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Claude Monney
Dynamics of correlated materials Fritz-Haber Institute, Berlin
Electronic Structure and Electron Spectroscopies, Kiev, May 2013
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Electron spectroscopy group (Fribourg, CH):
H. Cercellier1, G. Monney, E. Schwier and
P. Aebi
Theory:
H. Beck (Neuchâtel, CH)
TiSe2 samples:
H. Berger and L. Forro (EPFL, CH),
J. Marcus (Institut Néel, Grenoble, F),
A. Titov (Institute of Metal Physics, Ekateringburg (R)
1 Now in: Institut Néel, Grenoble (F)
Acknowledgements
G. Monney
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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Physical properties of TiSe2 : structure
Se
Ti
Layered compound with 1T structure
Threefold symmetry
around z-axis
Ti in octahedral
coordination
Van der Waals gap
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Physical properties of TiSe2 : structure
Se
Ti
Layered compound with 1T structure
Threefold symmetry
around z-axis
Ti in octahedral
coordination
Se: [Ar]3d104s24p4
Ti : [Ar]3d24s2
TiSe2
2x
1x
Van der Waals gap
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Di S
alv
o e
t al., P
RB
14 (
1976)
Effect of doping : intercalated compounds
Ti overdoping
Intercalation compound
Van der Waals gap
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Di S
alv
o e
t al., P
RB
14 (
1976)
Effect of doping : intercalated compounds
Ti overdoping
Intercalation compound
Van der Waals gap
Superconducting CuxTiSe2
Mo
rosa
n e
t a
l., N
atu
re P
hys
. 2 (
20
06
)
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Universality of phase diagrams?
Damascelli et al., Rev. Mod. Phys. (2003) Richard et al., Rep. Prog. Phys. (2011)
Morosan et al., Nature Phys. 2 (2006)
• Similar phase diagrams in quasi 2D materials
• Superconductivity develops in the proximity of an ordered phase (CDW, SDW, …)
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Universality of phase diagrams?
Damascelli et al., Rev. Mod. Phys. (2003) Richard et al., Rep. Prog. Phys. (2011)
Morosan et al., Nature Phys. 2 (2006)
• Similar phase diagrams in quasi 2D materials
• Superconductivity develops in the proximity of an ordered phase (CDW, SDW, …)
We need to investigate more the nature of CDW to better understand the competition(?) CDW & SC
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Phase transition at Tc~ 200 K: charge density wave (CDW)
according to Di Salvo et al, PRB 14, 4321 (1976)
Physical properties of TiSe2: transport
Distortion
(1x1x1) => (2x2x2)
with small atomic
displacements (~ 0.08
)
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Pill
o e
t a
l, P
RB
61
(2
000)
Phase transition at Tc~ 200 K: charge density wave (CDW)
according to Di Salvo et al, PRB 14, 4321 (1976)
Physical properties of TiSe2: transport
Carrier density 1021 cm-3
« bad metal »
Anomalous transport
Dominant carriers:
holes at RT
electrons at low temperatures
Distortion
(1x1x1) => (2x2x2)
with small atomic
displacements (~ 0.08
)
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Physical properties of TiSe2:electronic structure
DFT : metal
4p-3d overlap
~ 500 meV
L
L’ ’
Fermi surface
Ti 3d Se 4p
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Physical properties of TiSe2:electronic structure
DFT : metal
4p-3d overlap
~ 500 meV
L
L’ ’
Fermi surface
Ti 3d Se 4p
simplified
model for
the bands
near EF
Se 4p Ti 3d
In the model, we keep the
topmost valence band
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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h = 21.2 eV
Fermi surface
ARPES on 1T-TiSe2 : normal phase
M
h = 100 eV
T=300 K
Se 4p Ti 3d
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h = 21.2 eV
Fermi surface
ARPES on 1T-TiSe2 : normal phase
M
h = 100 eV
T=300 K
Se 4p Ti 3d
Se 4p Ti 3d
L L’
SO splitting of
valence band
From experiment
EG < 500 meV
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Se 4p Ti 3d
ARPES on 1T-TiSe2 :
and L
h = 21.2 eV
Fermi surface
Swiss Light Source (SLS) h = 31 eV
Overlap deduced: ~ 70 meV
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ARPES on 1T-TiSe2 :
and L
h = 21.2 eV
Fermi surface
Swiss Light Source (SLS) h = 31 eV
Se 4p
Ti 3d
Below the Tc : PLD and CDW phase Overlap deduced: ~ 70 meV
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Models for the transition :
Origin of the CDW transition
Ab-initio calculations = Experiments
« Fermi surface nesting » Fermi surface topology
not compatible
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Models for the transition :
Origin of the CDW transition
Ab-initio calculations = Experiments
« Fermi surface nesting »
Jahn-Teller effect Single-electron picture
Band symmetry and degeneracy
Structural distortion
plays the major role
Fermi surface topology
not compatible
Kidd et al, PRL 86, 226402 (2002)
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Models for the transition :
Origin of the CDW transition
Ab-initio calculations = Experiments
« Fermi surface nesting »
Jahn-Teller effect Single-electron picture
Band symmetry and degeneracy
Excitonic insulator Many-body physics
Spectroscopic signatures of an excitonic insulator phase?
ARPES
Calculations
Purely electronic
Origin
Time-resolved exp
Structural distortion
plays the major role
Fermi surface topology
not compatible
Kidd et al, PRL 86, 226402 (2002)
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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Semimetal / semiconductor
indirect gap EG~0
Small carrier density EB > |EG|
The excitonic insulator
EB
Model proposed in the mid-1960s:
L.V. Keldysh and Y.V. Kopaev, Sov. Phys. Solid State 6, 2219 (1965)
D. Jérome, T.M. Rice and W. Kohn, Phys. Rev. 158, 462 (1967)
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Semimetal / semiconductor
indirect gap EG~0
Small carrier density EB > |EG|
The excitonic insulator
Instability New ground state :
EXCITONIC INSULATOR
New periodicity
EB
Model proposed in the mid-1960s:
L.V. Keldysh and Y.V. Kopaev, Sov. Phys. Solid State 6, 2219 (1965)
D. Jérome, T.M. Rice and W. Kohn, Phys. Rev. 158, 462 (1967)
~<b+a>: BCS-like order parameter
T
SEMI
METAL
SEMI
CONDUCTOR
0
EXCITONIC
INSULATOR
EB
Energy gap
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The excitonic insulator: a BCS-like model (mean field)
Valence band
Maximum at
Conduction band
Minima at w
1-electron Hamiltonian
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The excitonic insulator: a BCS-like model (mean field)
Idea : exciton = electron+hole = boson
COHERENT MACROSCOPIC STATE OF CONDENSED EXCITONS
Coulomb
electron-hole interaction
Valence band
Maximum at
Conduction band
Minima at w
1-electron Hamiltonian
C.Monney et al, PRB 79, 045116 (2009)
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Excitons condensation?
-e +e e*=0
Exciton electron + hole
insulating!
charge
resistivity decreases at LT
Coulomb
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Excitons condensation?
-e +e e*=0
Exciton electron + hole
insulating!
k k+w Q ~ w
charge
center of mass
momentum
w CDW of wavevector w
gap below EF
resistivity decreases at LT
Coulomb
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2),())())(((
)(Im
1),(Im
1),(
wpwpzpz
wpzzpGzpA
cv
cvv
Valence band spectral function (1w):
The excitonic insulator: Spectral function
to calculate photoemission intensity maps
normal phase:
or L
= 0 meV
L
K [
L]
Calculated band dispersions (3w)
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2),())())(((
)(Im
1),(Im
1),(
wpwpzpz
wpzzpGzpA
cv
cvv
Numerator gives the spectral weight
Roots of the denominator are the
renormalized dispersions
Valence band spectral function (1w):
The excitonic insulator: Spectral function
CDW phase:
and L normal phase:
or L
Calculated band dispersions (3w)
Gap opens
to calculate photoemission intensity maps
= 0 meV
L
= 100 meV
K [
L] K [
L]
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Large transfer
of spectral
weight
into backfolded
bands
No
rmal
ph
as
e
=
0 m
eV
K [
L]
The excitonic insulator: Spectral weight
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Large transfer
of spectral
weight
into backfolded
bands
Gap opens below EF at L
Due to spectral weights
and L become inequivalent
Gap opens at EF at
No
rmal
ph
as
e
=
0 m
eV
CD
W p
hase
= 1
00 m
eV
K [
L]
K [
L]
The excitonic insulator: Spectral weight
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Comparison model-experiment
ARPES Experiment EG=-70 meV
L L
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Comparison model-experiment
ARPES Experiment EG=-70 meV
H. Cercellier, C.M. et al., Phys. Rev. Lett. 99, 146403 (2007)
Large transfer of spectral weight of purely electronic origin
L L
L L
= 75 meV = 25 meV
Model calculation
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Comparison model-experiment
ARPES Experiment EG=-70 meV
H. Cercellier, C.M. et al., Phys. Rev. Lett. 99, 146403 (2007)
Large transfer of spectral weight of purely electronic origin
L L
= 75 meV = 25 meV
Model calculation
L L
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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Effects above Tc similar to those below Tc!
This points towards strong fluctuations in this quasi-2D system!
CDW phase
Fluctuations?
Tc
Ord
er P
aram
eter
What is the nature of these fluctuations (above Tc)? Do they tell us something about the origin of the CDW transition?
Tentative phase diagram
Hints for electron-hole fluctuations in ARPES
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« 1st » order perturbation theory to tackle fluctuations (above Tc):
The self-energy
(k,z) encapsulates the many-body corrections due to electron-hole interactions.
Correction to the bare dispersions: self-energy
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« 1st » order perturbation theory to tackle fluctuations (above Tc):
The self-energy
(k,z) encapsulates the many-body corrections due to electron-hole interactions.
We have calculated this type of diagram (polarization bubble):
electron-hole pairs renormalizing the GF
We focus on the Coulomb interaction between holes (valence band) and electrons (conduction band).
Correction to the bare dispersions: self-energy
V0 V0
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Bethe-Salpeter equation (BSE)
(with local potential V0)
Electron-hole correlations in the self energy
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Bethe-Salpeter equation (BSE)
(with local potential V0)
We use the function:
which obeys to (due to BSE):
T-Matrix approach, Bronold and Fehske, PRB 74, 165107 (2006)
related to the electronic susceptibility
Electron-hole correlations in the self energy
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Bethe-Salpeter equation (BSE)
(with local potential V0)
We use the function:
which obeys to (due to BSE): ...=0 for
-> instability of system due to e-h interactions!
T-Matrix approach, Bronold and Fehske, PRB 74, 165107 (2006)
related to the electronic susceptibility
Electron-hole correlations in the self energy
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Fermiology: is nesting important?
2-band system semimetal
Hole pocket (valence)
electron pocket (conduction)
?
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Fermiology: is nesting important?
2-band system semimetal
Hole pocket (valence)
electron pocket (conduction)
E
k
EF
shifted by Q
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Fermiology: is nesting important?
2-band system semimetal
Hole pocket (valence)
electron pocket (conduction)
E
k
EF
interband transition for a whole energy range!
shifted by Q
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Fermiology: is nesting important?
2-band system semimetal
Hole pocket (valence)
electron pocket (conduction)
?
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Fermiology: is nesting important?
2-band system semimetal
Hole pocket (valence)
electron pocket (conduction)
?
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Electron-hole driven instability
2-band system
kx
ky
200K
300K
V0 chosen such that Tc=200K
~ electronic susceptibility
electronic instability
!
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Electron-hole driven instability
2-band system
kx
ky
200K
300K
V0 chosen such that Tc=200K
~ electronic susceptibility
Now calculate self-energy for photoemission:
electronic instability
!
VB CB
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Effect of fluctuations on photoemission
Photoemission is proportional to the spectral function:
T=250K T=250K
2-band system
kx
ky
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Effect of fluctuations on photoemission
Photoemission is proportional to the spectral function:
T=250K T=250K
2-band system
kx
ky
Too big shift of conduction band can be compensated by chemical potential shift.
Basic effects in the experimental data are understood in the simulation, though weaker.
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Effect of fluctuations on photoemission
Photoemission is proportional to the spectral function:
E-h fluctuation effects on bands anticipate the effect of the exciton condensate!
Kind of pseudo-gap phase.
T=250K T=250K
2-band system
kx
ky
C.M. et al., PRB 85, 235150 (2012)
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Effect of the electronic instability on the lattice
CDW phase
Fluctuations
Tc
Ord
er P
aram
eter
Holt et al., PRL 86, 3799 (2001)
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Effect of the electronic instability on the lattice
CDW phase
Fluctuations
Tc
Ord
er P
aram
eter
Electron-hole instability drives the phonon softening at L Lattice distortion when
= 0
Holt et al., PRL 86, 3799 (2001)
electron-phonon coupling
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Calculated e-h self-energy explains the softening of the L-phonon mode for reasonable parameters.
Holt et al., PRL 86, 3799 (2001)
Effect of the electronic instability on the lattice
C.M. et al., NJP 14, 075026 (2012)
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From electron-hole fluctuations to the CDW phase
e-h scattering at Q=
M
M
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From electron-hole fluctuations to the CDW phase
e-h scattering at Q=
M
Tc
M
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From electron-hole fluctuations to the CDW phase
e-h scattering at Q=
M
Tc
M
Qexc = QCDW
Coulomb force: V0
CDW phase
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From electron-hole fluctuations to the CDW phase
e-h scattering at Q=
M
Tc
M
Qexc = QCDW
Coulomb force: V0
CDW phase PLD
el-ph
cou
plin
g g
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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Scanning tunneling microscopy: chiral CDW phase
Ordered distribution of STM intensity for different CDW Q-vectors -> chiral CDW phase!
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EFKM model for the chiral CDW phase
Extended Falicov-Kimball model with electron-phonon interaction (1st order) and (cubic and quartic) phonon-phonon interaction
B. Zenker, H. Fehske, C.M. et al., arXiv (2013)
Lattice DOFs essential to stabilize chiral CDW within the extended Falicov Kimball model
CDW state at low temperature with PLD. Charge order: excitonic insulator & PLD. Phase of the CDW is locked to that of the PLD. Phonon-phonon interaction (quartic term) induces 3 different phases.
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• The phase diagram of TiSe2 • ARPES data of TiSe2
• The excitonic insulator model: mean-field approach • Electron-hole instability: fluctuation phase and ARPES
• Other experiment on TiSe2: a chiral CDW phase
• Outlook
Outline
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Exciton mediated superconductivity??
„spine“: electron reservoir for superconductivity
highly polarizeable (= e-h pair excitations) molecules for mediating attractive Coulomb force (overscreening)
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The end
Thank you for your attention!