TOPOLOGICAL INSULATORS AND DIRAC - unizg.hr · TOPOLOGICAL INSULATORS •Examples of TI and...
Transcript of TOPOLOGICAL INSULATORS AND DIRAC - unizg.hr · TOPOLOGICAL INSULATORS •Examples of TI and...
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TOPOLOGICAL INSULATORS AND DIRAC SEMIMETALS – SYNTHESIS AND
CHARACTERIZATION
Filip OrbanićFaculty of science, Department
of phyisics, Zagreb
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OVERVIEW
• What are topological insulators and Dirac semimetals?
• Quantum transport and magnetic properties (quantum oscillations).
• Synthesis
• Some concrete materials and measurements.
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TOPOLOGICAL INSULATORS (TI)
Topological insulator(TI)
• Closing of the energy gap at the boundary of topological and normal insulator (vacuum)
conductive edge/surface
Quantum state characterized by
topological invariant (nontrivial).
There is an energy gap.
Defined over the wave functions (that give the energy gap)
Invariant under adiabatic change of Hamiltonian.
The same as long as there is a gap!
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TOPOLOGICAL INSULATORS• Examples of TI and topological invariant ?
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Quantum Hall effect
Nnh
enxy ,
2
Edge states
n topological invariant
(Chern number or TKNN)
TRS, 2D
Z2 TI (TRS & IS)
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1 1
2 )()1( :2Di
N
n
in
parity
1,0 Z2 topological invariant
Nontrivial topological invariant if there is an band
inversion at some 𝜆 !
3210 ,,, :3D
12 Time reversal operator:
Topological crystalline insulator
𝜈 = 0, topological invariant is not
determined by TRS but with crystal
simmetries (mirror symmetry).
12 M
SOC – spin orbit coupling
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TOPOLOGICAL INSULATORS
• Edge/surface states properties.
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Dirac dispersion in low-energy excitations high mobility!
Spin-momentum locking forbidden backscattering!
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DIRAC SEMIMETALS
Dirac semimetal
• Dirac dispersion in 3D!
• 2D – graphene: 𝐻 𝑘 = 𝑣 𝑘𝑥𝜎𝑥 + 𝑘𝑦𝜎𝑦
• 3D: 𝐻 𝑘 = 𝑣𝑖𝑗𝑘𝑖𝜎𝑗 , 𝑗 = 𝑥, 𝑦, 𝑧
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Valence and conduction band touching in
discrete points.
Dirac dispersion in
the touch points.
Robust against perturbations!
SOC ~ 𝜎𝑧 opens the gap.
Downloaded from
Phys. Rev. Lett. 113,
027603 (2014)
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DIRAC SEMIMETALS
• Dirac semimetals come in two topological clasces too.
• Consequence of topological phase transition NI – TI.
• Intrinsic as a result of additional symmetries (rotational symmetry).
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Downloaded from Nat.
Comm. 5, 4896 (2014).
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TOPOLOGICAL INSULATORS & DIRAC SEMIMETALS
• Topological insulators 2D Dirac dispersion.
• Dirac semimetals 3D Dirac dispersion.
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Possibility for investigating Dirac’s fermion physics!
Evidence of Dirac fermions?
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QUANTUM OSCILLATIONS
• Electrons in strong B-field Landau levels.
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m
kNE z
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1 22
For Dirac dispersion 𝐸±(𝑘) = ±𝑣𝑓𝑘for 𝐸 𝑘 =
ℏ2𝑘2
2𝑚
Downloaded from J. Phy. Soc. Jap. 82, 102001
(2013).
Periodic behavior of DOS.
Oscillations of physical quantities in 1/B!
𝑀 de Haas van Alphen oscillations.
𝜎 Shubnikov de Haas oscillations.
NcBveNE f )/2()( 2
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QUANTUM OSCILLATIONS
• de Haas van Alphen and Shubnikov de Haas oscillations (for 3D)
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8
1
2
12cos
8
1
2
12sin
B
FRRAR
B
FRRARM
sDTxx
sDT
02cos
sinh
m
mgR
eR
B
TB
T
R
S
B
T
D
T
D
1
0
69.14 TKm
m
2
2Fk
eF
Informations about
carrier density and
Fermi surface snape.
Effective mass
2𝜋𝛽 = 𝛾 Berry phase!
)()( kkkdi kC
For Dirac fermions
𝛾 = 𝜋
B
Dk
T2
Quantum scattering time
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SYNTHESIS
• Aim: high quality monocrystal samples.
• The fewer impurities and defects minimize the influence of bulk states and increase mobility.
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Sealing the quartz
tube.
Material in vacuum
seald quartz ampoule
(vacuum ~10−6 𝑚𝑏𝑎𝑟)
High vacuum in ampoule
• clean atmosphere
• volatile elements
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SYNTHESIS
• Modified Bridgman method.
• (Chemical) vapor deposition.
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Temperature gradient is achieved by two-zone tube furnaces.
Synthesis parameters:
temperature, gradient, heating/cooling rate, growth time,
amount and shape of material, ampoule dimensions.
Optimization of parameters!
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SYNTHESIS
• Results of synthesis:
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BiSbTeSe2 PbSnSe
SnTe
Cd3As2
TaP
5 mm
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SAMPLE PREPARATION
• For transport measurements good contacts are crucial (~ Ω).
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Spot welding
1mm
Samples of Cd3As2 with contacts.
1mm
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• Pb1-xSnxSe is a topological crystalline insulator for x > 0.23.
• Known for ages energy gap depends on the T and x.
Topological phase transition with T or x.
• What happens at the transition point? (𝑥 ≈ 0.18)
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Downloaded from Phys. Rev. 157,
608-611 (1967)
𝑥 = 0.17, 0.18
PbSnSe
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• Magnetization (SQUID) and magnetoresistance measurements in Pb0.82Sn0.18Se.
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PbSnSe
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• By subtracting the background we get a pure oscillatory part.
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Zeeman splitting of
Landau levels.
PbSnSe
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• How to get physical values from quantum oscillations?
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8
1
2
12cos
8
1
2
12sin
B
FRRAR
B
FRRARM
sDTxx
sDT
B
T
D
T
D
eR
B
TB
T
R
sinh
2
12
8
1
2
12 N
B
F
PbSnSe
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• Cd3As2 is an intrinsic (nontrivial) Dirac semimetal.
• Very stable material, except toxicity ideal for application and experiment.
• High mobility ~106𝑐𝑚2𝑉−1𝑠−1.
• A pair of Dirac points in the direction of rotational symmetry axis (kz).
• Anisotropy of Fermi surface?
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Downloaded from Phys. Rev.
Lett. 113, 027603 (2014)
Downloaded from Phys. Rev. Lett. 113, 027603 (2014).
Different frequencies for different
direction of magnetic field.
Cd3As2
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• Magnetization and magnetoresistance are measured.
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Superposition of frequencies.
F = 60 T
B in ab plane.
B perpendicular to ab plane.Cd3As2
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OTHER MATERIALS
• Other materials we have succsesfully synthesized:
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Succsesfully observed quantum oscillations.
TaP Weyl semimetal candidate. BiSbTe2S topological insulator.
Typical semiconducting
behavior
Metallic behavior
because off surface
states.
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CONCLUSION
• Topological insulators.
• symmetry protected surface states spin locking and robustness at nonmagnetic impurities.
• Dirac semimetals.
• 3D analogue of graphene. Symmetry protected Dirac points.
• The idea is to synthesize (determination of synthesis parameters) and characterize the obtained materials.
• Examine the consequences of the Dirac nature of cariers in magnetization and transport.
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An insight into the physics of Dirac ’s fermions.