photoemission study on topological semimetals · sample als beamline 10. synchrotron based arpes...
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Photoemission Study on
Topological Semimetals
SPICE Workshop
New Paradigms in Dirac-Weyl Nanoelectronics
June 15th, 2016
Zhongkai Liu
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ARPES team
Yulin Chen, Haifeng Yang, Chen Cheng, Han Peng, Niels Schroter, Sandy Ekahana, Yiwei Li
Lexian Yang, Xiang Xu, Shucui Sun, Lei Shen, Na Qin
Zhongkai Liu, Meixiao Wang, Juan Jiang, Chengwei Wang, Guanghao Hong
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Collaborators
Laurens Molenkamp, Christopher Brune
Claudia Felser, Binghai Yan
Alexi Barinov, Moritz Hoesch, Pavel Dudin
Zhong Fang, Xi Dai
Zhongfan Liu, Hailin Peng, Takao Sasagawa
Theory: Shoucheng Zhang, Xiaoliang Qi
Experiments: Zhi-Xun Shen, Ian Fisher, Yi Cui, Aharon Kapitulnik
James Analytis
Beamlines: Sung-Kwan Mo, Zahid Hussain
Donghui Lu, Rob Moore, Makoto Hashimoto
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Outline
• Probing the electronic structure of TI with ARPES
• ARPES study on Dirac/Weyl Semimetal
• Multi Dimensional ARPES techniques
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QH Insulator
1980 2006-2013
QSH InsulatorTopological Insulator
TopologicalSemimetal
2014
Topological Quantum Materials
Topological invariant:“first Chern number”
Topological invariant:“Z2 invariant”
Topological invariant:“Chern number (of some sort?)”
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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
robustSurface state in regular insulator
vulnerable
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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
New catalysts
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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
Energy ConservationEB= hn - Ekin - F
Momentum ConservationK|| = k||+ G||
Angle Resolved Photoemission Spectroscopy (ARPES)
ARPES:k-space Microscope
Z
e-
qhn
Heinrich Hertz Albert Einstein
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𝐸𝑘 = h𝜐 − 𝑤 − 𝐸𝐵
E3
In vacuum: In crystal:
Z
e-
qhn
𝑘𝑥 =2𝑚𝑒𝐸𝑘
ħsin 𝜃 cos(𝛷) = 𝑘𝑉𝑥
𝑘𝑦 =2𝑚𝑒𝐸𝑘
ħsin 𝜃 𝑠𝑖𝑛(𝛷) = 𝑘𝑉𝑦
𝑘𝑉𝑥 =2𝑚𝑒𝐸𝑘
ħsin 𝜃 cos(𝛷)
𝑘𝑉𝑧 =2𝑚𝑒𝐸𝑘ħ
cos 𝜃E1
h𝜐1
kxky
kz
h𝜐2
h𝜐3
𝑘𝑉𝑦 =2𝑚𝑒𝐸𝑘
ħsin 𝜃 sin(𝛷)
𝑘𝑧 =2𝑚𝑒
∗
ℏ2𝐸𝑘 + 𝑉0 −
2𝑚𝑒𝐸𝑘ℏ2
sin2 𝜃 ≠ 𝑘𝑉𝑧
How to determine kz?
Photon energy dependent ARPES measurement
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3D FS(e.g. FS from bulk state)
kz
kxky
kz
kxky
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(𝑘𝑥2+ 𝑘𝑦2+ 𝑘𝑧2)
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Modern ARPES
Data acquiredExperimental setup
Experiment
Chamber
Sample
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Modern ARPES
Data acquiredExperimental setup
Experiment
Chamber
Sample
kxky
E
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Or Alternatively…
Data acquiredExperimental setup
2D Electron
analyzer
Photon
in
Experiment
Chamber
Sample
ALS Beamline 10
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Synchrotron based ARPES station
Surface Preparation
MBE Growth
ARPES Chamber
BL I05
hv range: 18~240eV ΔE=2~10meV (hv: 18~80eV)
Temperature: 6K~RT
6 axis manipulator
Beamspot 50x50 um2
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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 Bi2Te3Y. L. Chen, et. al., Science 325, 178 (2009)
Dirac fermion
Bulk band gapE2=165meV
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TRS protection – bulk dopingY. L. Chen, et. al., Science 329, 659 (2010)
In gap Dirac point of Bi2Se3
Compareto Bi2Te3
Bulk doping
Non-magnetic impurities
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Dirac fermion becomes massiveY. L. Chen, et. al., Science 329, 659 (2010)
Magneticimpurities
Braking the Dirac point
Charge tuning:Move EF into Dirac gap
Insulating massive Dirac fermion state
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Topological Dirac Semimetals
Topological Dirac Semimetal
Degeneracy point
Regular insulator
Conductionband
Valence band
Band gap reduced to zero
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Formation of 3D Topological Dirac Semimetal
Q.D.Gibson, PRB 91, 205128(2015)
Topological critical point between topological and normal insulator:• Fine tuning of chemical
composition required• Not necessarily protected by
crystal symmetry• Very sensitive to temperature,
pressure and composition homogeneity
Doping: x=a x=bx=xc
Normal insulator Topological insulator3D TDS
Extrinsic 3D TDS:
Intrinsic 3D TDS:
Normal insulator Band inversion
Node preserved: 3D TDS• The crossing bands are orthogonal
so that perturbation would not open a gap
• Crystal symmetry allows such orthogonal bands, even at the presence of SOC
Gap opening: Topological insulator• SOC helps to increase the band
inversion magnitude, at the same time, it would mix-up bands and make them non-orthogonal. So that an inversion gap usually persists
or
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Orbital hybridization
Chemicalbounding
Crystal fieldSplitting
Spin-OrbitCoupling
Orbital hybridization
Spin-OrbitCoupling
Chemicalbounding
Bi2Se3, topological insulator Na3Bi, 3D topological Dirac semimetal
Same |Jz|,Not Orthogonal
InvertedBand gapFrom p-pBand inversion
Different |Jz|,Orthogonal
Band touchingPoint preservedFrom s-pBand inversion (at some Kz)H. J. Zhang et al.,
Nature Physics 5, 438 – 442(2009)C. –X. Liu et al.,
Phys. Rev. B 82, 045122(2010)Z. J. Wang et al.,Phys. Rev. B 85, 195320(2012)
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Dirac electron systems
1D Dirac fermions
Valence band
Conduction band
Quantum spin Hall edge state
3D TI surface stateGrapheneConduction
band
Valence
band
2D Dirac fermions
Topological Dirac Semimetal
3D Dirac fermions
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3D Topological Dirac Semi-metal (TDS)
Crystal structure Brillouin Zone
Z. K. Liu. et. al., Science, 343, 864 (2014)
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Multiple BZ mapping along kz
Extracting kz dispersions
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How to identify a 3D TDS?
Identify the band structure
The 3D counterpart of graphene
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Fermi surface and Real surface
Complete 3D Fermi-surface mapping
(Courtesy of X. ChenTsinghua Univ., China)
Real surface
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Projections to (kx, ky, E) space
Fermi-surface Band dispersion
Constant energy contours
Vx = 2.75 eV•A or 4.17×105m/sVy = 2.39 eV•A or 3.63×105m/s
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Band dispersions
Projection to (ky, kz, E) space
Strong anisotropy
Vx = 2.75 eV•A or 4.17×105m/sVy = 2.39 eV•A or 3.63×105m/sVz = 0.6 eV•A or 0.95×105m/s
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Unusual hyperbolic dispersion
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kx = 2.75 eV•A or 4.17×105m/s
ky = 2.39 eV•A or 3.63×105m/s
Dispersions at different kx, ky values
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Dispersions at different kz values
kz = 0.6 eV•Aor 0.95×105m/s
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Observing the Dirac point and upper cone
In-situ K-doping
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Protection of the crystalline symmetry
Disrupted surface state but intact bulk
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The problem of Na3Bi
Too reactive in ambient environment …
Hard to handle and used in functional devices
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A stable 3D TDS, Cd3As2
Steigmann and Goodyear Acta Crystallographica Section B 24(8): 1062 (1968)
Dizzying crystal structure…
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A stable 3D TDS, Cd3As2
Z. K. Liu. et. al., Nature Materials, 13, 677 (2014)
Laue, corelevel and broad FS mapping
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A stable 3D TDS, Cd3As2
Z. K. Liu. et. al., Nature Materials, 13, 677 (2014)
Crystalstructure
BrillouinZone
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A stable 3D TDS, Cd3As2
3D Fermi-Surface
Z. K. Liu. et. al., Nature Materials, 13, 677 (2014)
Bands at different geometry
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A stable 3D TDS, Cd3As2
Projection to (Kx,ky,E)
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A stable 3D TDS, Cd3As2
Projection to (ky,kz,E)
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A stable 3D TDS, Cd3As2
Valence band
In-situ K-doping
Conduction band
Vx = 5 eV•Å or 7.55×105 m/sVy = 5.1 eV•Å or 7.7×105 m/sVz = 1.5 eV•Å or 2.27×105 m/s
Vx = 8.47 eV•Å or 1.28×106 m/s Vy = 8.56 eV•Å or 1.3 ×106 m/sVz = 2.16 eV•Å or 3.27×105 m/s
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Parameter Extraction
Fermi Velocity Comparison:Na3Bi: Vx=4.17×105m/s, Vy=3.63×105m/s, and Vz=0.95×105m/s;Cd3As2: Vx=1.28×106m/s, Vy=1.3×106m/s, and Vz=3.27×105m/s;
Mobility >4x104 cm2V−1s-1 (T. Liang et al., Nat Mater 2014)
Bi2Te3: Vsurface=4×105m/s;Graphene: VDirac=1.1×106m/s;
Mobility >1.5×104 cm2V-1s-1 (Geim, A. K. & Novoselov, K. S. Nat Mater 2007)
• Discovery of a three-dimensional Dirac Fermion in Three-dimensional Dirac semimetal Na3Bi and Cd3As2
• Stable objects, protected by topology
High mobility & large amount of bulk electrons make TDS a promising material for electronic applications.
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From Dirac to Weyl Semimetal
Topological Dirac Semimetal Topological Weyl Semimetal
Breaking Time reversal or Inversion symmetry
Dirac point Weyl point pair
Electron as Dirac Fermions Electron as Weyl Fermions:½ of the Dirac Fermion
Model Materials:Time reversal symmetry breaking: HgCr2Se4, Y2Ir2O7,XCO2Z, VCo2Ga…Inversion symmetry breaking: Ta(Nb)As(P), SrSi2…
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ARPES:B. Q. Lv, et al., Phys. Rev. X 5, 031013 (2015)B. Q. Lv, et al., Nature Physics 11, 724–727 (2015)B. Q. Lv, et al., Phys. Rev. Lett. 115, 217601 (2015)S.-Y. Xu, et al., Science 349, 613 (2015).S.-M. Huang, et al., Nature Commun. 6:7373 (2015).S.-Y. Xu, et al., Nature Physics 11, 748 (2015).S.-Y. Xu, et al., Phys. Rev. Lett. 116, 096801 (2016)
TWS in Inversion symmetry breaking transition metal monophosphide family
(BCT)
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Fermi-surface & band structures
3D Topological Weyl Semimetal TaAsL. X. Yang, et. al., Nature Physics, 11, 728 (2015)
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Rich texture of the band structure
3D Topological Weyl Semimetal TaAsL. X. Yang, et. al., Nature Physics, 11, 728 (2015)
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Surface or bulk state?
3D Topological Weyl Semimetal TaAs
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Identify the Fermi-arcs
3D Topological Weyl Semimetal TaAs
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Other Method to identify Fermi-arcs?
3D Topological Weyl Semimetal TaAsL. X. Yang, et. al., Nature Physics, 11, 728 (2015)
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Fermi-crossings from two closed loops
3D Topological Weyl Semimetal TaAsL. X. Yang, et. al., Nature Physics, 11, 728 (2015)
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Dispersions along kz direction
3D Topological Weyl Semimetal TaAs
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Bulk dispersions near the Weyl points
3D Topological Weyl Semimetal TaAs
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3D Topological Weyl Semimetal TaAs
Bulk dispersions near the Weyl points
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Evolution of band structure of different compounds
Fermiology Evolution of Weyl Semimetals
WP+WP+
WP+
WP+WP+
WP+
Increasing SOC
NbP TaP TaAs
Z. K. Liu, et. al., Nature Materials, 15, 27 (2016)
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Rich texture of the band structure of TaP
Z. K. Liu, et. al., Nature Materials, 15, 27 (2016)
Fermiology Evolution of Weyl Semimetals
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Rich texture of the band structure of NbP
Fermiology Evolution of Weyl SemimetalsZ. K. Liu, et. al., Nature Materials, 15, 27 (2016)
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Evolution of band structures with SOC
SOC
incr
eas
ing
Fermiology Evolution of Weyl SemimetalsZ. K. Liu, et. al., Nature Materials, 15, 27 (2016)
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Evolution of band structures with SOC
SOC
incr
eas
ing
Fermiology Evolution of Weyl SemimetalsZ. K. Liu, et. al., Nature Materials, 15, 27 (2016)
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MoTe2, a candidate for type II Weyl Fermion
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MoTe2, electronic structure
SS
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Identification of the SS
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MoTe2,Signature of the Fermi Arc feature
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Multi-dimension ARPES technique
ARPES Spatial Resolved
ARPES
Spin Resolved
ARPES
Time Resolved
ARPES
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Spatial Resolved Photoemission (NanoARPES)
A. Bostwick et al., Synchrotron radiation news, Vol. 25, No. 5, 2012
H. T. Yuan, et al., submitted
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Spin Resolved Photoemission (SpinARPES)
D. Hsieh et al., Nature 460, 1101-1105 (2009)
0D, Mott Detector
2D, Multi-channel exchange scattering
C. Jozwiak, et. al., Phys. Rev. B. 84, 165113 (2011)
1D, Exchange scattering
F. Ji et al., Phys. Rev. Lett. 116, 177601 (2016)
2D, PEEM+VLEEDC. Tusche, et al., Ultramicroscopy, 159, 520 (2015)
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Time Resolved Photoemission
J. A. Sobota et al. ,Phys. Rev. Lett. 108, 117403 (2012)
Ultrafast Dynamics of the Surface States in Bi2Se3
Floquent Surface States in Bi2Se3
F. Mahmood et al.,Nature Physics 12, 306–310 (2016)
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ShanghaiTech University
• Located in Pudong, Shanghai• 30 mins from Pudong
International Airport• 2 kms away from Shanghai
Synchrotron• At the heart of national
science facilities
• Founded by the Shanghai Government and Chinese Academy of Science in 2013
• Small Scale, Research Oriented University
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ME2 BLLocal Clusters, Super Comp. Center
S2 BLS-XFEL
SSILS
Lei Shi
SSILSS2 BL
S-XFEL
王美晓 姜甲明 宋艳汝
+ 6 Adj. Prof.
+ 1 Adj. Prof.
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ME2beamline(SIMIT, SSRF)
S2 beamline(SSRF)
Shanghai - FELSSILS
ME2 (Materials for Energy and Environment) beamline project
at SSRF
S2 beamline (Spatially and Spin resolved ARPES beamline) at
SSRF
Shanghai Super Intense Laser Source (SSILS) at ShanghaiTech
University
S-XFEL User Facility Upgrade
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Thank you and Welcome to Shanghai