinski (1976) GRL 3, 491
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Phase transition in CaSiO3 perovskite
Shim, Jeanloz, Duffy (2002) GRL 29, Stixrude, Cohen, Yu, Krakauer (1996) Am. Min. 81, 1293. Prediction of behavior and properties at extreme conditions Origin of behavior and properties at the fundamental level Interplay with experiment Test of fundamental theories Guiding new experiments Interpretation of observations
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