Aps tutorial 2011_yulin_chen
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Direct Probing the Electronic Structures of
Topological Insulators
Yulin Chen SLAC National Accelerator Laboratory
Stanford University
APS March Meeting Tutorial 20 March 2011
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Condensed matter physics Understand the collective properties of assemblies of particles
Conductor Insulator Semi-conductor
…
Superconductor
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Electronic structures
Insulator Conductor
Kx
Ky
E
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An Insulator that conducts
What is a topological insulator (TI)
3D real space Band structure
In gap 2D surface state
Conduction
band
Valence
band
Band structure
In gap 1D surface state
Valence band
Conduction band
2D real space
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Why “topological”
Sphere Torus
Regular insulator Topological insulator
Topologically distinct objects
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No back-scattering rule (by non-magnetic impurities)
“Locking” between current & spin
Unique surface state properties of TIs
Robustness of the topological surface state
Surface state in topological insulator
robust Surface state in regular insulator
vulnerable
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(Wilczek, 1987)
(Qi, et. al., 2009)
(Qi, Hughes & Zhang, 2008)
Majorana Fermion
Akhmerov, Nilsson, & Beenakker, 2009
Scientific implications
Image magnetic monopole from a source charge
Half charge on a magnetic domain wall
Axion electrodynamics
……
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Application potentials
Electronics more efficient (Longer functional time)
Spintronics without magnet (Faster & less consumption)
Quantum Computation
……
Higher density integrated circuit
Thermoelectric generators
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Theory: Kane, Fu, Zhang, Qi, Moore, Roy, Nagosa, Franz, Lee, Dai, Fang, …
Materials: Molenkamp, Cava, Fisher, Cui, Lee, Ando…
Transport: Molenkamp, Ong, Fisher, Cui, Ando, Morpurgo, Jarillo-Herrero…
ARPES: Hasan, Hsieh, Shen, Chen, Xue, Taniguchi Boresenko, Nuh Gedik…
STM: Yazdani, Kapitulnik, Xue, Hanaguri, Manoharan…
Optical: Basov, Paglione …
Intensive research activities
World wide effort:
ARPES
Transport STM/STS
Optical Spectroscopy
Theory Development
Material Development
…
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How to find TIs Search for the unique band structure
Topological insulator
Regular conductor
Regular insulator
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How to “see” band structures Angle Resolved Photoemission Spectroscopy (ARPES)
Z
e-
q hn
Heinrich Hertz Albert Einstein
ARPES: k-space Microscope
Energy Conservation EB= hn - Ekin - F
Momentum Conservation K|| = k||+ G||
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General principle
𝐼𝑃𝐸𝑆 ∝ 𝐹(𝑇) ∙ 𝛿(𝐸𝑓−𝐸𝑖−ℏ𝜔) ∙ | 𝝍𝒇, 𝑵𝑯𝒊𝒏𝒕 𝝍𝒊, 𝑵
|𝟐
𝐹(𝑇) ∙ | 𝝓𝒇,𝑬𝒌 𝑯𝒊𝒏𝒕 𝝓𝒊,𝒌 |2 𝝍𝒇𝒌𝑺(𝑵−𝟏)|𝝍𝒊
𝒌 (𝑵−𝟏) |2
𝑆 𝛿(𝐸𝑓,𝐸𝑘+𝐸𝑆(𝑁−1)−𝐸𝑖−ℏ𝜔)
+ (Suddent approximation)
|𝜓𝑖, 𝑁 = |𝜙𝑖,𝑘 |𝜓𝑖𝑘(𝑁−1)
|𝜓𝑓, 𝑁 = |𝜙𝑓,𝐸𝑘 |𝜓𝑓𝑘(𝑁−1)
+
𝐹(𝑇) ∙ 𝛿(𝐸𝑓−𝐸𝑖−ℏ𝜔) ∙ | 𝝓𝒇,𝑬𝒌𝑯𝒊𝒏𝒕 𝝓𝒊,𝒌 𝝍𝒇
𝒌(𝑵−𝟏)|𝝍𝒊
𝒌(𝑵−𝟏) |2 =
Interacting system
E
k
EF
One electron state
Remaining N-1 Electron state
Band dispersion Non-interacting system
E
k
E
k
EF EF
ARPES Spectra Electron band
𝐹(𝑇) ∙ 𝛿(𝐸𝑓−𝐸𝑖−ℏ𝜔) ∙ | 𝝓𝒇,𝑬𝒌𝑯𝒊𝒏𝒕 𝝓𝒊,𝒌 |2
= (Non-interacting system)
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3D FS (e.g. FS from bulk state)
kz
kx ky
kz
kx ky
2D FS (e.g. FS from surface state)
How to discriminate bulk & surface?
E1
E2
E3
kx
ky
E1
E2
E3
E1
E2
E3
kx
ky
E1
E2
E3
Ek =ℏ2
2𝑚(𝑘𝑥
2 + 𝑘𝑦2 + 𝑘𝑧
2)
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ARPES Analyzer
Electrostatic hemispherical analyzer
Entrance slit
Pre-lens
Photon beam
X-ray tube Gas discharge lamp Synchrotron Laser
kx
ky
E
E(e
V)
Kx(1/Å)
EF
Band dispersion cut
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Synchrotron based ARPES station
2D Electron
analyzer
Photon
in
Experiment
Chamber
Sample
ALS Bemline 10
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Modern ARPES data taking
Data acquired Experimental setup
2D Electron
analyzer
Photon
in
Experiment
Chamber
Sample
ALS Bemline 10
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ARPES on TI Princeton
Stanford
International efforts
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Bulk band structure
Realization of TI state in Bi2Te3 Y. L. Chen, et. al., Science 325, 178 (2009)
Crystal Structure Bulk Fermi surface
(n-type)
TI Checklist: 1. There exist Dirac surface states 2. There are odd number of Dirac fermions in a Brillouin Zone
EF
3. The EF is in the gap
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0 0.2 -0.2
k y(1
/Å)
0
0.2
-0.2
0
0.2
-0.2
0
0.2
-0.2
Dirac Fermion’s Surface nature
0 0.2 -0.2
Realization of TI state in Bi2Te3
Dirac fermion
TI Checklist: 1. There exist Dirac surface states 2. There are odd number of Dirac fermions in a Brillouin Zone 3. The EF is in the gap
Bulk band gap E2=165meV
Y. L. Chen, et. al., Science 325, 178 (2009)
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TI Checklist: 1. There exist Dirac surface states 2. There are odd number of Dirac fermions in a Brillouin Zone 3. The EF is in the gap
Single Dirac fermion in each BZ
Realization of TI state in Bi2Te3
Evolution of the Band
Y. L. Chen, et. al., Science 325, 178 (2009)
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TI Checklist: 1. There exist Dirac surface states 2. There are odd number of Dirac fermions in a Brillouin Zone 3. The EF is in the gap
Realization of TI state in Bi2Te3
EF(undoped) BCB bottom
Dirac point position
BVB top
Fermi- Surface
Band Dispersion
Gap Gap Gap Gap
Different charge doping
Y. L. Chen, et. al., Science 325, 178 (2009)
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Other single Dirac cone TIs
TlBiSe2
K. Kuroda, et.al., PRL (2010) T. Sato, et.al., PRL (2010) Y. L. Chen, et.al., PRL (2010)
Bi2Se3
Y. Zhang, et.al., Nat. Phys. (2010) Y.L. Chen, et.al., Science (2010) Y. Xia, et.al., Nat. Phys. (2009)
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Protection of the time reversal symmetry (TRS)
Massless Dirac fermion is protected by time reversal symmetry (Kramers’ theorem)
Non-magnetic bulk & surface doing
Dirac point
kx
ky
E
ky kx
ky
E
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TRS protection – bulk doping Y. L. Chen, et. al., Science 329, 659 (2010)
In gap Dirac point of Bi2Se3
Compare to Bi2Te3
Bulk doping
Non-magnetic impurities
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Oxygen Hydrogen Carbon monoxide Carbon dioxide Potassium
… Surface doping
(i) (ii) (iii) (iv) (v)
Photo assisted surface Oxygen doping
TRS protection – surface doping Y. L. Chen, et. al., Science 329, 659 (2010)
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Another example
NO2
Surface adsorption
D. Hsieh, et.al., Nature (2009)
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What if TRS is broken?
Formation of massive Dirac fermion if TRS is broken
kx
ky
E
ky kx
ky
E
+
Magnetic doing
Dirac Gap
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Dirac fermion becomes massive
Magnetic impurities
Braking the Dirac point
Summary of different doping effects
(Bi1-dFed)2Se3
Y. L. Chen, et. al., Science 329, 659 (2010)
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Another example
Fe Surface deposition
A. Wray, et.al., Nat. Phys. (2011)
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Realize insulating massive Dirac fermion state
Magnetic impurity
+ EF Tuning
Realize new phenomena Provide control for applications
I/M
TI
Why insulating massive Dirac fermion state?
Image Surface Monopole
Half Hall conductance sH=e2/2h
Turn off surface conduction
All electric magnetic writing
2D quantum anomalous Hall state
Quantum spin Hall
Quantum anomalous Hall
Y. L. Chen, et. al., Science 329, 659 (2010)
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New topological states Search for topological superconductors
Some candidates
CuxBi2Se3 , PdxBi2Te3 TlBiTe2
Hor, et. al., (2010) Fu, Berg, (2010)
Wray, et.al., (2010)
Cu/Pd Bi Se
Bi2Se3
Bi2Se3
(Cu/Pd)x
(Cu/Pd)x
(Cu/Pd)x
Hein/Swiggard, (1970) Yan, et. al., (2010)
Chen, et. al., (2010)
Majorana fermion
Quantum computation
Fu, Kane (2008) Hasan, Kane (2010)
Qi, Zhang (2010)
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A candidate for topological superconductors
Band structure of TlBiTe2
Y. L. Chen et. al., Phys. Rev. Lett. 105, 266401 (2010)
Hein & Swiggard Phys. Rev. Lett. 24, 53 (1970)
Superconducting transition
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A candidate for topological superconductors Y. L. Chen et. al., Phys. Rev. Lett. 105, 266401 (2010)
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Part I: Summary
Electronic structures of Bi2Te3/Bi2Se3 and TlBiSe2/TlBiTe2 families show a
single Dirac cone on the surface
EF can be tuned into the bulk gap upon proper doping; and both p- & n-
dopings can be achieved for possible applications
The topological surface state is robust against impurities when the TRS is
present
Dirac fermions become massive when TRS is broken
Unusual band structure of TlBiTe2 makes it a possible candidate for
topological superconductor
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Advanced instrumentation development Future of photoemission spectroscopy
Lower sample temperature (~ 1K)
Improve energy reso lut ion (~ 100meV)
Improve s ignal intensi ty (Brighter l ight source)
f(k,E,s,t)
Spin-resolution Time-resolution
t1 t2 t3
T = 0
Explore new dimensions
More efficient data taking (2D->3D)
Prototype 3D time-of-flight analyzer
(Developed in LBNL)
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Explore electron spin
Charge “e”
Spin “S” f(k,E,s)
Spin Energy
Momentum
Heavy nuclei target
e-counter
e-
e- +
Mott scattering
e-
Analyzer Entrance Slit
Analyzer Exit Slit
Mott-detector
hn
Data dimension: 0D Relative efficiency: 10-4
(Compared to regular ARPES)
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Spin-resolved electronic structure
D. Hsieh, et. al., Nature 460, 1101 (2009)
ARPES Spin-ARPES
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Regular ARPES 3D structure
Spin-ARPES 1D structure
Y. L. Chen, Ph.D Thesis 2008
D. Hsieh, et. al., Science 323, 919 (2009)
Sb
Y. L. Chen, et. al., PRL 105 266401 (2010)
Souma, et. al., arxiv.org/abs/1101.3421 (2011)
TlBiSe2
Y. L. Chen, et. al., Science 325, 178 (2009)
D. Hsieh, et. al., Nature 460, 1101 (2009)
Bi2Te3
Spin-resolved electronic structure
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Mott Scattering Exchange Scattering
Heavy nuclei target
e-counter
Magnetic thin film
e-
e-
e-
e-
e-counter
Electron energy: 20~100keV
Electron energy: 2~5eV
Lower Efficiency (10-4) Higher Efficiency
( 1~2 order higher than Mott detector)
More efficient spin-detection is needed
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Even more degrees of freedom can be explored
Study on the dynamics of electrons f(k,E,s,t)
Pump Pulse
Probe Pulse
Photoelectron
Sample
Data collection & analysis
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An example of time-resolved ARPES
Time-resolution Bi2Te3
Figures courtesy of J. Sobota
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What’s next?
New TIs with richer properties
Larger bulk gap, better chemical, physical & electronic properties
Correlated TI systems
Topological Quantum materials
Thin film and nano-scale Topological quantum materials Topological phenomena in low dimension
Better control on properties
Novel topological quantum phases Topological superconductors
Quantum anomalous Hall insulator
Novel topological functional devices, or “topotronics”
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ALS BL 10.0.1 (S-K Mo, M. Hashimoto, Z. Hussain)
CAS: X. Dai, Z. Fang
DOE: Funding support
Shen group (Z-X Shen, Z.K. Liu & whole group)
Fisher group (I. R. Fisher, J. Analytis, J-H Chu)
Zhang group (S.C. Zhang, H.J. Zhang, B.H. Yan)
X. L. Qi
BL 5-4 (D.H. Lu, R. Moore)
TIT: T. Sasagawa
Acknowledgement
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Thank you!
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H. Peng, et. al., Nat. Mat. 9, 225 (2010)
ARPES results supported by transport
A-B effect