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- abstract: Motivated by recent developments in the field of one-dimensional topological
superconductors, we investigate the topological properties of s-matrix of generic
superconducting junctions where dimension should not play any role. We argue that
for a finite junction the s-matrix is always topologically trivial. We resolve
an apparent contradiction with the previous results by taking into account the
low-energy resonant poles of s-matrix. Thus no common topological transition occur
in a finite junction. We reveal a transition of a different kind that concerns
the configuration of the resonant poles.
authors:
- D. I. Pikulin
- Yuli V. Nazarov
doi: 10.1134/S0021364011210090
id: '1103.0780'
journal: Jetp Lett.
journal_url: http://dx.doi.org/10.1134/s0021364011210090
on_arxiv: 2011-03-03
page: '693'
published: 2012-01-01
title: Topological properties of superconducting junctions
vol: '94'
- abstract: The phase-dependent bound states (Andreev levels) of a Josephson junction
can cross at the Fermi level, if the superconducting ground state switches between
even and odd fermion parity. The level crossing is topologically protected, in
the absence of time-reversal and spin-rotation symmetry, irrespective of whether
the superconductor itself is topologically trivial or not. We develop a statistical
theory of these topological transitions in an N-mode quantum-dot Josephson junction,
by associating the Andreev level crossings with the real eigenvalues of a random
non-Hermitian matrix. The number of topological transitions in a 2pi phase interval
scales as sqrt(N) and their spacing distribution is a hybrid of the Wigner and
Poisson distributions of random-matrix theory.
authors:
- C. W. J. Beenakker
- J. M. Edge
- J. P. Dahlhaus
- D. I. Pikulin
- Shuo Mi
- M. Wimmer
doi: 10.1103/PhysRevLett.111.037001
id: '1305.2924'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.111.037001
on_arxiv: 2013-05-13
page: '037001'
published: 2013-07-17
title: Wigner-Poisson statistics of topological transitions in a Josephson junction
vol: '111'
- abstract: Semiconducting nanowires in proximity to superconductors are promising
experimental systems for Majorana fermions, which may ultimately be used as building
blocks for topological quantum computers. A serious challenge in the experimental
realization of the Majorana fermions is the supression of topological superconductivity
by disorder. We show that Majorana fermions protected by a robust topological
gap can occur at the ends of a chain of quantum dots connected by s-wave superconductors.
In the appropriate parameter regime, we establish that the quantum dot/superconductor
system is equivalent to a 1D Kitaev chain, which can be tuned to be in a robust
topological phase with Majorana end modes even in the case where the quantum dots
and superconductors are both strongly disordered. Such a spin-orbit coupled quantum
dot - s-wave superconductor array provides an ideal experimental platform for
the observation of non-Abelian Majorana modes.
authors:
- Jay D. Sau
- S. Das Sarma
doi: 10.1038/ncomms1966
id: '1111.6600'
journal: Nat Commun
journal_url: http://dx.doi.org/10.1038/ncomms1966
on_arxiv: 2011-11-28
page: '964'
published: 2012-01-01
title: How to realize a robust practical Majorana chain in a quantum dot-superconductor
linear array
vol: '3'
- abstract: A single two-dimensinoal Dirac fermion state has been recently observed
on the surface of topological insulator Bi$_2$Te$_3$ by angle-resolved photoemission
spectroscopy (ARPES). We study the surface band structure using $k \cdot p$ theory
and find an unconventional hexagonal warping term, which is the counterpart of
cubic Dresselhaus spin-orbit coupling in rhombohedral structures. We show that
this hexagonal warping term naturally explains the observed hexagonal snow-flake
Fermi surface. The strength of hexagonal warping is characterized by a single
parameter, which is extracted from the size of the Fermi surface. We predict a
number of testable signatures of hexagonal warping in spectroscopy experiments
on Bi$_2$Te$_3$. We also explore the possibility of a spin-density wave due to
strong nesting of the Fermi surface.
authors:
- Liang Fu
doi: 10.1103/PhysRevLett.103.266801
id: '0908.1418'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.103.266801
on_arxiv: 2009-08-10
page: '266801'
published: 2009-12-21
title: Hexagonal Warping Effects in the Surface States of Topological Insulator
Bi$_2$Te$_3$
vol: '103'
- abstract: We report on electronic transport measurements of dual-gated nano-devices
of the low-carrier density topological insulator Bi1.5Sb0.5Te1.7Se1.3. In all
devices the upper and lower surface states are independently tunable to the Dirac
point by the top and bottom gate electrodes. In thin devices, electric fields
are found to penetrate through the bulk, indicating finite capacitive coupling
between the surface states. A charging model allows us to use the penetrating
electric field as a measurement of the inter-surface capacitance $C_{TI}$ and
the surface state energy-density relationship $\mu$(n), which is found to be consistent
with independent ARPES measurements. At high magnetic fields, increased field
penetration through the surface states is observed, strongly suggestive of the
opening of a surface state band gap due to broken time-reversal symmetry.
authors:
- Valla Fatemi
- Benjamin Hunt
- Hadar Steinberg
- Stephen L. Eltinge
- Fahad Mahmood
- Nicholas P. Butch
- Kenji Watanabe
- Takashi Taniguchi
- Nuh Gedik
- Ray Ashoori
- Pablo Jarillo-Herrero
doi: 10.1103/PhysRevLett.113.206801
id: '1410.0655'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.113.206801
on_arxiv: 2014-10-02
page: '206801'
published: 2014-11-14
title: Electrostatic Coupling between Two Surfaces of a Topological Insulator Nanodevice
vol: '113'
- abstract: Existence of the magnetic monopole is compatible with the fundamental
laws of nature, however, this illusive particle has yet to be detected experimentally.
In this work, we show that an electric charge near the topological surface state
induces an image magnetic monopole charge due to the topological magneto-electric
effect. The magnetic field generated by the image magnetic monopole can be experimentally
measured, and the inverse square law of the field dependence can be determined
quantitatively. We propose that this effect can be used to experimentally realize
a gas of quantum particles carrying fractional statistics, consisting of the bound
states of the electric charge and the image magnetic monopole charge.
authors:
- Xiao-Liang Qi
- Rundong Li
- Jiadong Zang
- Shou-Cheng Zhang
doi: 10.1126/science.1167747
id: '0811.1303'
journal: Science
journal_url: http://dx.doi.org/10.1126/science.1167747
on_arxiv: 2008-11-08
page: '1184'
published: 2009-02-27
title: Seeing the magnetic monopole through the mirror of topological surface states
vol: '323'
- abstract: The role of disorder in the field of three-dimensional time reversal invariant
topological insulators has become an active field of research recently. However,
the computation of Z2 invariants for large, disordered systems still poses a considerable
challenge. In this paper we apply and extend a recently proposed method based
on the scattering matrix approach, which allows the study of large systems at
reasonable computational effort with few-channel leads. By computing the Z2 invariant
directly for the disordered topological Anderson insulator, we unambiguously identify
the topological nature of this phase without resorting to its connection with
the clean case. We are able to efficiently compute the Z2 phase diagram in the
mass-disorder plane. The topological phase boundaries are found to be well described
by the self consistent Born approximation, both for vanishing and finite chemical
potential.
authors:
- Björn Sbierski
- Piet W. Brouwer
doi: 10.1103/PhysRevB.89.155311
id: '1401.7461'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.89.155311
on_arxiv: 2014-01-29
page: '155311'
published: 2014-04-15
title: Z2 phase diagram of three-dimensional disordered topological insulator via
scattering matrix approach
vol: '89'
- abstract: Many promising building blocks of future electronic technology - including
non-stoichiometric compounds, strongly correlated oxides, and strained or patterned
films - are inhomogeneous on the nanometer length scale. Exploiting the inhomogeneity
of such materials to design next-generation nanodevices requires a band structure
probe with nanoscale spatial resolution. To address this demand, we report the
first simultaneous observation and quantitative reconciliation of two candidate
probes - Landau level spectroscopy and quasiparticle interference imaging - which
we employ here to reconstruct the multi-component surface state band structure
of the topological semimetal antimony(Sb). We thus establish the technique of
band structure tunneling microscopy (BSTM), whose unique advantages include nanoscale
access to non-rigid band structure deformation, empty state dispersion, and magnetic
field dependent states. We use BSTM to elucidate the relationship between bulk
conductivity and surface state robustness in topological materials, and to quantify
essential metrics for spintronics applications.
authors:
- Anjan Soumyanarayanan
- Michael M. Yee
- Yang He
- Hsin Lin
- Dillon R. Gardner
- Arun Bansil
- Young S. Lee
- Jennifer E. Hoffman
id: '1311.1758'
on_arxiv: 2013-11-07
title: Imaging the Nanoscale Band Structure of Topological Sb
- abstract: A direct signature of electron transport at the metallic surface of a
topological insulator is the Aharonov-Bohm oscillation observed in a recent study
of Bi_2Se_3 nanowires [Peng et al., Nature Mater. 9, 225 (2010)] where conductance
was found to oscillate as a function of magnetic flux $\phi$ through the wire,
with a period of one flux quantum $\phi_0=h/e$ and maximum conductance at zero
flux. This seemingly agrees neither with diffusive theory, which would predict
a period of half a flux quantum, nor with ballistic theory, which in the simplest
form predicts a period of $\phi_0$ but a minimum at zero flux due to a nontrivial
Berry phase in topological insulators. We show how h/e and h/2e flux oscillations
of the conductance depend on doping and disorder strength, provide a possible
explanation for the experiments, and discuss further experiments that could verify
the theory.
authors:
- J. H. Bardarson
- P. W. Brouwer
- J. E. Moore
doi: 10.1103/PhysRevLett.105.156803
id: '1005.3762'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.105.156803
on_arxiv: 2010-05-20
page: '156803'
published: 2010-10-07
title: Aharonov-Bohm oscillations in disordered topological insulator nanowires
vol: '105'
- abstract: We present a simple prescription to flatten isolated Bloch bands with
non-zero Chern number. We first show that approximate flattening of bands with
non-zero Chern number is possible by tuning ratios of nearest-neighbor and next-nearest
neighbor hoppings in the Haldane model and, similarly, in the chiral-pi-flux square
lattice model. Then we show that perfect flattening can be attained with further
range hoppings that decrease exponentially with distance. Finally, we add interactions
to the model and present exact diagonalization results for a small system at 1/3
filling that support (i) the existence of a spectral gap, (ii) that the ground
state is a topological state, and (iii) that the Hall conductance is quantized.
authors:
- Titus Neupert
- Luiz Santos
- Claudio Chamon
- Christopher Mudry
doi: 10.1103/PhysRevLett.106.236804
id: '1012.4723'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.106.236804
on_arxiv: 2010-12-21
page: '236804'
published: 2011-06-06
title: Fractional quantum Hall states at zero magnetic field
vol: '106'
- abstract: The search for topologically non-trivial states of matter has become an
important goal for condensed matter physics. Here, we give a theoretical introduction
to the quantum anomalous Hall (QAH) effect based on magnetic topological insulators
in two-dimension (2D) and three-dimension (3D). In 2D topological insulators,
magnetic order breaks the symmetry between the counter-propagating helical edge
states, and as a result, the quantum spin Hall effect can evolve into the QAH
effect. In 3D, magnetic order opens up a gap for the topological surface states,
and chiral edge state has been predicted to exist on the magnetic domain walls.
We present the phase diagram in thin films of a magnetic topological insulator
and review the basic mechanism of ferromagnetic order in magnetically doped topological
insulators. We also review the recent experimental observation of the QAH effect.
We discuss more recent theoretical work on the coexistence of the helical and
chiral edge states, multi-channel chiral edge states, the theory of the plateau
transition, and the thickness dependence in the QAH effect.
authors:
- Jing Wang
- Biao Lian
- Shou-Cheng Zhang
doi: 10.1088/0031-8949/2015/T164/014003
id: '1409.6715'
journal: Phys. Scr.
journal_url: http://dx.doi.org/10.1088/0031-8949/2015/t164/014003
on_arxiv: 2014-09-23
page: '014003'
published: 2015-12-01
title: Quantum anomalous Hall effect in magnetic topological insulators
vol: T164
- abstract: 'Motivated by new capabilities to realise artificial gauge fields in ultracold
atomic systems, and by their potential to access correlated topological phases
in lattice systems, we present a new strategy for designing topologically non-trivial
band structures. Our approach is simple and direct: it amounts to considering
tight-binding models directly in reciprocal space. These models naturally cause
atoms to experience highly uniform magnetic flux density and lead to topological
bands with very narrow dispersion, without fine-tuning of parameters. Further,
our construction immediately yields instances of optical Chern lattices, as well
as band structures of higher Chern number, |C|>1.'
authors:
- N. R. Cooper
- R. Moessner
doi: 10.1103/PhysRevLett.109.215302
id: '1208.4579'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.109.215302
on_arxiv: 2012-08-22
page: '215302'
published: 2012-11-20
title: Designing Topological Bands in Reciprocal Space
vol: '109'
- abstract: When electrons are confined in two dimensions and subjected to strong
magnetic fields, the Coulomb interactions between them become dominant and can
lead to novel states of matter such as fractional quantum Hall liquids. In these
liquids electrons linked to magnetic flux quanta form complex composite quasipartices,
which are manifested in the quantization of the Hall conductivity as rational
fractions of the conductance quantum. The recent experimental discovery of an
anomalous integer quantum Hall effect in graphene has opened up a new avenue in
the study of correlated 2D electronic systems, in which the interacting electron
wavefunctions are those of massless chiral fermions. However, due to the prevailing
disorder, graphene has thus far exhibited only weak signatures of correlated electron
phenomena, despite concerted experimental efforts and intense theoretical interest.
Here, we report the observation of the fractional quantum Hall effect in ultraclean
suspended graphene, supporting the existence of strongly correlated electron states
in the presence of a magnetic field. In addition, at low carrier density graphene
becomes an insulator with an energy gap tunable by magnetic field. These newly
discovered quantum states offer the opportunity to study a new state of matter
of strongly correlated Dirac fermions in the presence of large magnetic fields.
authors:
- Kirill I. Bolotin
- Fereshte Ghahari
- Michael D. Shulman
- Horst L. Stormer
- Philip Kim
doi: 10.1038/nature08582
id: '0910.2763'
journal: Nature
journal_url: http://dx.doi.org/10.1038/nature08582
on_arxiv: 2009-10-15
page: '196'
published: 2009-11-01
title: Observation of the Fractional Quantum Hall Effect in Graphene
vol: '462'
- abstract: Non-Abelian anyons--particles whose exchange noncommutatively transforms
a system's quantum state--are widely sought for the exotic fundamental physics
they harbor as well as for quantum computing applications. There now exist numerous
blueprints for stabilizing the simplest type of non-Abelian anyon, defects binding
Majorana modes, by judiciously interfacing widely available materials. Following
this line of attack, we introduce a device fabricated from conventional fractional
quantum Hall states and s-wave superconductors that supports exotic non-Abelian
anyons that bind `parafermions', which can be viewed as fractionalized Majorana
fermions. We show that these modes can be experimentally identified (and distinguished
from Majoranas) using Josephson measurements. We also provide a practical recipe
for braiding parafermions and show that they give rise to non-Abelian statistics.
Interestingly, braiding in our setup produces a richer set of topologically protected
qubit operations when compared to the Majorana case. As a byproduct, we establish
a new, experimentally realistic Majorana platform in weakly spin-orbit-coupled
materials such as GaAs.
authors:
- David J. Clarke
- Jason Alicea
- Kirill Shtengel
doi: 10.1038/ncomms2340
id: '1204.5479'
journal: Nat Commun
journal_url: http://dx.doi.org/10.1038/ncomms2340
on_arxiv: 2012-04-24
page: '1348'
published: 2013-12-01
title: Exotic non-Abelian anyons from conventional fractional quantum Hall states
vol: '4'
- abstract: We present a comprehensive and self-contained simplified review of the
quantum computing scheme of Phys. Rev. Lett. 98, 190504 (2007), which features
a 2-D nearest neighbor coupled lattice of qubits, a threshold error rate approaching
1%, natural asymmetric and adjustable strength error correction and low overhead
arbitrarily long-range logical gates. These features make it by far the best and
most practical quantum computing scheme devised to date. We restrict the discussion
to direct manipulation of the surface code using the stabilizer formalism, both
of which we also briefly review, to make the scheme accessible to a broad audience.
authors:
- Austin G. Fowler
- Ashley M. Stephens
- Peter Groszkowski
doi: 10.1103/PhysRevA.80.052312
id: '0803.0272'
journal: Phys. Rev. A
journal_url: http://dx.doi.org/10.1103/physreva.80.052312
on_arxiv: 2008-03-03
page: '052312'
published: 2009-11-11
title: High threshold universal quantum computation on the surface code
vol: '80'
- abstract: We consider an annular superconductor-insulator-superconductor Josephson-junction,
with the insulator being a double layer of electron and holes at Abelian fractional
quantum Hall states of identical fillings. When the two superconductors gap out
the edge modes, the system has a topological ground state degeneracy in the thermodynamic
limit akin to the fractional quantum Hall degeneracy on a torus. In the quasi-one-dimensional
limit, where the width of the insulator becomes small, the ground state energies
are split. We discuss several implications of the topological degeneracy that
survive the crossover to the quasi-one-dimensional limit. In particular, the Josephson
effect shows a $2\pi d$-periodicity, where $d$ is the ground state degeneracy
in the 2 dimensional limit. We find that at special values of the relative phase
between the two superconductors there are protected crossing points in which the
degeneracy is not completely lifted. These features occur also if the insulator
is a time-reversal-invariant fractional topological insulator. We describe the
latter using a construction based on coupled wires. Furthermore, when the superconductors
are replaced by systems with an appropriate magnetic order that gap the edges
via a spin-flipping backscattering, the Josephson effect is replaced by a spin
Josephson effect.
authors:
- Eran Sagi
- Yuval Oreg
- Ady Stern
- Bertrand I. Halperin
doi: 10.1103/PhysRevB.91.245144
id: '1502.01665'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.91.245144
on_arxiv: 2015-02-05
page: '245144'
published: 2015-06-19
title: Imprint of topological degeneracy in quasi-one-dimensional fractional quantum
Hall states
vol: '91'
- abstract: We report the discovery of Weyl semimetal NbAs featuring topological Fermi
arc surface states.
authors:
- Su-Yang Xu
- Nasser Alidoust
- Ilya Belopolski
- Chenglong Zhang
- Guang Bian
- Tay-Rong Chang
- Hao Zheng
- Vladimir Strokov
- Daniel S. Sanchez
- Guoqing Chang
- Zhujun Yuan
- Daixiang Mou
- Yun Wu
- Lunan Huang
- Chi-Cheng Lee
- Shin-Ming Huang
- BaoKai Wang
- Arun Bansil
- Horng-Tay Jeng
- Titus Neupert
- Adam Kaminski
- Hsin Lin
- Shuang Jia
- M. Zahid Hasan
doi: 10.1038/nphys3437
id: '1504.01350'
journal: Nature Phys
journal_url: http://dx.doi.org/10.1038/nphys3437
on_arxiv: 2015-04-06
page: '748'
published: 2015-09-01
title: Discovery of a Weyl Fermion semimetal state in NbAs
vol: '11'
- abstract: 'A topological insulator is characterized by a dichotomy between the interior
and the edge of a finite system: While the bulk has a non-zero energy gap, the
edges are forced to sustain excitations traversing these gaps. Originally proposed
for electrons governed by quantum mechanics, it has remained an important open
question if the same physics can be observed for systems obeying Newton''s equations
of motion. Here, we report on measurements that characterize the collective behavior
of mechanical oscillators exhibiting the phenomenology of the quantum spin hall
effect. The phononic edge modes are shown to be helical and we demonstrate their
topological protection via the stability against imperfections. Our results open
the door to the design of topological acoustic meta-materials that can capitalize
on the stability of the surfaces phonons as reliable wave guides.'
authors:
- Roman Süsstrunk
- Sebastian D. Huber
doi: 10.1126/science.aab0239
id: '1503.06808'
journal: Science
journal_url: http://dx.doi.org/10.1126/science.aab0239
on_arxiv: 2015-03-23
page: '47'
published: 2015-07-03
title: Observation of phononic helical edge states in a mechanical 'topological
insulator'
vol: '349'
- abstract: We study the effect of electrostatic disorder on the conductivity of a
three-dimensional antiferromagnetic insulator (a stack of quantum anomalous Hall
layers with staggered magnetization). The phase diagram contains regions where
the increase of disorder first causes the appearance of surface conduction (via
a topological phase transition), followed by the appearance of bulk conduction
(via a metal-insulator transition). The conducting surface states are stabilized
by an effective time-reversal symmetry that is broken locally by the disorder
but restored on long length scales. A simple self-consistent Born approximation
reliably locates the boundaries of this socalled "statistical" topological phase.
authors:
- P. Baireuther
- J. M. Edge
- I. C. Fulga
- C. W. J. Beenakker
- J. Tworzydło
doi: 10.1103/PhysRevB.89.035410
id: '1309.5846'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.89.035410
on_arxiv: 2013-09-23
page: '035410'
published: 2014-01-09
title: Quantum phase transitions of a disordered antiferromagnetic topological insulator
vol: '89'
- abstract: Topological band structures in electronic systems like topological insulators
and semimetals give rise to highly unusual physical properties. Analogous topological
effects have also been discussed in bosonic systems, but the novel phenomena typically
occur only when the system is excited by finite-frequency probes. A mapping recently
proposed by Kane and Lubensky [Nat. Phys. 10, 39 (2014)], however, establishes
a closer correspondence. It relates the zero-frequency excitations of mechanical
systems to topological zero modes of fermions that appear at the edges of an otherwise
gapped system. Here we generalize the mapping to systems with an intrinsically
gapless bulk. In particular, we construct mechanical counterparts of topological
semimetals. The resulting gapless bulk modes are physically distinct from the
usual acoustic Goldstone phonons, and appear even in the absence of continuous
translation invariance. Moreover, the zero-frequency phonon modes feature adjustable
momenta and are topologically protected as long as the lattice coordination is
unchanged. Such protected soft modes with tunable wavevector may be useful in
designing mechanical structures with fault-tolerant properties.
authors:
- Hoi Chun Po
- Yasaman Bahri
- Ashvin Vishwanath
doi: 10.1103/PhysRevB.93.205158
id: '1410.1320'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.93.205158
on_arxiv: 2014-10-06
page: '205158'
published: 2016-05-31
title: Phonon analogue of topological nodal semimetals
vol: '93'
- abstract: 'We show that time-reversal invariant superconductors in d=2 (d=3) dimensions
can support topologically stable Fermi points (lines), characterized by an integer
topological charge. Combining this with the momentum space symmetries present,
we prove analogs of the fermion doubling theorem: for d=2 lattice models admitting
a spin X electron-hole structure, the number of Fermi points is a multiple of
four, while for d=3, Fermi lines come in pairs. We show two implications of our
findings for topological superconductors in d=3: first, we relate the bulk topological
invariant to a topological number for the surface Fermi points in the form of
an index theorem. Second, we show that the existence of topologically stable Fermi
lines results in extended gapless regions in a generic topological superconductor
phase diagram.'
authors:
- B. Béri
doi: 10.1103/PhysRevB.81.134515
id: '0909.5680'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.81.134515
on_arxiv: 2009-09-30
page: '134515'
published: 2010-04-14
title: Topologically stable gapless phases of time-reversal invariant superconductors
vol: '81'
- abstract: Frames, or lattices consisting of mass points connected by rigid bonds
or central force springs, are important model constructs that have applications
in such diverse fields as structural engineering, architecture, and materials
science. The difference between the number of bonds and the number of degrees
of freedom of these lattices determines the number of their zero-frequency "floppy
modes". When these are balanced, the system is on the verge of mechanical instability
and is termed isostatic. It has recently been shown that certain extended isostatic
lattices exhibit floppy modes localized at their boundary. These boundary modes
are insensitive to local perturbations, and appear to have a topological origin,
reminiscent of the protected electronic boundary modes that occur in the quantum
Hall effect and in topological insulators. In this paper we establish the connection
between the topological mechanical modes and the topological band theory of electronic
systems, and we predict the existence of new topological bulk mechanical phases
with distinct boundary modes. We introduce model systems in one and two dimensions
that exemplify this phenomenon.
authors:
- C. L. Kane
- T. C. Lubensky
doi: 10.1038/nphys2835
id: '1308.0554'
journal: Nature Phys
journal_url: http://dx.doi.org/10.1038/nphys2835
on_arxiv: 2013-08-02
page: '39'
published: 2014-01-01
title: Topological Boundary Modes in Isostatic Lattices
vol: '10'
- abstract: Networks of rigid bars connected by joints, termed linkages, provide a
minimal framework to design robotic arms and mechanical metamaterials built out
of folding components. Here, we investigate a chain-like linkage that, according
to linear elasticity, behaves like a topological mechanical insulator whose zero-energy
modes are localized at the edge. Simple experiments we performed using prototypes
of the chain vividly illustrate how the soft motion, initially localized at the
edge, can in fact propagate unobstructed all the way to the opposite end. We demonstrate
using real prototypes, simulations and analytical models that the chain is a mechanical
conductor, whose carriers are nonlinear solitary waves, not captured within linear
elasticity. Indeed, the linkage prototype can be regarded as the simplest example
of a topological metamaterial whose protected mechanical excitations are solitons,
moving domain walls between distinct topological mechanical phases. More practically,
we have built a topologically protected mechanism that can perform basic tasks
such as transporting a mechanical state from one location to another. Our work
paves the way towards adopting the principle of topological robustness in the
design of robots assembled from activated linkages as well as in the fabrication
of complex molecular nanostructures.
authors:
- Bryan Gin-ge Chen
- Nitin Upadhyaya
- Vincenzo Vitelli
doi: 10.1073/pnas.1405969111
id: '1404.2263'
journal: Proceedings of the National Academy of Sciences
journal_url: http://dx.doi.org/10.1073/pnas.1405969111
on_arxiv: 2014-04-08
page: '13004'
published: 2014-09-09
title: Nonlinear conduction via solitons in a topological mechanical insulator
vol: '111'
- abstract: 'Mechanical metamaterials are artificial structures with unusual properties,
such as negative Poisson ratio, bistability or tunable vibrational properties,
that originate in the geometry of their unit cell. At the heart of such unusual
behaviour is often a soft mode: a motion that does not significantly stretch or
compress the links between constituent elements. When activated by motors or external
fields, soft modes become the building blocks of robots and smart materials. Here,
we demonstrate the existence of topological soft modes that can be positioned
at desired locations in a metamaterial while being robust against a wide range
of structural deformations or changes in material parameters. These protected
modes, localized at dislocations, are the mechanical analogue of topological states
bound to defects in electronic systems. We create physical realizations of the
topological modes in prototypes of kagome lattices built out of rigid triangular
plates. We show mathematically that they originate from the interplay between
two Berry phases: the Burgers vector of the dislocation and the topological polarization
of the lattice. Our work paves the way towards engineering topologically protected
nano-mechanical structures for molecular robotics or information storage and read-out.'
authors:
- Jayson Paulose
- Bryan Gin-ge Chen
- Vincenzo Vitelli
doi: 10.1038/nphys3185
id: '1406.3323'
journal: Nature Phys
journal_url: http://dx.doi.org/10.1038/nphys3185
on_arxiv: 2014-06-12
page: '153'
published: 2015-02-01
title: Topological modes bound to dislocations in mechanical metamaterials
vol: '11'
- abstract: States of self-stress, tensions and compressions of structural elements
that result in zero net forces, play an important role in determining the load-bearing
ability of structures ranging from bridges to metamaterials with tunable mechanical
properties. We exploit a class of recently introduced states of self-stress analogous
to topological quantum states to sculpt localized buckling regions in the interior
of periodic cellular metamaterials. Although the topological states of self stress
arise in the linear response of an idealized mechanical frame of harmonic springs
connected by freely-hinged joints, they leave a distinct signature in the nonlinear
buckling behaviour of a cellular material built out of elastic beams with rigid
joints. The salient feature of these localized buckling regions is that they are
indistinguishable from their surroundings as far as material parameters or connectivity
of their constituent elements are concerned. Furthermore, they are robust against
a wide range of structural perturbations. We demonstrate the effectiveness of
this topological design through analytical and numerical calculations as well
as buckling experiments performed on two- and three-dimensional metamaterials
built out of stacked kagome lattices.
authors:
- Jayson Paulose
- Anne S. Meeussen
- Vincenzo Vitelli
doi: 10.1073/pnas.1502939112
id: '1502.03396'
journal: Proc Natl Acad Sci USA
journal_url: http://dx.doi.org/10.1073/pnas.1502939112
on_arxiv: 2015-02-11
page: '7639'
published: 2015-06-23
title: Selective buckling via states of self-stress in topological metamaterials
vol: '112'
- abstract: Topological insulators (TIs) are a novel class of materials with nontrivial
surface or edge states. Time-reversal symmetry (TRS) protected TIs are characterized
by the Z2 topological invariant and their helical property becomes lost in an
applied magnetic field. Currently there exist extensive efforts searching for
TIs that are protected by symmetries other than TRS. Here we show, a topological
phase characterized by a spin Chern topological invariant is realized in an inverted
electron-hole bilayer engineered from indium arsenide-gallium antimonide (InAs/GaSb)
semiconductors which retains robust helical edges under a strong magnetic field.
Wide conductance plateaus of 2e2/h value are observed; they persist to 12T applied
in-plane magnetic field without evidence for transition to a trivial insulator.
In a perpendicular magnetic field up to 8T, there exists no signature to the bulk
gap closing. While the Fermi energy remains inside the bulk gap, the longitudinal
conductance increases from 2e2/h in strong magnetic fields suggesting a trend
towards chiral edge transport. Our findings are first evidences for a quantum
spin Hall (QSH) insulator protected by a spin Chern invariant. These results demonstrate
that InAs/GaSb bilayers are a novel system for engineering the robust helical
edge channels much needed for spintronics and for creating and manipulating Majorana
particles in solid state.
authors:
- Lingjie Du
- Ivan Knez
- Gerard Sullivan
- Rui-Rui Du
doi: 10.1103/PhysRevLett.114.096802
id: '1306.1925'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.114.096802
on_arxiv: 2013-06-08
page: 096802
published: 2015-03-04
title: Observation of Quantum Spin Hall States in InAs/GaSb Bilayers under Broken
Time-Reversal Symmetry
vol: '114'
- abstract: We propose and analyze inter-edge tunneling in a quantum spin Hall corner
junction as a means to probe the helical nature of the edge states. We show that
electron-electron interactions in the one-dimensional helical edge states result
in Luttinger parameters for spin and charge that are intertwined, and thus rather
different than those for a quantum wire with spin rotation invariance. Consequently,
we find that the four-terminal conductance in a corner junction has a distinctive
form that could be used as evidence for the helical nature of the edge states.
authors:
- Chang-Yu Hou
- Eun-Ah Kim
- Claudio Chamon
doi: 10.1103/PhysRevLett.102.076602
id: '0808.1723'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.102.076602
on_arxiv: 2008-08-13
page: '076602'
published: 2009-02-17
title: Corner Junction as a Probe of Helical Edge States
vol: '102'
- abstract: The 2007 discovery of quantized conductance in HgTe quantum wells delivered
the field of topological insulators (TIs) its first experimental confirmation.
While many three-dimensional TIs have since been identified, HgTe remains the
only known two-dimensional system in this class. Difficulty fabricating HgTe quantum
wells has, moreover, hampered their widespread use. With the goal of breaking
this logjam we provide a blueprint for stabilizing a robust TI state in a more
readily available two-dimensional material---graphene. Using symmetry arguments,
density functional theory, and tight-binding simulations, we predict that graphene
endowed with certain heavy adatoms realizes a TI with substantial band gap. For
indium and thallium, our most promising adatom candidates, a modest 6% coverage
produces an estimated gap near 80K and 240K, respectively, which should be detectable
in transport or spectroscopic measurements. Engineering such a robust topological
phase in graphene could pave the way for a new generation of devices for spintronics,
ultra-low-dissipation electronics and quantum information processing.
authors:
- Conan Weeks
- Jun Hu
- Jason Alicea
- Marcel Franz
- Ruqian Wu
id: '1104.3282'
on_arxiv: 2011-04-17
title: Engineering a robust quantum spin Hall state in graphene via adatom deposition
- abstract: Topological insulators are a newly discovered phase of matter characterized
by a gapped bulk surrounded by novel conducting boundary states. Since their theoretical
discovery, these materials have encouraged intense efforts to study their properties
and capabilities. Among the most striking results of this activity are proposals
to engineer a new variety of superconductor at the surfaces of topological insulators.
These topological superconductors would be capable of supporting localized Majorana
fermions, particles whose braiding properties have been proposed as the basis
of a fault-tolerant quantum computer. Despite the clear theoretical motivation,
a conclusive realization of topological superconductivity remains an outstanding
experimental goal. Here we present measurements of superconductivity induced in
two-dimensional HgTe/HgCdTe quantum wells, a material which becomes a quantum
spin Hall insulator when the well width exceeds d_{C}=6.3 nm. In wells that are
7.5 nm wide, we find that supercurrents are confined to the one-dimensional sample
edges as the bulk density is depleted. However, when the well width is decreased
to 4.5 nm the edge supercurrents cannot be distinguished from those in the bulk.
These results provide evidence for superconductivity induced in the helical edges
of the quantum spin Hall effect, a promising step toward the demonstration of
one-dimensional topological superconductivity. Our results also provide a direct
measurement of the widths of these edge channels, which range from 180 nm to 408
nm.
authors:
- Sean Hart
- Hechen Ren
- Timo Wagner
- Philipp Leubner
- Mathias Mühlbauer
- Christoph Brüne
- Hartmut Buhmann
- Laurens W. Molenkamp
- Amir Yacoby
doi: 10.1038/nphys3036
id: '1312.2559'
journal: Nature Phys
journal_url: http://dx.doi.org/10.1038/nphys3036
on_arxiv: 2013-12-09
page: '638'
published: 2014-09-01
title: Induced Superconductivity in the Quantum Spin Hall Edge
vol: '10'
- abstract: We study the influence of electron puddles created by doping of a 2D topological
insulator on its helical edge conductance. A single puddle is modeled by a quantum
dot tunnel-coupled to the helical edge. It may lead to significant inelastic backscattering
within the edge because of the long electron dwelling time in the dot. We find
the resulting correction to the perfect edge conductance. Generalizing to multiple
puddles, we assess the dependence of the helical edge resistance on temperature
and doping level, and compare it with recent experimental data.
authors:
- Jukka I. Väyrynen
- Moshe Goldstein
- Leonid I. Glazman
doi: 10.1103/PhysRevLett.110.216402
id: '1303.1766'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.110.216402
on_arxiv: 2013-03-07
page: '216402'
published: 2013-05-21
title: Helical edge resistance introduced by charge puddles
vol: '110'
- abstract: Certain band insulators allow for the adiabatic pumping of quantized charge
or spin for special time-dependences of the Hamiltonian. These "topological pumps"
are closely related to two dimensional topological insulating phases of matter
upon rolling the insulator up to a cylinder and threading it with a time dependent
flux. In this article we extend the classification of topological pumps to the
Wigner Dyson and chiral classes, coupled to multi-channel leads. The topological
index distinguishing different topological classes is formulated in terms of the
scattering matrix of the system. We argue that similar to topologically non-trivial
insulators, topological pumps are characterized by the appearance of protected
gapless end states during the course of a pumping cycle. We show that this property
allows for the pumping of quantized charge or spin in the weak coupling limit.
Our results may also be applied to two dimensional topological insulators, where
they give a physically transparent interpretation of the topologically non-trivial
phases in terms of scattering matrices.
authors:
- Dganit Meidan
- Tobias Micklitz
- Piet W. Brouwer
doi: 10.1103/PhysRevB.84.195410
id: '1107.2215'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.84.195410
on_arxiv: 2011-07-12
page: '195410'
published: 2011-11-02
title: Topological classification of adiabatic processes
vol: '84'
- abstract: We study junctions between superconductors mediated by the edge states
of a quantum spin Hall insulator. We show that such junctions exhibit a fractional
Josephson effect, in which the current phase relation has a 4\pi, rather than
a 2\pi periodicity. This effect is a consequence of the conservation of fermion
parity - the number of electrons modulo 2 - in a superconducting junction, and
is closely related to the Z_2 topological structure of the quantum spin Hall insulator.
Inelastic processes, which violate the conservation of fermion parity, lead to
telegraph noise in the equilibrium supercurrent. We predict that the low frequency
noise due these processes diverges exponentially with temperature T as T -> 0.
Possible experiments on HgCdTe quantum wells will be discussed.
authors:
- Liang Fu
- C. L. Kane
doi: 10.1103/PhysRevB.79.161408
id: '0804.4469'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.79.161408
on_arxiv: 2008-04-28
page: '161408'
published: 2009-04-28
title: Josephson Current and Noise at a Superconductor-Quantum Spin Hall Insulator-Superconductor
Junction
vol: '79'
- abstract: We study the proximity effect between an s-wave superconductor and the
surface states of a strong topological insulator. The resulting two dimensional
state resembles a spinless p_x+ip_y superconductor, but does not break time reversal
symmetry. This state supports Majorana bound states at vortices. We show that
linear junctions between superconductors mediated by the topological insulator
form a non chiral 1 dimensional wire for Majorana fermions, and that circuits
formed from these junctions provide a method for creating, manipulating and fusing
Majorana bound states.
authors:
- Liang Fu
- C. L. Kane
doi: 10.1103/PhysRevLett.100.096407
id: '0707.1692'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.100.096407
on_arxiv: 2007-07-11
page: 096407
published: 2008-03-06
title: Superconducting proximity effect and Majorana fermions at the surface of
a topological insulator
vol: '100'
- abstract: Topological insulators are characterized by an insulating bulk with a
finite band gap and conducting edge or surface states, where charge carriers are
protected against backscattering. These states give rise to the quantum spin Hall
effect without an external magnetic field, where electrons with opposite spins
have opposite momentum at a given edge. The surface energy spectrum of a threedimensional
topological insulator is made up by an odd number of Dirac cones with the spin
locked to the momentum. The long-sought yet elusive Majorana fermion is predicted
to arise from a combination of a superconductor and a topological insulator. An
essential step in the hunt for this emergent particle is the unequivocal observation
of supercurrent in a topological phase. Here, we present the first measurement
of a Josephson supercurrent through a topological insulator. Direct evidence for
Josephson supercurrents in superconductor (Nb) - topological insulator (Bi2Te3)
- superconductor e-beam fabricated junctions is provided by the observation of
clear Shapiro steps under microwave irradiation, and a Fraunhofer-type dependence
of the critical current on magnetic field. The dependence of the critical current
on temperature and length shows that the junctions are in the ballistic limit.
Shubnikov-de Haas oscillations in magnetic fields up to 30 T reveal a topologically
non-trivial two-dimensional surface state. We argue that the ballistic Josephson
current is hosted by this surface state despite the fact that the normal state
transport is dominated by diffusive bulk conductivity. The lateral Nb-Bi2Te3-Nb
junctions hence provide prospects for the realization of devices supporting Majorana
fermions.
authors:
- M. Veldhorst
- M. Snelder
- M. Hoek
- T. Gang
- X. L. Wang
- V. K. Guduru
- U. Zeitler
- W. G. v. d. Wiel
- A. A. Golubov
- H. Hilgenkamp
- A. Brinkman
doi: 10.1038/nmat3255
id: '1112.3527'
journal: Nature Mater
journal_url: http://dx.doi.org/10.1038/nmat3255
on_arxiv: 2011-12-15
page: '417'
published: 2012-05-01
title: Josephson supercurrent through a topological insulator surface state
vol: '11'
- abstract: We prove a topological criterion for the existence of zero-energy Majorana
bound-state on a disclination, a rotation symmetry breaking point defect, in 4-fold
symmetric topological crystalline superconductors (TCS). We first establish a
complete topological classification of TCS using the Chern invariant and three
integral rotation invariants. By analytically and numerically studying disclinations,
we algebraically deduce a Z_2-index that identifies the parity of the number of
Majorana zero-modes at a disclination. Surprisingly, we also find weakly-protected
Majorana fermions bound at the corners of superconductors with trivial Chern and
weak invariants.
authors:
- Jeffrey C. Y. Teo
- Taylor L. Hughes
doi: 10.1103/PhysRevLett.111.047006
id: '1208.6303'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.111.047006
on_arxiv: 2012-08-30
page: '047006'
published: 2013-07-26
title: Majorana Fermions and Disclinations in Topological Crystalline Superconductors
vol: '111'
- abstract: Three-dimensional topological insulators are classified into "strong"
(STI) and "weak" (WTI) according to the nature of their surface states. While
the surface states of the STI are topologically protected from localization, this
does not hold for the WTI. In this work we show that the surface states of the
WTI are actually protected from any random perturbation that does not break time-reversal
symmetry, and does not close the bulk energy gap. Consequently, the conductivity
of metallic surfaces in the clean system remains finite even in the presence of
strong disorder of this type. In the weak disorder limit the surfaces are found
to be perfect metals, and strong surface disorder only acts to push the metallic
surfaces inwards. We find that the WTI differs from the STI primarily in its anisotropy,
and that the anisotropy is not a sign of its weakness but rather of its richness.
authors:
- Zohar Ringel
- Yaacov E. Kraus
- Ady Stern
doi: 10.1103/PhysRevB.86.045102
id: '1105.4351'
journal: Phys. Rev. B
journal_url: http://dx.doi.org/10.1103/physrevb.86.045102
on_arxiv: 2011-05-22
page: '045102'
published: 2012-07-02
title: The strong side of weak topological insulators
vol: '86'
- abstract: 'The unrelated discoveries of quasicrystals and topological insulators
have in turn challenged prevailing paradigms in condensed-matter physics. We find
a surprising connection between quasicrystals and topological phases of matter:
(i) quasicrystals exhibit nontrivial topological properties and (ii) these properties
are attributed to dimensions higher than that of the quasicrystal. Specifically,
we show, both theoretically and experimentally, that one-dimensional quasicrystals
are assigned two-dimensional Chern numbers and, respectively, exhibit topologically
protected boundary states equivalent to the edge states of a two-dimensional quantum
Hall system.We harness the topological nature of these states to adiabatically
pump light across the quasicrystal. We generalize our results to higher-dimensional
systems and other topological indices. Hence, quasicrystals offer a new platform
for the study of topological phases while their topology may better explain their
surface properties.'
authors:
- Yaacov E. Kraus
- Yoav Lahini
- Zohar Ringel
- Mor Verbin
- Oded Zilberberg
doi: 10.1103/PhysRevLett.109.106402
id: '1109.5983'
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.109.106402
on_arxiv: 2011-09-27
page: '106402'
published: 2012-09-04
title: Topological States and Adiabatic Pumping in Quasicrystals
vol: '109'
- abstract: Electron edge states in graphene in the Quantum Hall effect regime can
carry both charge and spin. We show that spin splitting of the zeroth Landau level
gives rise to counterpropagating modes with opposite spin polarization. These
chiral spin modes lead to a rich variety of spin current states, depending on
the spin flip rate. A method to control the latter locally is proposed. We estimate
Zeeman spin splitting enhanced by exchange, and obtain a spin gap of a few hundred
Kelvin.
authors:
- D. A. Abanin
- P. A. Lee
- L. S. Levitov
doi: 10.1103/PhysRevLett.96.176803
id: cond-mat/0602645
journal: Phys. Rev. Lett.
journal_url: http://dx.doi.org/10.1103/physrevlett.96.176803
on_arxiv: 2006-02-27
page: '176803'
published: 2006-05-03
title: Spin Filtered Edge States and Quantum Hall Effect in Graphene
vol: '96'