Publications: Dirac Matter

Reviews

Dirac Materials
T.O. Wehling, A.M. Black-Schaffer and A.V. Balatsky
Advances in Physics, Vol. 63, Iss. 1 (2014)
arXiv:1405.5774

Functional Dirac Materials: Status and Perspectives
A. V. Balatsky, B. Brena, H. C. Herper and B. Sanyal
Physica Status Solidi Rapid Research Letters, volume 12, issue 11,
Special issue: Focus on functional Dirac Materials

Recent:
  • Spin channel induced directional dependent spin exchange interactions between divacantly substituted Fe atoms in graphene (2019)
    R. Putnam, A. V. Balatsky, and J. T. Haraldsen
    ArXiV:1812.00457
    PRB
  • Odd-frequency Berezinskii superconductivity in Dirac semimetals (2019)
    P. O. Sukhachov,1 Vladimir Juricic and A. V. Balatsky
    ArXiV:1908.11385
  • Spin wave excitations of metaloorganic materials (2019)
    J. Hellsvik, R. Díaz Pérez, R. Matthias Geilhufe, M. Månsson and A. V. Balatsky
    ArXiv:1907.01817
  • Computational search for Dirac and Weyl nodes in f-electron antiperovskites
    A. Pertsova, R. M. Geilhufe, M. Bremholm, A. V. Balatsky
    Phys Rev B. 99. 205126 (2019)
    arXiv:1902.06337
  • Directional-dependent spin exchange between divacantly substituted Fe in graphene
    R. Putman, A. V. Balatsky, J. T. Haraldson
    arXiv:1812.00457
  • Spatial dependence of the superexchange interactions for transition-metal trimers in graphene
    Charles B. Crook, Gregory Houchins, Jian-Xin Zhu, Alexander V. Balatsky, Costel Constantin, Jason T. Haraldsen
    Journal of Applied Physics 123, 013903 (2018)
    arXiv:1808.09343
  • Helical metals and insulators and sheet singularity of inflated Berry monopole
    Habib Rostami, Emmanuele Cappelluti, Alexander V. Balatsky
    Phys. Rev. B 98, 245114 (2018)
    arXiv:1808.06594
All:

(Note: publications about or using the organic materials database to search for Dirac materials are listed under materials informatics)

  1. Computational search for Dirac and Weyl nodes in f-electron antiperovskites
    A. Pertsova, R. M. Geilhufe, M. Bremholm, A. V. Balatsky
    Phys Rev B. 99. 205126 (2019)
    arXiv:1902.06337
  2. Directional-dependent spin exchange between divacantly substituted Fe in graphene
    R. Putman, A. V. Balatsky, J. T. Haraldson
    1812.00457
  3. Spatial dependence of the superexchange interactions for transition-metal trimers in graphene
    Charles B. Crook, Gregory Houchins, Jian-Xin Zhu, Alexander V. Balatsky, Costel Constantin, Jason T. Haraldsen
    Journal of Applied Physics 123, 013903 (2018)
    arXiv:1808.09343
  4. Helical metals and insulators and sheet singularity of inflated Berry monopole
    Habib Rostami, Emmanuele Cappelluti, Alexander V. Balatsky
    Phys. Rev. B 98, 245114 (2018)
    arXiv:1808.06594
  5. Dirac Nodes and Magnetic Order in M2X2 Transition‐Metal Chalcogenides
    Thomas La Martina Jian‐Xin Zhu Alexander V. Balatsky Jason T. Haraldsen
    Physica Status Solidi Rapid Research Letters, volume 12, issue 11, Special issue: Focus on functional Dirac Materials
  6. Chemical‐Strain Induced Tilted Dirac Nodes in (BEDT‐TTF)2X3 (X = I, Cl, Br, F) Based Charge‐Transfer Salts
    R. Matthias Geilhufe Benjamin Commeau Gayanath W. Fernando
    Physica Status Solidi Rapid Research Letters, volume 12, issue 11, Special issue: Focus on functional Dirac Materials
  7. Universal trends in interacting two-dimensional Dirac materials
    Saikat Banerjee, D.S.L. Abergel, H. Ågren, G. Aeppli, A.V. Balatsky
    arXiv:1803.11480
  8. Spatial dependence of the super-exchange interactions for transition-metal trimers in graphene
    Charles B. Crook, Gregory Houchins, Jian-Xin Zhu, Alexander V. Balatsky, Costel Constantin, and  Jason T. Haraldsen
    Journal of Applied Physics 123, 013903 (2018)
  9. Systematics of electronic and magnetic properties in the transition metal doped Sb2Te3 quantum anomalous Hall platform
    M. F. Islam, C. M. Canali, A. Pertsova, A. Balatsky, S. K. Mahatha, C. Carbone, A. Barla, K. A. Kokh, O. E. Tereshchenko, E. Jiménez, N. B. Brookes, P. Gargiani, M. Valvidares, S. Schatz, T. R. F. Peixoto, H. Bentmann, F. Reinert, J. Jung, T. Bathon, K. Fauth, M. Bode, and P. Sessi
    Phys. Rev. B 97, 155429 (2018)
    arXiv:1802.05302
  10. Evolution of magnetic Dirac bosons in a honeycomb lattice
    D. Boyko, A. V. Balatsky, and J. T. Haraldsen
    Phys. Rev. B 97, 014433 (2018) 
    arXiv:1712.06775
  11. Excitonic instability in optically-pumped three-dimensional Dirac materials
    Anna Pertsova, Alexander V. Balatsky
    Phys. Rev. B 97,075109 (2018)
    arXiv:1710.09132
  12. Dirac magnons in honeycomb ferromagnets
    Sergey S. Pershoguba, Saikat Banerjee, J.C. Lashley, Jihwey Park, Hans Ågren, Gabriel Aeppli, Alexander V. Balatsky
    Phys. Rev. X 8,011010 (2018)
    arXiv:1706.03384
  13. Excitonic Gap Formation in Pumped Dirac Materials
    Christopher Triola, Anna Pertsova, Robert S. Markiewicz, Alexander V. Balatsky
    Phys. Rev. B 95, 205410 (2017)
    arXiv:1701.04206
  14. Faraday rotation due to surface states in the topological insulator (Bi1-xSbx)2Te3
    Yinming Shao, Kirk W. Post, Jhih-Sheng Wu, Siyuan Dai, Alex J. Frenzel, Anthony R. Richardella, Joon Sue Lee, Nitin Samarth, Michael M. Fogler, Alexander V. Balatsky, Dmitri E. Kharzeev, D. N. Basov
    Nano Lett. 17, 980 (2017)
    arXiv:1701.02403
  15. True Bilayer Exciton Condensate of One-Dimensional Electrons
    A. Kantian, D. S. L. Abergel
    Phys. Rev. Lett. 119, 037601 (2017)
    arXiv:1609.09080
  16. First-order quantum phase transition in three-dimensional topological band insulators
    Vladimir Juricic, D. S. L. Abergel, A. V. Balatsky
    Phys. Rev. B 95, 161403 (2017)
    arXiv:1608.07819
  17. Voltage-dependent spin flip in magnetically-substituted graphene nanoribbons: Toward the realization of graphene-based spintronic devices
    Gregory Houchins, Charles B. Crook, Jian-Xin Zhu, Alexander V. Balatsky, Jason T. Haraldsen
    Phys. Rev. B 95, 155450 (2017)
    arXiv:1604.02741
  18. Dual nature of magnetic dopants and competing trends in topological insulators
    Paolo Sessi, Rudro Biswas, Thomas Bathon, Oliver Storz, Stefan Wilfert, Alessandro Barla, Konstantin Kokh, Oleg Tereshchenko, Kai Fauth, Matthias Bode, Alexander Balatsky
    Nature Communications 7, 12027 (2016)
    arXiv:1602.02516
  19. Skyrmion-induced subgap states in p-wave superconductors
    Kim Pöyhönen, Alex Westström, Sergey S. Pershoguba, Teemu Ojanen, Alexander V. Balatsky
    Phys. Rev. B 94, 214509 (2016)
    arXiv:1608.08357
  20. Magnon Dirac materials
    J. Fransson, A. M. Black-Schaffer, A. V. Balatsky
    Phys. Rev. B 94, 075401 (2016)
    arXiv:1512.04902
  21. Robustness of topologically protected transport in graphene-boron nitride lateral heterostructures
    D. S. L. Abergel
    J. Phys.: Condens. Matter 29, 075303 (2016)
    arXiv:1609.01608
  22. First principles investigation of nanopore sequencing using variable voltage bias on graphene-based nanoribbons
    Hannah L. McFarland, Towfiq Ahmed, Jian-Xin Zhu, Alexander V. Balatsky, Jason T. Haraldsen
    J. Phys. Chem. Lett. 6, 13, 2616-2621 (2015)
    arXiv:1809.02985
  23. Coherence-mediated dynamics as a universal explanation of tunneling conductance in exotic superconductors and other strongly correlated materials
    J. Hong and D. S. L. Abergel
    Scientific Reports 6, 31352 (2016)
    arXiv:1411.5532
  24. Two-photon absorption in gapped bilayer graphene with a tunable chemical potential
    M. K. Brinkley, D. S. L. Abergel, and B. D. Clader
    J. Phys.: Condens. Matter 28 365001 (2016)
    arXiv:1410.6167
  25. Landau-like states in neutral particles
    Saikat Banerjee, Hans Ågren, Alexander V. Balatsky
    Phys. Rev. B 93, 235134 (2016)
    arXiv:1412.1904
  26. Landau’s Nobel Prize in Physics
    Mats Larsson, Alexander V. Balatsky
    A.V. Jetp Lett. 103: 795 (2016)
    arXiv:1606.04939
  27. Spin-polarized edge currents and Majorana fermions in one- and two-dimensional topological superconductors
    Kristofer Björnson, Sergey S. Pershoguba, Alexander V. Balatsky, and Annica M. Black-Schaffer
    Phys. Rev. B 92, 214501 (2015)
    arXiv:1509.02080
  28. Infrared absorption of closely-aligned heterostructures of monolayer and bilayer graphene with hexagonal boron nitride
    D. S. L. Abergel and M. Mucha-Kruczyński
    Phys. Rev. B 92, 115430 (2015)
    arXiv:1507.03813
  29. Currents induced by magnetic impurities in superconductors with spin-orbit coupling
    Sergey S. Pershoguba, Kristofer Björnson, Annica M. Black-Schaffer, and Alexander V. Balatsky
    Phys. Rev. Lett. 115, 116602 (2015)
    arXiv:1505.01672
  30. Computational investigation of the electronic and optical properties of planar Ga-doped Graphene
    Nicole Creange, Costel Constantin, Jian-Xin Zhu, Alexander V. Balatsky, Jason. T. Haraldsen
    Advances in Condenses Matter Physics, 2015, 635019 (2015)
    arXiv:1506.01324
  31. Many-body instabilities in slow Dirac materials
    Christopher Triola, Jian-Xin Zhu, Albert Migliori and Alexander V. Balatsky
    Phys. Rev. B 92, 045401 (2015)
    arXiv:1501.03158
  32. Effects of a tilted magnetic field in a Dirac double layer
    Sergey S. Pershoguba, D. S. L. Abergel, Victor M. Yakovenko, and A. V. Balatsky
    Phys. Rev. B 91, 085418 (2015)
    arXiv:1412.3052
  33. Controlled healing of graphene nanopores
    Konstantin V. Zakharchenko, A.V. Balatsky
    Carbon, v 80, p 12-18 (2014)
    arXiv:1809.03003
  34. Excitonic condensation in spatially separated one-dimensional systems
    D. S. L. Abergel
    Appl. Phys. Lett. 106, 213103 (2015)
    arXiv:1408.7065
  35. Proximity-induced magnetism in transition-metal substituted graphene”
    Charles B. Crook, Costel Constantin, Towfiq Ahmed, Jian-Xin Zhu, Alexander V. Balatsky, Jason T. Haraldsen
    Scientific Reports 5, 12322 (2015)
    arXiv:1506.01319
  36. The role of spin–orbit coupling in topologically protected interface states in Dirac materials
    D. S. L. Abergel, J. Edge, and A. V. Balatsky
    New J. Phys. 16, 065012 (2014)
    arXiv:1402.4347
  37. Weakly damped acoustic plasmon mode in transition metal dichalcogenides with Zeeman splitting
    K. Kechedzhi, and D. S. L. Abergel
    Phys. Rev. B 89, 235420 (2014)
    arXiv:1402.5274
  38. Controlled healing of graphene nanopores
    K. Zakharchenko and A. Balatsky
    Carbon, Vol. 80, 12-18 (2014)
  39. Filling of magnetic-impurity-induced gap in topological insulators by potential scattering
    A. M. Black-Schaffer, A. V. Balatsky, J. Fransson
    Phys. Rev. B 91, 201411 (2015)
    arXiv:1502.06403
  40. Josephson coupling between superconducting islands on single and bilayer graphene
    Francesco Mancarella, Jonas Fransson, Alexander Balatsky
    Supercond. Sci. Technol. 29, 054004 (2016)
    arXiv:1412.3456
  41. Engineered Near-Perfect Back-Scattering on Surface of Topological Insulator with Non-Magnetic Impurities
    J. Fransson, A. M. Black-Schaffer, A. V. Balatsky
    Phys. Rev. B 90, 241409(R) (2014)
    arXiv:1410.2842
  42. Negative-U Superconductivity on the Surface of Topological Insulators
    Jian-Huang She, Alexander V. Balatsky
    Phys. Rev. B 90, 104517 (2014)
    arXiv:1406.6333
  43. Improving sequencing by tunneling with multiplexing and cross-correlations
    P. Boynton, A. V. Balatsky, I. K. Schuller, M. Di Ventra
    Journal of Computational Electronics 13, 794-800 (2014)
    arXiv:1401.7363
  44. Substrate enhanced superconductivity in Li-decorated graphene
    T. P. Kaloni, A. V. Balatsky, U. Schwingenschlögl
    EPL 104, 47013 (2013)
    arXiv:1312.2134
  45. Impurity scattering in Weyl Semimetals and their stability classification
    Zhoushen Huang, Daniel P. Arovas, Alexander V. Balatsky
    New J. Phys. 15, 123019 (2013)
    arXiv:1310.0137
  46. Granular Superconductor in a honeycomb lattice as a realization of Bosonic Dirac Material
    Saikat Banerjee, Jonas Fransson, Annica M. Black-Scahffer, Hans Agren, Alexander V. Balatsky
    Phys. Rev. B 93, 134502 (2016)
    arXiv:1511.05282