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Andrei Ipatov, Felipe Cordova, and Mark E. CasidaInstitut de Chimie Moléculaire de Grenoble (ICMG)Laboratoire d'Études Dynamiques et Structurales de la Sélectivité (LÉDSS)Équipe de Chimie Théorique (LÉDSSÉCT) Université Joseph Fourier (Grenoble I)F38041 GrenobleFranceemail: Mark.Casida@UJFGrenoble.FR
SpinCoupling and Other Explicit ManyBody Effects inTimeDependent DensityFunctional Theory (TDDFT)
Crosstalks in the Physics of ManyBody Systems Institut Henri Poincaré
Paris, FranceThursday 7 December 2006
45 min
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What chemists should not do ...
With permission from Sidney Harriswww.sciencecartoonsplus.com
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Difficultés de Communication (Language Problems)
Chemist = chemical physicist/physical chemistPhysicist = solid state (or other) physicist
DFT≠abinitio
For the purposes of this talk :
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Brief Biased History of DensityFunctional Theory (DFT)
Pre 1964 : ThomasFermiDirac and Slater's Xα methods1964 : HohenbergKohn theorems provide a formal justification1965 : KohnSham reformulation of DFT1970s : Xα tried in Quantum Chemistry and many hands were burned
Dark Period : DFT is an outcast in Quantum Chemistry
1980s : rich period for development of DFT algorithms and functionals1994 : First version of Gaussian with DFT1998 : Nobel Prize in Chemistry to John Pople and Walter Kohn
Maturity : DFT is an accepted tool in Quantum Chemistry
DFT doesn't always work but it no longer means the method is evil.
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DFT still doesn't always work, but the method is no longer evil!
Ab initio theory seemed to be “running out of steam” (and granting agencies were increasing pressure for technological impact) DFT provides a practical method to extrapolate ab initio accuracy to molecules of practical interest Validation on small systems still necessary for each new property and class of molecules before applying DFT to larger systems And DFT is continuing to improve ...
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Problem : Conventional DFT is Limited to the Ground Stationary State
Chemistry is also : Optical materials Spectroscopy Photochemistry
Chemistry is can involve many surfaces.
TimeDependent DensityFunctional Theory (TDDFT) aims to overcome this limitation.
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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1st HK Theorem: The external potential is determined up to an additive constant by the ground state charge density.
Corollary:N , vextC HC I ,I=E I−E0
2nd HK Theorem: The ground state energy and density may be determinedby minimizing
E=F []∫ vext r r d r
The functional F[ρ] is "universal" in the sense that it does not depend on vext
.
THE TWO HOHENBERGKOHN THEOREMS[Phys. Rev. 136, B864 (1964)]
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Introducing N orthonormal KohnSham orbitals allows the most importantcontributions to the total energy to be written exactly.
E=∑i nii ∣−12∇
2vext∣i
12∫∫
r 1r 2
∣r 1−r 2∣d r 1 d r 2E xc[]
where r =∑i ni ∣i r ∣
2
Minimizing subject to the orbital orthnormality constraint gives the KohnSham equation.
[−12∇
2vext r ∫
r ' ∣r−r '∣
d r 'vxc r ] i r =ii r
where the exchangecorrelation potential is vxc []r = E xc []
r
THE KOHNSHAM FORMULATION[Phys. Rev. 140, A1133 (1965)]
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COMPARISON WITH THE HARTREEFOCK EQUATION
DFT
HF
[−12∇
2vext r ∫
r ' ∣r−r '∣
d r 'vxc r ] i r =ii r
[−12∇
2vext r ∫
r ' ∣r−r '∣
d r ' x] i r =ii r
where xi=−∑ j n j j∫
∗j r ' i r '
∣r '−r∣d r '
DFT is exact when Exc
is exact, but HF is always an approximation. v
xc is a simple multiplicative operator but the HF exchange operator is an
integral operator.
vxc []r = E xc []
r where
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Up to this point everything is formal, hence exact.
We need to approximate Exc in order to have a practical theory.
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No practical exact form is known for Exc
. E
xc must be approximated in practice.
Is there a systematic hierarchy of appromations? Axel Becke talked of 3 generations of functionals John Perdew had a vision inspired by the Bible ...
John P. Perdew and Karla Schmidt, in Density Functional Theory and ItsApplications to Materials, edited by V.E. Van Doren, K. Van Alseoy, andP. Geerlings (American Institute of Physics, 2001).
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« Jacob's ladder » William Blake
water color17991800
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Molecular size
ab initio DFT
hybrid/OEP
mGGA
GGA
LDA
No computer land
HARTREE WORLD
THEORETICALCHEMISTRY
HEAVEN
jellium
Jacob's ladder
r
x r =∣∇ r ∣r 4/3
r =∑i ni∣∇i∣2
K xHF
MBPT
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WHERE WE EXPECT CONVENTIONAL DFT TO WORK
Nondegenerate ground states are best When a single determinant is a reasonable first approximation for the interacting system Strong bonding (strong H bonds but not weak H bonds or van der Waals molecules) with bonds involving an integer number of electrons Neutrals or cations (not anions) Not too much charge transfer
DFT may also work outside these limits, but testing is requiredon a casebycase basis!
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F. Cordova, L. Joubert Doriol, A. Ipatov, M.E. Casida, and A. Vela, in preparation.
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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∆SCF and MULTIPLET SUM METHOD
∆SCF Formally exact for the first ionization potential (I) and electron affinity (A) Reasonable for singlettriplet excitation energy (ω
T)
Often used, often successful Slater's transition state method sometimes used
Multiplet Sum Method (MSM) Clearly described in an article by Ziegler, Rauk, and Baerends Nicely developed by Daul Sometimes the form of a multideterminantal wavefunction may be guessed from symmetry The MSM provides a firstorder perturbation estimate May be used for singletsinglet excitation energy (ω
S)
∫0
1E ndn≈n=1/2
T. Ziegler, A. Rauk, and E.J. Baerends, Theor. Chim. Acta 4, 877 (1977)C. Daul, Int. J. Quantum Chem. 52, 867 (1994)
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NOTATION
f H r 1,r 2=1
r 12
f xc ,
r 1,r 2 =
2 E xc [ , ]
r 1r 2Kernels :
“Mullikan (charge cloud) notation” :
p q∣ f ∣p' q ' =∫∫p∗1q 1 f 1,2p '
∗2q ' 2 d1d2
a b c d ... g hunoccupied
i j k l m noccupied
o p q ... x y zfree
“Fortran” index convention
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IONIZATION POTENTIAL, Ii
−I i=E ........................−E ..........................i
a
i
a
−I i=i ni =1 /2
∆SCF :
Slater's transition state :
After linearization :
In terms of parent N electron qauntities :
−I i=i−12
ii∣ f H∣ii ⟨ i∣vxc[−
12i , ]∣i ⟩
−I i=i−12
ii∣ f H f xc , ∣ii
Orbital energy correctedfor relaxation
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ELECTRON AFFINITY, Aa
−Aa=E ........................−E ..........................i
a
i
a
−Aa=a na
=1 /2
∆SCF :
Slater's transition state :
After linearization :
In terms of parent N electron quantities :
−Aa=a−12
aa∣ f H∣aa ⟨a∣v xc[
12a , ]∣a ⟩
−Aa=a12
aa∣ f H f xc , ∣aa
Orbital energy correctedfor relaxation
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TRIPLET EXCITATION ENERGY
T=E ........................−E ..........................i
a
i
a
T=a−i12
aa−ii∣ f H f xc , ∣aa−ii
charge transfer term
aa∣ f xc ,
− f xc , ∣ii
T=a na
=ni =1/2 −i na =ni =1 /2
∆SCF :
Slater's transition state :
After linearization :
T=a−i12
aa−ii∣ f H f xc ,∣aa−ii E xc [a ,−i ]−E xc[ ,]
In terms of parent quantities :
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SINGLET EXCITATION ENERGY
T=2 E ........................−E ..........................i
a
i
a
S=a−i12 aa−ii∣ f H f xc
, ∣aa−ii
chargetransfer term
−aa∣ f xc ,
− f xc ,∣ii
ZieglerRaukBaerends (Daul) Multiplet Sum Method :
Slater's transition and linearization :
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COMPARISON WITH HARTREEFOCK
S=− Aa−I i −2 aa∣ f xc∣ii − aa∣ f H∣ii aa∣ f xc
∣ii
DFT
HF
S=a−i2 ai∣ f H∣ia − aa∣ f H∣ii
T=a−i− aa∣ f H∣ii
T=− Aa−I i − aa∣ f H∣ii −aa∣ f xc ∣ii
aa∣ f xc ∣ii 0
aa∣ f xc ∣ii − ai∣ f H∣ia
No correlation
Exchange integral
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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Pour
For a system, intially in its ground state, exposed to timedependentperturbation :
1st Theorem: vext
(rt) is determined by ρ(rt) up to an additive function oftime
Corollary: rt N , vext r t C t H t C t t e−i∫t0
tC t ' dt '
2nd Theorem: The timedependent density is a stationary point of theaction
A[]=∫t0
tt ' ∣i ∂
∂ t '− H t ' ∣t ' dt '
[Actually, the timedependent density should rather be generated by the Keldysh action. See R. van Leeuwen, Int. J. Mod. Phys. B 15, 1969 (2001).]
TIMEDEPENDENT DENSITYFUNCTIONAL THEORY (TDDFT)[according to E. Runge and E.K.U. Gross, Phys. Rev. Lett. 52, 997 (1984)]
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[−12∇
2vext r t ∫
r ' t ∣r−r '∣
d r 'vxc r t ]i r t =i ∂
∂ ti r t
r t =∑ini∣i r t ∣2
vxc r t = Axc []
r t
THE TIMEDEPENDENT KOHNSHAM EQUATION
where
and
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Classical model of a photon
Induced dipole moment
t =−e 0∣r∣0t 0t ∣r∣0
t = cos0 t
v r t =et ⋅r
O
H H
O
H H
O
H H
O
H Hℏ0
photont
EXCITEDSTATES ARE OBTAINED FROM LINEAR RESPONSE THEORY
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i t =i∑ j i , j j cos t⋯
r i , r j
=∑I≠0
2I0∣r i∣I I∣r j∣0
I2−
2
=∑I≠0
f I
I2−
2
f I=23I ∣0∣x∣I∣
2∣0∣y∣ I∣
2∣0∣z∣I ∣
2
Sumoverstates theorem (SOS) fI
ωI
DYNAMIC POLARIZABILITY
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xz =−2x A−B
1 /2[
2 1− A−B1/2
AB A−B1/2
] A−B1/2
z
where
Aij kl= ,i , k j , l j − jK ij , kl
Bij , kl=K ij , lk
MATRIX EQUATIONS[Mark E. Casida in Recent Advances in Density Functional Methods, Part I, edited
by D.P. Chong (Singapore, World Scientific, 1995), p. 155]
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The poles of the dynamic polarizability are the solutions of the pseudoeigenvalue problem,
I F I=I
2 F I
= A−B1/2
AB A−B1 /2
PSEUDOEIGENVALUE PROBLEM
where
In principle these equations take all spectroscopically allowed transitionsinto account when the functional is exact. This is not a problem becauseit is wellestablished that the number of solutions of such an equationcan exceed the dimension of the matrix Ω.
These equations are variously known as the RPA equations (which is really confusing) the "Casida equations" or LRTDDFT
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Up to this point everything is formal, hence exact.
We need to approximate Axc in order to have a practical theory.
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THE TDDFT ADIABATIC APPROXIMATION
vxc r t = Axc []
r t
vxc r t =E xc [t ]
t
where t r =r t
Supposing that the reaction of the selfconsistant field to variationsin the charge density is instantaneous and without memory givesthe adiabatic approximation,
In general
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Exc functionals are inherited from conventional DFT
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PROBLEM
Theorem: The adiabatic approximation limits TDDFRT to 1e excitations.
Reasoning: Counting argument.
f xc = f xc
independent of frequency means that the eigenvalue problem hasexactly the same number of solutions as the number of single excitations.
Alternatively: The "Casida equation" includes TDHF. Make the TammDancoff approximation, B=0. The "Casida equation" thenreduces to CIS.
Note however that adiabatic TDDFT 1e excitations include somecorrelation effects (they are "dressed"). 18
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PROBLEM2
Theorem: The adiabatic approximation limits the poles of the nonlinearresponse to 1e excitations.
Proof: Complicated, but basically it is related to the idempotency of theKS density matrix. Tretiak et Chernyak have shown that singularities of the adiabatic TDDFT 2nd hyperpolarizability occur only at double excitations which are 1e excitations*.
* S. Tretiak and V. Chernyak, J. Chem. Phys. 119, 8809 (2003).
=13 !
[I
II ⋯
VIII ]
For example,
I =∑
, ,
−
−
−S S S
[−3 ] [−2 ] [− ]
19
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WHERE WE EXPECT CONVENTIONAL TDDFT TO WORK
DFT should already be working for the ground state Excitations below the TDDFT ionization threshold (ε
HOMO) which is
too low Excitations with little or no charge density relaxation (charge transfer excitations are underestimated by 1 or 2 eV) Single electron excitations (avoid polyenes and free radicals)
TDDFT may also work outside these limits, but testing is requiredon a casebycase basis!
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F. C
ordo
va, L
. Jou
bert
Dor
iol,
A. I
pato
v, M
.E. C
asid
a, a
nd A
. Vel
a,
in p
repa
ratio
n.
O
CH2H
2C
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Additional Approximations
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The LRTDDFT and LRTDHF can be put into the canonical form of apseudoeigenvalue problem,
[ A BB A ]
X I
Y I=I [1 0
0 −1 ] X I
Y I
TAMMDANCOFF APPROXIMATION (TDA)
B=0 defines the TammDancoff approximation
A X I=IX I
CIS = TDHF + TDA
TDDFT reference : S. Hirato and M. HeadGordon, Chem. Phys. Lett. 314, 291 (1999)
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TWO ORBITAL APPROXIMATION (2OA)
Because DFT orbitals are “preprepared” for describing excitation energies :They see the same number of electrons and hence relaxation is minimal.
i
a
i
a
i
a a
i a
i
T=a−i ia∣ f xc − f xc
∣ia
S=a−i ia∣2 f H f xc f xc
∣ia
Comparison with ∆SCF is not obvious (though results are often similar)
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HARTREEFOCK (HF) STATIC EXCHANGE (SX)
a i−1
=a .............. =a− aa∣ f H∣ii ia∣ f H∣ai i
a
i=i .............. ia
S=ai−1−iia∣ f H∣ai
T=ai−1−i−ia∣ f H∣ai
where
(See deMonStoBe for a ∆SCFbased version of SX)
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COMPARISON OF HF SX AND TDDFT
S=ai−1−iia∣ f H∣ai
T=ai−1−i−ia∣ f H∣ai
HF SX
TDDFT
T=a−i ia∣ f xc ∣ia − ia∣ f xc
∣ia
S=a−i2 ia∣ f H∣ia ia∣ f xc ∣ia ia∣ f xc
∣ia
ia∣ f xc ∣ia 0
ia∣ f xc ∣ia − ai∣ f H∣ia
No correlation
Exchange integral
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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CC RING OPENING IN OXIRANE
O
CH2H
2C
O
CH2
H2C. .
O
CH2
H2C..
+
O
CH2
H2C ..
+
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O
CH2H
2C
WOODWARDHOFFMANN THEORY
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O
CH2H
2C
CONROTATORY THERMAL REACTION
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F. Cordova, L. Joubert Doriol, A. Ipatov, M.E. Casida, and A. Vela, in preparation.
O
CH2H2C
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SYMMETRY BREAKINGR. Bauernschmitt and R. Ahlrichs, J Chem. Phys. 104, 9047 (1996)
M.E. Casida et al., J. Chem. Phys. 113, 7062 (2000)M.E. Casida, ACS Symposium Series 828 (2001)
Given a same orbitals for different spin (SODS) solution, is there a lower energy (symmetry broken) different orbitals for different spin (DODS)solution?
rr =ei Ri I
r r
Try arbitrary unitary transformations of spin orbitals
E=E02 [ R A−B RI AB I ]O
3
Find
But another form of Casida's equation is AB A−B Z I=I
2 Z IConclude : Symmetry breaking if and only if imaginary triplet excitation energies
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O
CH2H2C
WHAT ABOUT OXIRANE?
Exact DFT Singlet ground state Same spin up and spin down densities Same spin up and spin down exchangecorrelation potential Same orbitals for different spin (SODS) No symmetry breaking
Applied DFT Symmetry breaking may occur Symmetry breaking may help to describe an otherwise muticonfigurational situation But symmetry breaking is an unwanted extra complication when carrying out large numbers of TDDFT calculations (e.g. onthefly photochemical dynamics simulations)
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93% of thesurface showssymmetrybreaking
50% of thesurface showssymmetrybreaking
Which would you use?
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USE TDA TO DECOUPLE QUALITY OF EXCITED STATE FROM GROUND STATE STABILITY CONDITION
TDLDA
TDATDLDA
M.E. Casida et al., J. Chem. Phys. 113, 7062 (2000)
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USE TDA TO DECOUPLE QUALITY OF EXCITED STATE FROM GROUND STATE STABILITY CONDITION
TDLDA
TDATDLDA
M.E. Casida et al., J. Chem. Phys. 113, 7062 (2000)
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O
CH2H2C
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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Why Are Spectra of OpenShell Molecules Interesting?
Ionization Spectra
C2H
2+
C2H
2
1u−1
3 g−1
2u−1
2g−1
2g−1
P. Duffy, S.A.C. Clark, C.E. Brion, et al. Chem. Phys. 165, 183 (1992)
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DODS FOR EXCITATIONS IN RADICALS
S. Hirata and M. HeadGordon, Chem. Phys. Lett. 302, 375 (1999).
CN radical
0 1 2 3 4 5 6 7 eV
Expt :
TDLDA :
XCIS :
ROCIS :
UCIS :
V 2 V 2
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SODS ANALYSIS OF EXCITATIONS IN RADICALS
i
va
i
va
i
va
i
va
i
va
i
va
∣ii v ⟩
∣ai v ⟩
a
i
−a
v
∣ii a ⟩a
i
∣ia v ⟩
−v
i
∣iv v ⟩a
v
v
i
∣i av ⟩
v
i a
v
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SPIN OPERATORS
S2=∑ P
n
S z S z−1
S z=12
n−n
wheren=∑ r
r
P =∑ r
s
s r
Single determinants are eigenfunctions of Sz but not necessarily of S2
Eigenfunctions of S2 are linear combinations of determinants with different distributions of the same number of up and down spins.
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RADICAL EXCITED STATES |S,MS)
Doublets
Quadruplet
∣D2 ⟩=1
6∣i v a ⟩∣i v a ⟩−2∣iv a ⟩
∣Q ⟩=1
3∣i v a ⟩∣i v a ⟩∣iv a ⟩
"Extended Singles"(a type of doubles)
∣D1⟩=1
2∣i v a ⟩−∣i v a ⟩
∣ii a ⟩ ∣iv v ⟩
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TDDFT, TDHF, AND CIS GIVE
Singlet Coupling
∣TC ⟩=1
2∣i v a ⟩∣i v a ⟩
∣D1 ⟩=1
2∣i v a ⟩−∣i v a ⟩
Triplet Coupling
Doublets
Neither a doublet nor a quadruplet!
MISSING: The quadruplet and one of the doublets!
∣ii a ⟩
∣iv v ⟩
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CONSEQUENCES FOR OPENSHELL MOLECULES
In the adiabatic approximation, Only transitions which conserve S2 have correct symmetry There are too few transitions conserving S2
intensity=1
ω(S)
ω(Ψ) ω(Ψ')
intensity =sin2 θ
intensity =cos2 θ
!
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Need a way to calculate spin contamination forTDDFT excited states
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BASIC IDEA
Evaluate
⟨∣S2∣⟩
This is a necessary but not a sufficient condition that
S2=S S1
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SOME BASIC FORMULAE : ORBITALS
n=∑ r
r n=∑ r
r
Second quantization poor man's notation
r=ar r
=ar
a b c d ... g hunoccupied
i j k l m noccupied
o p q ... x y zfree
“Fortran” index convention
Number operators
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SOME BASIC FORMULAE : SPIN
S=∑ r
rS
−=∑ r
rS z=
12 n−n
S2=S
S
−S z
S z−1 ⇒ S2
=∑ Pn
S z S z−
1
Spin transposition operator
P=r
s
s r
r
s
r
s
NB XIII p. 130
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SOME BASIC FORMULAE : DODS
r
=∑ s
s ,r
“DODS overlap matrix”
r=r =∑
s
s ,r
r=r =∑ss ,r
r
=∑ s
s ,r
r ,s=⟨r∣s ⟩
r ,s
=⟨ r∣s⟩
So
∑ P=∑ p
s
qrp ,r
q , s
And
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GROUND STATE SPINCONTAMINATION
=∣12
1
2
∣
⟨∣S 2∣⟩=⟨∣∑ P
∣⟩nS z S z−1
NB IX p. 35
⟨∣∑ P∣⟩=∑ ⟨∣p
s
q r∣⟩p ,r
s , q
Application of Wick's theorem gives
⟨∣∑ P∣⟩=−∑ ∣ j ,i∣
2occ
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EXCITEDSTATE SPINCONTAMINATION
Even in TDHF there is no wave function: obtain 2electron reduced difference density matrix (2RDDM) from differentiation of excitation energy with respect to electron repulsion integrals (ERI) Don't know how to take the derivative of the xc terms with respect to ERIs: just use the TDHF expression.
Are we the first to derive the TDHF spincontamination expression?
We use the unrelaxed density matrix (approximation!) Our expression reduces to a previous result in the CIS limit: D. Maurice and M. HeadGordon, Int. J. Quant. Chem. Symp 29, 361 (1995).
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A. Ipatov, F. Cordova, and M.E. Casida, in preparation.
Result :
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A. I
pato
v, F
. Cor
dova
, and
M.E
. Cas
ida,
in p
repa
ratio
n.
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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Adapted from Lucia Reining's Nanoquanta presentation, September 2006
TDDFT =00 [v f xc ]0
BSE 4=
40
40 [ v
xc
G ] 40
1,3=41,1 ;3,3 =0
30 [v
xc
G ] 30
0 f xc0=30
xc
G30
⇒
Leads to “THE” approximation
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From Lucia Reining's Nanoquanta presentation, September 2006
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“THE” approximation is still an approximation
f xc= f xcquasiparticle
f xcexcitonic
f xcexcitonic approximated by “THE” approximation
f xcquasiparticle not included in “THE” approximaiton (takes into account
selfenergy corrections to KS orbital energies)
Diagrammatic representation of fxc
I.V. Tokatly and O. Pankratov, PRL 86, 2078 (2001)I.V. Tokatly, R. Stubner, and O. Pankratov, PRB 65, 1131 (2002)R. Stubner, I.V. Tokatly, and O. Pankratov, PRB 70, 245129 (2004)
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PROPAGATOR CORRECTIONS TO TDDFTM.E. Casida, J. Chem. Phys. 122122, 044110 (2005).
T 1∣hs∣T 1
sK HxcI U I1=I T 1
∣T 1 s U I
1
K Hxc = T 1∣ H−hs∣T 1
sadiabaticTDDFTx
K propagator correction
K =T 1∣ H∣T 2
s [ T 2 ∣T 2
s−T 2 ∣ H∣T 2
s ]−1
T 2 ∣ H∣T 1
s
Note that the propagator correction contains the correlation part of the adiabatic coupling matrix, K(0).
51
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PROPAGATOR CORRECTIONS TO TDDFT : DRESSED TDDFT
[MZCB04] N.T. Maitra, F. Zhang, F.J. Cave, and K. Burke, J. Chem. Phys. 120, 5932 (2004). “Double excitations within timedependent density functional theory linear response” [CZMB04] R.J. Cave, F. Zhang, N.T. Maitra, and K. Burke, Chem. Phys. Lett. 389, 39 (2004). “A dressed TDDFT treatment of the 21Ag states of butadiene and hexatriene”
The present treatment is essentially equivalent to “dressed TDDFT” for the closedshell case :
2 [q∣ f xc ∣q ]=2 [q∣ f xcAq ∣q ]
∣H qD∣2
−H DD−H 00
Modifications are needed for the openshell case.CASPT2 ATDDFT D-TDDFT D-TD-
TDDFT
0
1
2
3
4
5
6
7
8
2 1Ag VERTICAL EXCITATION ENERGY (eV)
C4H6C6H8
!
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I. IntroductionII. Review of Conventional DFTIII. ∆SCF and the Multiplet Sum MethodIV. Review of Conventional TDDFTV. Stability AnalysisVI. SpinContaminationVII. Explicit Incorporation of Higher ExcitationsVIII. Conclusion
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SUMMARY
It has been said that DFT stands for “Darned Fine Theory”DFT has reached a sort of happy maturity.
It has also been said that TDDFT stands for “Terribly Difficult Darned Fine Theory” (André Bandrock)TDDFT is perhaps best described as being an awkward teenager.
TDDFT has proven its worth as a valuable complement to ab initio excited state methods (especially CASPT2) I have tried to emphasize how TDDFT works at a simple level and to contrast it with the ∆SCF method (which gives similar results when both apply) I talked about several problems often associated with the breakdown of the single determinantal approximation : symmetry breaking, spincontamination, explicit higherorder excitations