Publications

Here we list all publications of group members since the start of the group in Innsbruck in March 2011.
Complete publication lists of individual members can be found on the corresponding member homepages.


[ Preprints | Publications | Proceedings | Book chapter ]

Preprints

  1. C. Chen, G. Bornet, M. Bintz, G. Emperauger, L. Leclerc, V.S. Liu, P. Scholl, D. Barredo, J. Hauschild, S. Chatterjee, M. Schuler, A.M. Laeuchli, M.P. Zaletel, T. Lahaye, N.Y. Yao, A. Browaeys,
    Continuous Symmetry Breaking in a Two-dimensional Rydberg Array,
    arXiv:2207.12930 [ abs | pdf ]

  2. P. Wilhelm, T.C. Lang, M.S. Scheurer, A.M. Läuchli,
    Non-coplanar magnetism, topological density wave order and emergent symmetry at half-integer filling of moiré Chern bands,
    arXiv:2204.05317 [ abs | pdf ]

  3. J. D'Emidio, A.A. Eberharter, A.M. Läuchli,
    Diagnosing weakly first-order phase transitions by coupling to order parameters,
    arXiv:2106.15462 [ abs | pdf ]

  4. A. Rakcheev, A.M. Läuchli,
    Estimating Heating Times in Periodically Driven Quantum Many-Body Systems via Avoided Crossing Spectroscopy,
    arXiv:2011.06017 [ abs | pdf ]

  5. M. Rader, A.M. Läuchli,
    Floating Phases in One-Dimensional Rydberg Ising Chains,
    arXiv:1908.02068 [ abs | pdf ]

  6. L.A. Toikka, A. Andreanov,
    Many-body dynamical localisation of coupled quantum kicked rotors
    arXiv:1901.09362 [ abs | pdf ]

      

[ Top | Preprints | Proceedings | Book chapter ]

Publications

Publications 2023

  1. M. Schuler, L.-P. Henry, Y.-M. Lu, A.M. Läuchli,
    Emergent XY* transition driven by symmetry fractionalization and anyon condensation,
    arXiv:2204.03659 [ abs | pdf ]
    SciPost Phys. 14, 001 (2023) .

Publications 2022

  1. A. Rakcheev, A.M. Läuchli,
    Dynamics of a pair of magnetic dipoles with nonreciprocal interactions due to a moving conductor,
    arXiv:2206.08765 [ abs | pdf ]
    Phys. Rev. B 106, 174435 (2022).

Publications 2021

  1. P. Scholl, M. Schuler, H. J. Williams, A.A. Eberharter, D. Barredo, K.-N. Schymik, V. Lienhard, L.-P. Henry, T.C. Lang, T. Lahaye, A.M. Läuchli, A. Browaeys,
    Programmable quantum simulation of 2D antiferromagnets with hundreds of Rydberg atoms,
    arXiv:2012.12268 [ abs | pdf ]
    Nature 595, 233 (2021).

  2. J. Larrea Jiménez, S.P.G. Crone, E. Fogh, M.E. Zayed, R. Lortz, E. Pomjakushina, K. Conder, A.M. Läuchli, L. Weber, S. Wessel, A. Honecker, B. Normand, Ch. Rüegg, P. Corboz, H.M. Rønnow, F. Mila,
    A quantum magnetic analogue to the critical point of water,
    arXiv:2009.14492 [ abs | pdf ]
    Nature 592, 370 (2021).

  3. M. Schuler, S. Hesselmann, S. Whitsitt, T.C. Lang, S. Wessel, A.M. Läuchli,
    Torus spectroscopy of the Gross-Neveu-Yukawa quantum field theory: Free Dirac versus chiral Ising fixed point,
    arXiv:1907.05373 [ abs | pdf ]
    Phys. Rev. B. 103, 125128 (2021).

  4. P. Wilhelm, T.C. Lang, and A.M. Läuchli,
    Interplay of fractional Chern insulator and charge density wave phases in twisted bilayer graphene,
    arXiv:2012.09829 [ abs | pdf ]
    Phys. Rev. B. 103, 125406 (2021).
    This paper has been selected as an “Editor’s suggestion”.

Publications 2020

  1. M. Christos, S. Sachdev, M.S. Scheurer,
    Superconductivity, correlated insulators, and Wess-Zumino-Witten terms in twisted bilayer graphene,
    arXiv:2007.00007 [ abs | pdf ]
    PNAS 117, 29543 (2020).

  2. M. Schuler, D. De Bernardis, A.M. Läuchli, P. Rabl,
    The Vacua of Dipolar Cavity Quantum Electrodynamics,
    arXiv:2004.13738 [ abs | pdf ]
    SciPost Phys. 9, 066 (2020)
    .

  3. D. Singh, M.S. Scheurer, A.D. Hillier, D.T. Adroja, and R.P. Singh,
    Time-reversal-symmetry breaking and unconventional pairing in the noncentrosymmetric superconductor La7Rh3,
     arXiv:1802.01533 [ abs | pdf ]
     Phys. Rev. B 102, 134511 (2020).

  4. C. Romen, A.M. Läuchli,
    Structure of Spin Correlations in High Temperature SU(N) Quantum Magnets,
    arXiv:2006.15868 [ abs | pdf ]
    Phys. Rev. Research 2, 043009 (2020).

  5. A. Wietek, A.M. Läuchli,
    Valence bond solid and possible deconfined quantum criticality in an extended kagome lattice Heisenberg antiferromagnet,
    arXiv:1908.02762 [ abs | pdf ]
    Phys. Rev. B 102, 020411(R) (2020).

  6. A. Muñoz Mateo, Y.G. Rubo, L.A. Toikka,
    Long Josephson junctions with exciton-polariton condensates,
    arXiv:1912.13105 [ abs | pdf ]
    Phys. Rev. B 101, 184509 (2020).

  7. C. Boos, C.J. Ganahl, M. Lajkó, P. Nataf, K. Penc, A.M. Läuchli, K.P. Schmidt, F. Mila,
    Time-reversal symmetry breaking Abelian chiral spin liquid in Mott phases of three-component fermions on the triangular lattice,
    arXiv:1802.03179 [ abs | pdf ]
    Phys. Rev. Research 2, 023098 (2020).

  8. S. Hesselmann, C. Honerkamp, S. Wessel, T.C. Lang,
    Quantifying the fragility of unprotected quadratic band crossing points,
    arXiv:1912.06585 [ abs | pdf ]
    Phys. Rev. B 101, 075128 (2020).

  9. L.A. Toikka,
    Disorder-induced two-body localized state in interacting quantum walks,
    arXiv:1911.06246 [ abs | pdf ]
    Phys. Rev. B 101, 064202 (2020).

Publications 2019

  1. L. Vanderstraeten, B. Vanhecke, A.M. Läuchli, F. Verstraete,
    Approaching the Kosterlitz-Thouless transition for the classical XY model with tensor networks,
    arXiv:1907.04576 [ abs | pdf ]
    Phys. Rev. E 100, 062136 (2019).

  2. S. Hesselmann, T.C. Lang, M. Schuler, S. Wessel, A.M. Läuchli,
    Comment on “The role of electron-electron interactions in two-dimensional Dirac fermions”,
    arXiv:1912.09681 [ abs | pdf ]
    Science, Vol 366, Issue 6470 (2019).

  3. L.A. Toikka,
    Non-Abelian Majorana fermions in topological s-wave Fermi superfluids,
    arXiv:1903.09131 [ abs | pdf ]
    New J. Phys. 21, 113033 (2019)
    .

  4. A.M. Läuchli, J. Sudan, and R. Moessner,
    S = 1/2 kagome Heisenberg antiferromagnet revisited
    arXiv:1611.06990 [ abs | pdf ]
    Phys. Rev. B 100, 155142 (2019)
    .

  5. A. Wietek, P. Corboz, S. Wessel, B. Normand, F. Mila, A. Honecker,
    Thermodynamic properties of the Shastry-Sutherland model throughout the dimer-product phase
    arXiv:1907.00008 [ abs | pdf ]
    Phys. Rev. Research 1, 033038 (2019)
    .

  6. T.C. Lang, A.M. Läuchli,
    Quantum Monte Carlo Simulation of the Chiral Heisenberg Gross-Neveu-Yukawa Phase Transition with a Single Dirac Cone
    arXiv:1808.01230 [ abs | pdf ]
    Phys. Rev. Lett. 123 , 137602 (2019).

  7. L.A. Toikka, A. Andreanov,
    Necessary and sufficient conditions for flat bands in M-dimensional N-band lattices with complex-valued nearest-neighbour hopping
    arXiv:1810.01076 [ abs | pdf ]
    Journal of Physics A: Mathematical and Theoretical (2019).

Publications 2018

  1. A. Wietek, A.M. Läuchli,
    Sublattice Coding Algorithm and Distributed Memory Parallelization for Large-Scale Exact Diagonalizations of Quantum Many-Body Systems
    arXiv:1804.05028 [ abs | pdf ]
    Phys. Rev. E 98, 033309 (2018).
    One figure of this paper has been selected for the PRE "Kaleidoscope"

  2. C. Romen, A.M. Läuchli,
    Chiral Mott insulators in frustrated Bose-Hubbard models on ladders and two-dimensional lattices: a combined perturbative and density matrix renormalization group study
    arXiv:1711.01909 [ abs | pdf ]
    Phys. Rev. B 98, 054519 (2018).

  3. M. Rader, A.M. Läuchli,
    Finite Correlation Length Scaling in Lorentz-Invariant Gapless iPEPS Wave Functions
    arXiv:1803.08566 [ abs | pdf ]
    Phys. Rev. X 8, 031030 (2018).

  4. Weichselbaum, S. Capponi, P. Lecheminant, A.M. Tsvelik, A.M. Läuchli,
    Unified Phase Diagram of Antiferromagnetic SU(N) Spin Ladders
    arXiv:1803.06326 [ abs | pdf ]
    Phys. Rev. B 98, 085104 (2018).

  5. V. Lienhard, S. de Léséleuc, D. Barredo, T. Lahaye, A. Browaeys, M. Schuler, L.-P. Henry, and A.M. Läuchli,
    Observing the space- and time-dependent growth of correlations in dynamically tuned synthetic Ising antiferromagnets
    arxiv:1711.01185 [ abs | pdf ]
    Phys. Rev. X 8, 021070 (2018).
    Newsroom University of Innsbruck

Publications 2017

  1. M.E. Zayed, C. Rüegg, J. Larrea, A.M. Läuchli, C. Panagopoulos, S.S. Saxena, M. Ellerby, D.F. McMorrow, T. Straessle, S. Klotz, G. Hamel, R.A. Sadykov, V. Pomjakushin, M. Boehm, M. Jimenez-Ruiz, A. Schneidewind, E. Pomjakushina, M. Stingaciu, K. Conder, and H.M. Ronnow,
    Observation of a 4-spin Plaquette Singlet State in the Shastry-Sutherland compound SrCu2(BO3)2
    arXiv:1603.02039 [ abs | pdf ]
    Nature Physics 13, 962 (2017).
    Newsroom University of Innsbruck

  2. S. Whitsitt, M. Schuler, L.-P. Henry, A.M. Läuchli, and S. Sachdev,
    Spectrum of the Wilson-Fisher conformal field theory on the torus
    arXiv:1701.03111 [ abs | pdf ]
    Phys. Rev. B. 96, 035142 (2017).
    This paper has been selected as an “Editor’s suggestion”.

  3. C.B. Krimphoff, M. Haque, and A.M. Läuchli,
    Propagation and jamming dynamics in Heisenberg spin ladders
    arXiv:1612.07510 [ abs | pdf ]
    Phys. Rev. B. 95 , 144308 (2017)
    .

  4. M. Rader, M. Hebenstreit, and R. E. Zillich,
    Multicomponent correlated-basis-function method and its application to multilayered dipolar Bose gases
    arXiv:1611.04757 [ abs | pdf ]
    Phys. Rev. A. 95, 033625 (2017).

  5. A. Wietek and A.M. Läuchli,
    Chiral Spin Liquid and Quantum Criticality in Extended S=1/2 Heisenberg Models on the Triangular Lattice
    arXiv:1604.07829 [ abs | pdf ]
    Phys. Rev. B. 95 , 035141 (2017).

  6. M. Bercx, J.S. Hofmann, F.F. Assaad, and T.C. Lang,
    Spontaneous particle-hole symmetry breaking of correlated fermions on the Lieb lattice
    arXiv:1610.03314 [ abs | pdf ]
    Phys. Rev. B. 95 , 035108 (2017).

Publications 2016

  1. M. Schuler, S. Whitsitt, L.-P. Henry, S. Sachdev, and A.M. Läuchli,
    Universal Signatures of Quantum Critical Points from Finite-Size Torus Spectra:
    A Window into the Operator Content of Higher-Dimensional Conformal Field Theories
    arXiv:1603.03042 [ abs | pdf ]
    Phys. Rev. Lett. 117 , 210401 (2016).

  2. A. Rancon, L.-P. Henry, F. Rose, D. Lopes Cardozo, N. Dupuis, P.C.W. Holdsworth, and T. Roscilde,
    Critical Casimir forces from the equation of state of quantum critical systems
    arXiv:1606.03205 [ abs | pdf ]
    Phys. Rev. B. 94 , 140506(R) (2016).

  3. P. Nataf, M. Lajkó, A. Wietek, K. Penc, F. Mila, and A.M. Läuchli,
    Chiral spin liquids in triangular lattice SU(N) fermionic Mott insulators with artificial gauge fields
    arXiv:1601.00958 [ abs | pdf ]
    Phys. Rev. Lett. 117 , 167202 (2016).

  4. S. Pujari, T.C. Lang, G. Murthy, and R.K. Kaul,
    Interaction-Induced Dirac Fermions from Quadratic Band Touching in Bilayer Graphene
    arXiv:1604.03876 [ abs | pdf ]
    Phys. Rev. Lett. 117 , 086404 (2016).

  5. P. Nataf, M. Lajkó, P. Corboz, A.M. Läuchli, K. Penc, and F. Mila,
    Plaquette order in the SU(6) Heisenberg model on the honeycomb lattice
    arXiv:1601.00959 [ abs | pdf ]
    Phys. Rev. B. 93 , 201113(R) (2016).

  6. M. Łącki, H. Pichler, A. Sterdyniak, A. Lyras, V.E. Lembessis, O. Al-Dossary, J. Budich, and P. Zoller,
    Quantum Hall Physics with Cold Atoms in Cylindrical Optical Lattices
    arXiv:1507.00030 [ abs | pdf ]
    Phys. Rev. A. 93 , 013604 (2016).

  7. M. Hebenstreit, M. Rader, and R.E. Zillich,
    Dipolar bilayer with antiparallel polarization: A self-bound liquid
    arXiv:1501.02091 [ abs | pdf ]
    Phys. Rev. A. 93 , 013611 (2016).

Publications 2015

  1. A. Sterdyniak, Nigel R. Cooper and N. Regnault,
    Bosonic integer quantum Hall effect in optical flux lattices
    arXiv:1506.03643 [ abs | pdf ]
    Phys. Rev. Lett. 115 , 116802 (2015).

  2. A. Wietek, A. Sterdyniak, and A.M. Läuchli,
    Nature of chiral spin liquids on the kagome lattice
    arXiv:1503.03389 [ abs | pdf ]
    Phys. Rev. B 92, 125122 (2015).

  3. S. Capponi and A.M. Läuchli,
    Phase diagram of interacting spinless fermions on the honeycomb lattice:
    a comprehensive exact diagonalization study
    arXiv:1505.01676 [ abs | pdf ]
    Phys. Rev. B 92, 085146 (2015).

  4. M. Dalmonte, W. Lechner, Zi Cai, M. Mattioli, A.M. Läuchli, and G. Pupillo,
    Cluster Luttinger liquids and emergent supersymmetric conformal critical points
    in the one-dimensional soft-shoulder Hubbard model
    arXiv:1502.00396 [ abs | pdf ]
    Phys. Rev. B 92, 045106 (2015).

  5. P. Hauke, L. Bonnes, M. Heyl, and W. Lechner,
    Probing Entanglement in Adiabatic Quantum Optimization with Trapped Ions
    arXiv:1411.7933 [ abs | pdf ]
    Front. Phys. 3, 21 (2015)

  6. H.J. Changlani and A.M. Läuchli,
    Trimerized ground state of the spin-1 antiferromagnet on the kagome lattice
    arXiv:1406.4767 [ abs | pdf ]
    Phys. Rev. B 91, 100407(R) (2015).

  7. A. Sterdyniak, B.A. Bernevig, N.R. Cooper, and N. Regnault,
    Interacting bosons in topological optical flux lattices
    arXiv:1410.0357 [ abs | pdf ]
    Phys. Rev. B 91, 035115 (2015).

  8. A.M. Läuchli and R. Moessner,
    Quantum simulations made easy plane
    arXiv:1504.04380 [ abs | pdf

Publications 2014

  1. R. Lundgren, J. Blair, M. Greiter, A.M. Läuchli, G.A. Fiete, and R. Thomale,
    Momentum Space Entanglement Spectrum of Bosons and Fermions with Interactions
    arXiv:1404.7545 [ abs | pdf ]
    Phys. Rev. Lett. 113, 256404 (2014).

  2. L. Bonnes, F.H.L. Essler, and A.M. Läuchli,
    “Light-cone” dynamics after quantum quenches in spin chains
    arXiv:1404.4062 [ abs | pdf ]
    Phys. Rev. Lett. 113, 187203 (2014).

  3. P. Calabrese, F.H.L. Essler and A.M. Läuchli,
    Entanglement Entropies of the quarter filled Hubbard model
    arXiv:1406.7477 [ abs | pdf ]
    J. Stat. Mech. (2014) P09025.

  4. L. Bonnes, D. Charrier, and A.M. Läuchli,
    Dynamical and Steady State Properties of a Bose-Hubbard Chain with Bond-Dissipation: A Study based on Matrix Product Operators
    arXiv:1405.5036 [ abs | pdf ]
    Phys. Rev. A 90, 033612 (2014).

  5. C.-M. Chung, V. Alba, L. Bonnes, P. Chen, and A.M. Läuchli,
    Entanglement negativity via replica trick: a Quantum Monte Carlo approach
    arXiv:1312.1168 [ abs | pdf ]
    Phys. Rev. B 90, 064401 (2014).

  6. C.-M. Chung, L. Bonnes, P. Chen, and A.M. Läuchli,
    Entanglement Spectroscopy using Quantum Monte Carlo
    arXiv:1305.6536 [ abs | pdf ]
    Phys. Rev. B 89, 195147 (2014).

  7. L. Bonnes and A.M. Läuchli,
    Superoperators vs. Trajectories for Matrix Product State Simulations of Open Quantum System: A Case Study
    arXiv:1411.4831 [ abs | pdf ]

Publications 2013

  1. M. Lohöfer, L. Bonnes, and S. Wessel,
    Thermal phase transitions in a honeycomb lattice gas with three-body interactions
    arXiv:1309.1034 [ abs | pdf ]
    Phys. Rev. E 88, 052135 (2013)

  2. C.V. Kraus, M. Dalmonte, M.A. Baranov, A.M. Läuchli and P. Zoller,
    Majorana edge states in two atomic wires coupled by pair-hopping
    arxiv:1302.0701 [ abs | pdf ]
    Phys. Rev. Lett. 111, 173004 (2013).

  3. S. Capponi, O. Derzhko, A. Honecker, A.M. Läuchli, and J. Richter,
    Numerical study of magnetization plateaux in the spin-1/2 kagome Heisenberg antiferromagnet
    arXiv:1307.0975 [ abs | pdf ]
    Phys. Rev. B 88, 144416 (2013).

  4. L. Bonnes, H. Pichler and, A.M. Läuchli,
    An entropy perspective on the thermal crossover in a fermionic Hubbard chain
    arxiv:1304.5340 [ abs | pdf ]
    Phys. Rev. B 88, 155103 (2013).

  5. A.M. Läuchli, Z. Liu, E.J. Bergholtz, and R. Moessner,
    Hierarchy of fractional Chern insulators and competing compressible states
    arxiv:1207.6094 [ abs | pdf ]
    Phys. Rev. Lett. 111, 126802 (2013).

  6. V. Alba, M. Haque and A.M. Läuchli,
    Entanglement spectrum of the two dimensional Bose-Hubbard model
    arxiv:1212.5634 [ abs | pdf ]
    Phys. Rev. Lett. 110, 260403 (2013).

  7. B. Hsu, C.R. Laumann, A.M. Läuchli, R. Moessner, and S.L. Sondhi,
    Approximating random quantum optimization problems
    arxiv:1304.2837 [ abs | pdf ]
    Phys. Rev. A 87, 062334 (2013).

  8. H. Pichler, L. Bonnes, A.J. Daley, A.M. Läuchli and P. Zoller,
    Thermal vs. Entanglement Entropy: A Measurement Protocol for Fermionic Atoms with a Quantum Gas Microscope
    arxiv:1302.1187 [ abs | pdf ]
    New J. Phys. 15, 063003 (2013).

  9. P. Corboz, M. Lajkó, K. Penc, F. Mila, and A.M. Läuchli,
    Competing states in the SU(3) Heisenberg model on the honeycomb lattice:
    Plaquette valence-bond crystal versus dimerized color-ordered state
    arxiv:1302.1108 [ abs | pdf ]
    Phys. Rev. B 87, 195113 (2013).

  10. N.Y. Yao, A.V. Gorshkov, C.R. Laumann, A.M. Läuchli, J. Ye, and M.D. Lukin,
    Realizing Fractional Chern Insulators with Dipolar Spins
    arxiv:1212.4839 [ abs | pdf ]
    Phys. Rev. Lett. 110, 185302 (2013).
    This paper has been selected as an “Editor’s suggestion” and is featured in a Viewpoint in Physics.

  11. F.H.L. Essler, A.M. Läuchli, and P. Calabrese,
    Shell-Filling Effect in the Entanglement Entropies of Spinful Fermions
    arxiv:1211.2474 [ abs | pdf ]
    Phys. Rev. Lett. 110, 115701 (2013).

  12. H.J. Changlani, S. Ghosh, C.L. Henley, and A.M. Läuchli,
    Heisenberg antiferromagnet on Cayley trees: low-energy spectrum and even/odd site imbalance
    arxiv:1208.1773 [ abs | pdf ]
    Phys. Rev. B 87, 085107 (2013).

  13. J. Ummethum, J. Schnack, and A.M. Läuchli,
    Large-scale numerical investigations of the antiferromagnetic Heisenberg icosidodecahedron
    arxiv:1207.5316 [ abs | pdf ]
    Journal of Magnetism and Magnetic Materials 327 (2013) 103–109.

  14. A.M. Läuchli,
    Operator content of real-space entanglement spectra at conformal critical points
    arxiv:1303.0741 [ abs | pdf ]

Publications 2012

  1. H.Y. Yang, A.F. Albuquerque, S. Capponi, A.M. Läuchli and K.P. Schmidt,
    Effective Spin Couplings in the Mott Insulator of the Honeycomb Lattice Hubbard Model
    arXiv:1207.1072 [ abs | pdf ]
    New J. Phys. 14, 115027 (2012).

  2. J. Schliemann and A.M. Läuchli,
    Entanglement Spectra of Heisenberg Ladders of higher Spin
    arxiv:1205.0109 [ abs | pdf ]
    J. Stat. Mech. (2012) P11021.

  3. P. Corboz, M. Lajko, A.M. Läuchli, K. Penc, and F. Mila,
    Spin-orbital quantum liquid on the honeycomb lattice
    arxiv:1207.6029 [ abs | pdf ]
    Phys. Rev. X 2, 041013 (2012).

  4. L. Bonnes, K.R.A. Hazzard, S.R. Manmana, A.-M. Rey, and S. Wessel,
    Adiabatic loading of one-dimensional SU(N) alkaline-earth-atom fermions in optical lattices
    arxiv:1207.3900 [ abs | pdf ]
    Phys. Rev. Lett. 109, 205305 (2012).

  5. Z. Liu, E.J. Bergholtz, H. Fan and A.M. Läuchli,
    Fractional topological insulators in flat bands with higher Chern number
    arXiv:1206.3759 [ abs | pdf ]
    Phys. Rev. Lett. 109, 186805 (2012).

  6. V. Alba, M. Haque and A.M. Läuchli,
    Entanglement spectrum of the Heisenberg XXZ chain near the ferromagnetic point
    arxiv:1206.0131 [ abs | pdf ]
    J. Stat. Mech. (2012) P08011.

  7. P. Corboz, K. Penc, F. Mila, and A.M. Läuchli,
    Simplex solids in SU(N) Heisenberg models on the kagome and checkerboard lattices
    arxiv:1204.6682 [ abs | pdf ]
    Phys. Rev. B 86, 041106(R) (2012).

  8. V. Alba, M. Haque and A.M. Läuchli,
    Boundary-locality and perturbative structure of entanglement spectra in gapped systems
    arxiv:1107.1726 [ abs | pdf ]
    Phys. Rev. Lett. 108, 227201 (2012).

  9. P. Corboz, S. Capponi, A.M. Läuchli, B. Bauer and R. Orus,
    Comment on “Topological quantum phase transitions of attractive spinless fermions in a honeycomb lattice” by Poletti D. et al.
    arxiv:1204.4791 [ abs | pdf ]
    EPL 98, 27005 (2012).

  10. T.A. Tóth, A.M. Läuchli, F. Mila, and K. Penc,
    Competition between two- and three-sublattice ordering for S=1 spins on the square lattice
    arxiv:1110.2495 [ abs | pdf ]
    Phys. Rev. B 85, 140403(R) (2012).

  11. I. Rousochatzakis, A.M. Läuchli, and R. Moessner,
    Quantum magnetism on the Cairo pentagonal lattice
    arxiv:1201.3079 [ abs | pdf ]
    Phys. Rev. B 85, 104415 (2012).
    This paper has been selected as an “Editor’s suggestion”.

  12. L. Bonnes and S. Wessel,
    Half-Vortex Unbinding and Ising Transition in Constrained Superfluids
    arxiv:1201.4117 [ abs | pdf ]
    Phys. Rev. B 85, 094513 (2012).

  13. B. Bauer, P. Corboz, A.M. Läuchli, L. Messio, K. Penc, M. Troyer, and F Mila,
    Three-sublattice order in the SU(3) Heisenberg model on the square and triangular lattice
    arxiv:1112.1100 [ abs | pdf ]
    Phys. Rev. B 85, 125116 (2012).
    One figure of this paper has been selected for the PRB “Kaleidoscope”.

  14. B. Surer, M. Troyer, P. Werner, T.O. Wehling, A.M. Läuchli, A. Wilhelm, and A.I. Lichtenstein,
    Multi-orbital Kondo physics of Co in Cu hosts
    arxiv:1107.3772 [ abs | pdf ]
    Phys. Rev. B 85, 085114 (2012).

  15. A.M. Läuchli and J. Schliemann,
    Entanglement spectra of coupled S=1/2 spin chains in a ladder geometry
    arxiv:1106.3419 [ abs | pdf ]
    Phys. Rev. B 85, 054403 (2012).

  16. Z. Liu, E.J. Bergholtz, H. Fan, and A.M. Läuchli,
    Edge Mode Combinations in the Entanglement Spectra of Non-Abelian Fractional Quantum Hall States on the Torus
    arxiv:1109.2095 [ abs | pdf ]
    Phys. Rev. B 85, 045119 (2012).
    One figure of this paper has been selected for the PRB “Kaleidoscope”.

Publications 2011

  1. P. Corboz, A.M. Läuchli, K. Penc, M. Troyer, and F. Mila,
    Simultaneous dimerization and SU(4) symmetry breaking of 4-color fermions on the square lattice
    arxiv:1108.2857 [ abs | pdf ]
    Phys. Rev. Lett. 107, 215301 (2011).

  2. S. Wenzel and A.M. Läuchli,
    Monte Carlo study of the critical properties of the three-dimensional 120-degree model
    arxiv:1106.3426 [ abs | pdf ]
    J. Stat. Mech. (2011) P09010.

  3. Andreas M. Läuchli, Julien Sudan, and Erik S. Sørensen,
    Ground-State Energy and Spin Gap of Spin-1/2 Kagome Heisenberg Antiferromagnetic Clusters: Large Scale Exact Diagonalization Results
    arxiv:1103.1159 [ abs | pdf ]
    Phys. Rev. B 83, 212401 (2011).
    One figure of this paper has been selected for the PRB “Kaleidoscope”.


[ Top | Preprints | Publications | Book chapter ]

Proceedings

  1. S. Wenzel and A.M. Läuchli,
    Monte Carlo study of the critical properties of the three-dimensional 120o model
    Physics Procedia 15, 97 (2011).

Book chapter

  1. A. Wietek, M. Schuler, and A.M. Läuchli,
    Studying Continuous Symmetry Breaking using Energy Level Spectroscopy
    arXiv:1704.08622 1 [ abs | pdf ]
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