Chiral edge states in topological insulators and superconductors · 2018-11-29 · Pascal SIMON,...
Transcript of Chiral edge states in topological insulators and superconductors · 2018-11-29 · Pascal SIMON,...
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Pascal SIMON,University Paris Sud, Orsay
Chiral edge states in topological insulators andsuperconductors
Chiral modes in optics and electronics of 2D systems ‐ Aussois 26‐28/11/18
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Outline
0) Preliminaries of (topological) band theory
I) Integer quantum Hall effect
II) The anomalous quantum Hall effect
IV) 2D chiral topological superconductors
III) A brief incursion into 2D topological insulators
V) How about 3D ?
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Preliminaries of (topological) band theory
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Elements of Traditional Band TheoryNon-interacting electrons moving in a perfectly periodic array of atoms
• Electron Hamiltonian commutes with lattice translations
H, T 0+ , isaninteger
Crystal momentum k is conservedT | · |Lattice translationSymmetry
• The wave vector k is defined modulo the reciprocal lattice vector (reciprocal lattice is the Fourier transform of the real-space lattice)
~
• The wave-vector k “lives” on a d-dimensional torus
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Elements of Traditional Band TheoryNon-interacting electrons moving in a perfectly periodic array of atoms
• Electron Hamiltonian commutes with lattice translations
H, T 0+ , isaninteger
Crystal momentum k is conservedT | · |Lattice translationSymmetry
| · |of period of a
Bloch thm:
Bloch Hamiltonian:
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• Bloch theorem and band structure:
Insulators and metals
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Quantum topological equivalence
• How to define topological invariants for quantum states of matter?
• We need a notion of topological equivalence of quantum states.
• The notion of quantum topological equivalence follows from adiabatic continuity
If we can adiabatically deform | into | ′ , then | ~| ′
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Band topological equivalence
• How to define topological invariants for quantum states of matter?
• We need a notion of topological equivalence of quantum states.
Topological Equivalence : adiabatic continuityBand structures are equivalent if they can be continuously deformed into one another without closing the energy gap
Insulator I Insulator II
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I) The integer Quantum Hall effect
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Classical Hall effect (1879)
Classical equation of motion
Conductivity tensorDrude Conductivity
Resistivity tensor
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Quantum Hall effect (1980)
K. v. Klitzing, G. Dorda, and M. Pepper, PRL 45, 494 (1980)
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Quantum Hall effect
K. v. Klitzing, G. Dorda, and M. Pepper, PRL 45, 494 (1980)
- Quantization of the Hall resistance at low temperature :
Quantum of resistance; UNIVERSAL constant
Results independent of geometrical and microscopic details
Used as a metrological unit : help to redefine the unit of mass !
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Quantum Hall effect
K. v. Klitzing, G. Dorda, and M. Pepper, PRL 45, 494 (1980)
Quantum Hall conductivity changes by plateaus.
Each plateau is perfectly quantized by an integer number in unit of e2/h
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Semi-classical picture
x
y
Electron in an orbital magnetic field :
Landau levels
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Why such perfect robustness & quantization ?
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Semi-classical picture
x
y
y
V(y)
Edge states= skipping orbits
Landau levels with a bulk gap and (protected) edge states
- Landau levels (LLs) bend near sample edge.
- The Fermi level intersects LLs at the edge.
- Nb of edge states at the Fermi level= Nb of occupied bulk LLs
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The edges’ viewpoint: Robustness of n
Robustness against backscattering
- Electrons on same edge move along the same direction.
- Electrons on opposite edges move along the opposite directions.
Chirality = Consequence of time reversal symmetry breaking
- chiral edge state cannot be localized by disorder (no backscattering)
- edge states are therefore perfect charge conductors
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The bulk point of view
The quantum Hall effect: a topological property?
Alternative description: n is a bulk topological invariant
Distinction between the integer quantum Hall state and a conventional insulatoris a topological property of the band structure
Kubo formula :
Thouless et al., PRL 49, 405 (1982)
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Example of a topological invariant
0
Can we tell by local measurements whether we are living on the surface of a sphere or a torus?
1
Gaussian curvature,
Topological invariant = quantity that does not change under continuous deformation
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Berry connection & curvature
Berry connection:
Berry phase :
Berry curvature
Stokes thm :
For a given band, we can introduce :
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Chern theorem
Stokes thm applied to A:
Stokes applied to B:
Subtract:
Chern Theorem:
Berry curvature
with C
C = First Chern number
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Application of Chern theorem
Let us apply this result to the Brillouin zone
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Application of Chern theorem
Let us apply this result to the Brillouin zone
Anomalous Hall conductivity:
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Topological phase transition
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Bulk-edge correspondence
TopologicalPhase 1
TopologicalPhase 2
Something special at the boundary
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Bulk-edge correspondence
TopologicalPhase 2
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Bulk-edge correspondence
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Bulk-edge correspondence
Two materials described by different topological invariants C1 and C2placed in contact emergence of |C1 - C2 | gapless edge modes
Topological invariant C1Topological invariant C2
|C1 - C2 | gapless edge modes
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Chiral edges states in the QHE
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II) The anomalous quantum Hall effect
or the 2D Chern insulator
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Anomalous Hall effect (1881)
Measure of Hall conductivity in absence of a magnetic field
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Quantum anomalous Hall effect (2013 ?)
Anomalous Hall conductivity:
Like integer quantum Hall effect, but no Bext
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Quantum anomalous Hall effect (2013 ?)
C.‐Z. Zhang et al., Science 340, 167 (2013)
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Edge states: 2D QAH insulator
C = +1
Existence of a chiral edge state without magnetic field !
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Edge states: 2D QAH insulator
A. J. Bestwick et al., PRL 114, 187201 (2015)
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Proof of principle: the Haldane model
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Graphene
One orbital per site
Two atoms per unit cell (A and B)
Spinless
Band structure near Dirac conesA/B sublattice
Emergence of massless Dirac fermions at low energies:
KK’=-K K / K’ valley
Momentum measured from Dirac node
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Symmetries of graphene
• Inversion symmetry A sublattice B sublattice
• Time reversal symmetry:
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Making graphene insulating
Need to break either time-reversal symmetry or inversion symmetry
(i) Break inversion symmetry
Semenoff insulator (1984)
(ii) Break time-reversal symmetry
Haldane insulator (1988)= Quantum spin Hall insulator= Chern insulator
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Proof of principle: the Haldane model
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Topological characterization
i) Compute the eigenvectors, Berry connection, Berry phase and Chern number.
Spectrum flattening
ii) Look at d(k)
Two strategies:
Mapping:
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Topological characterization
Spectrum flattening
ii) Look at d(k)
i) Compute the eigenvectors, Berry connection, Berry phase and Chern number.
Spectrum flattening
Two strategies:
Trivial insulator:
Semenoffinsulator Haldane
insulator
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Topological characterization
ii) Look at d(k)
i) Compute the eigenvectors, Berry connection, Berry phase and Chern number.
Spectrum flattening
Two strategies:
Chern number:
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M/t2
Phase diagram of the Haldane model
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Bulk-boundary correspondence:Application to the Haldane model
K
K
‐K
‐K
0
0
0
0
trivialinsulator (x>0)
topological insulator (x<0)
Domain wallalong the x-axis
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Dispersing Jackiw-Rebbi-like edge modes
0
0
ky conserved
Fixing maps the problem on the 1D Jackiw-Rebbi model, with the edge mode
| | | ′ | where
| | CHIRAL STATE
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Properties of the chiral edge mode
| | | ′ |
Conducting chiral edge
• The chiral mode can not be stopped by any obstacle or edge disorder.• Normally, any 1D system localizes at low temperature (Anderson insulator). The
chiral edge is protected from localization.• Such a 1D mode can not appear in a pure 1D system, only at a boundary of a higher-
dimensional system.• The chiral edge carries the quantized Hall conductivity (IQHE). σ xy=j x/E y= n e2/h
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III) A brief incursion into
2D topological insulatorsOr
The 2D spin quantum Hall insulator
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Destroying Dirac points in spinfull graphene
v ⨂τ ⨂σ q ⨂ ⨂σ q + VGraphene Hamiltonian with spin & valley indices restored
Spin Valleys (K & K’) Sublattices (A & B) gap‐opening perturbation
1. Inversion (P-) breaking perturbation (trivial insulator, e.g. Boron nitride)
2. T-reversal breaking perturbation (Chern insulator, e.g. Haldane model)
3. Symmetry preserving perturbation (topological insulator, Kane-Mele model)
⨂ ⨂
⨂ ̂ ⨂
⨂ ̂ ⨂
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The Kane-Mele model
Kane-Mele model = Haldane model
spin up
0 0
K’ K
spin down
0 0
K’ K
00 ∗
E=0
Spin-Hall conductivity:
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Can the degeneracy be lifted?
## ∗
• Other spin‐orbit couplings are possible (e.g., Rashba), which introduce off‐diagonal terms and break spin conservation (no notion of spin up or down exists)
00 ∗
E=0?
• Can the generic spin‐orbit perturbation lift the degeneracy?
NO!
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E=0
The degeneracy is protected by T-reversal symmetry
• Time‐reversal operator = spin‐rotation and complex conjugation
↑↓
↑↓
∗↓∗
↑∗ , 1
• Time‐reversal symmetry implies , =0
• This guarantees double‐degeneracy of the spectrum
• Hence, the must be (at least) 2 distinct, degenerate states with energy E connected by ‐reversal (Kramers doublet).
• We can’t remove degeneracy at E=0, as long as perturbation does not break ‐reversal!
A (non-Chern) topological invariant is responsible for this robustness
This is the Z2 invariant
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1D Helical edges statesBulk energy gap, but gapless edge states
“Spin Filtered” or “helical” edge states Edge band structure
Edge states form a unique 1D electronic conductor • HALF an ordinary 1D electron gas
• Protected by Time Reversal Symmetry
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Conductance in HgTe/ CdTe heterojunctions
Konig et al. Science 2007
See also Multiterminal conductance probes (Roth et al., Science 325, 294 (2009))Spin polarization of the quantum spin Hall edge states (Brune et al.,Nature Physics 8, 486 (2012))See also quantum spin Hall effect in WTe2, S. Wu et al., Science 359, 76 (2018)
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IV) 2D chiral topological superconductors