Bond-dependent anisotropy and magnon decay in cobalt-based Kitaev triangular antiferromagnet

[1]  Yong Baek Kim,et al.  Geometrical frustration versus Kitaev interactions in BaCo2(AsO4)2 , 2022, Proceedings of the National Academy of Sciences of the United States of America.

[2]  David A. Dahlbom,et al.  Geometric integration of classical spin dynamics via a mean-field Schrödinger equation , 2022, Physical Review B.

[3]  K. Kamazawa,et al.  Excitations in the Ordered and Paramagnetic States of Honeycomb Magnet Na_{2}Co_{2}TeO_{6}. , 2022, Physical review letters.

[4]  C. Batista,et al.  Evidence of Two-Spinon Bound States in the Magnetic Spectrum of Ba$_3$CoSb$_2$O$_9$ , 2022, 2201.13369.

[5]  Y. Son,et al.  Multiferroic‐Enabled Magnetic‐Excitons in 2D Quantum‐Entangled Van der Waals Antiferromagnet NiI2 , 2021, Advanced materials.

[6]  Hao Zhang,et al.  Instabilities of heavy magnons in an anisotropic magnet , 2021, Nature communications.

[7]  Hao Zhang,et al.  Classical spin dynamics based on SU(N) coherent states , 2021, Physical Review B.

[8]  M. Kofu,et al.  Recent Update of AMATERAS: A Cold-Neutron Disk-Chopper Spectrometer , 2021 .

[9]  Je-Guen Park,et al.  Antiferromagnetic Kitaev interaction inJ eff = 1/2 cobalt honeycomb materials Na3Co2SbO6 and Na2Co2TeO6 , 2020, Journal of physics. Condensed matter : an Institute of Physics journal.

[10]  S. Petit,et al.  Kitaev interactions in Co honeycomb antiferromagnets Na$_3$Co$_2$SbO$_6$ and Na$_2$Co$_2$TeO$_6$. , 2020, 2012.00006.

[11]  Je-Guen Park,et al.  Spin waves in the two-dimensional honeycomb lattice XXZ-type van der Waals antiferromagnet CoPS3 , 2020, 2007.11791.

[12]  D. Prabhakaran,et al.  Avoided quasiparticle decay and enhanced excitation continuum in the spin- 12 near-Heisenberg triangular antiferromagnet Ba3CoSb2O9 , 2020, 2006.15554.

[13]  J. Akimitsu,et al.  Momentum-Dependent Magnon Lifetime in the Metallic Noncollinear Triangular Antiferromagnet CrB_{2}. , 2020, Physical Review Letters.

[14]  Hao Zhang,et al.  Hybridized quadrupolar excitations in the spin-anisotropic frustrated magnet FeI2 , 2020, 2004.05623.

[15]  J. Paddison Scattering Signatures of Bond-Dependent Magnetic Interactions. , 2020, Physical review letters.

[16]  P. Kopietz,et al.  Magnon damping in the zigzag phase of the Kitaev-Heisenberg- Γ model on a honeycomb lattice , 2019, Physical Review B.

[17]  R. Cava,et al.  Weak-field induced nonmagnetic state in a Co-based honeycomb , 2019, Science Advances.

[18]  R. Moessner,et al.  Avoided quasiparticle decay from strong quantum interactions , 2019, Nature Physics.

[19]  G. Jackeli,et al.  Concept and realization of Kitaev quantum spin liquids , 2019, Nature Reviews Physics.

[20]  S. White,et al.  Anisotropic-Exchange Magnets on a Triangular Lattice: Spin Waves, Accidental Degeneracies, and Dual Spin Liquids , 2018, Physical Review X.

[21]  A. Savici,et al.  Magnetic Excitations of the Classical Spin Liquid MgCr_{2}O_{4}. , 2018, Physical review letters.

[22]  Hitesh J. Changlani,et al.  Dynamical Structure Factor of the Three-Dimensional Quantum Spin Liquid Candidate NaCaNi_{2}F_{7}. , 2018, Physical review letters.

[23]  Ryoya Sano,et al.  Kitaev-Heisenberg Hamiltonian for high-spin d 7 Mott insulators , 2017, 1710.11357.

[24]  G. Khaliullin,et al.  Pseudospin exchange interactions in d 7 cobalt compounds: Possible realization of the Kitaev model , 2017, 1710.10193.

[25]  M. McGuire Crystal and Magnetic Structures in Layered, Transition Metal Dihalides and Trihalides , 2017, 1704.08225.

[26]  A. Honecker,et al.  Breakdown of magnons in a strongly spin-orbital coupled magnet , 2017, Nature Communications.

[27]  M. Matsumoto,et al.  Field induced spontaneous quasiparticle decay and renormalization of quasiparticle dispersion in a quantum antiferromagnet , 2016, Nature Communications.

[28]  A. Cook,et al.  Highly anisotropic exchange interactions of j eff = 1 2 iridium moments on the fcc lattice in La 2 B IrO 6 ( B = Mg , Zn ) , 2016, 1604.08431.

[29]  T. Perring,et al.  Horace: Software for the analysis of data from single crystal spectroscopy experiments at time-of-flight neutron instruments , 2016, 1604.05895.

[30]  H. Kee,et al.  Magnetic orders proximal to the Kitaev limit in frustrated triangular systems: Application to Ba 3 IrTi 2 O 9 , 2015, 1507.06307.

[31]  A. Banerjee,et al.  Proximate Kitaev quantum spin liquid behaviour in a honeycomb magnet. , 2015, Nature materials.

[32]  G. Granroth,et al.  Quasiparticle-continuum level repulsion in a quantum magnet , 2014, Nature Physics.

[33]  Y. Tokura,et al.  Magnetoelectric responses induced by domain rearrangement and spin structural change in triangular-lattice helimagnets NiI 2 and CoI 2 , 2013 .

[34]  A. Chernyshev,et al.  Colloquium: Spontaneous magnon decays , 2012, 1205.5278.

[35]  A. Tsvelik,et al.  Zero-energy Majorana modes in spin ladders and a possible realization of the Kitaev model , 2011, 1105.5835.

[36]  L. Balents Spin liquids in frustrated magnets , 2010, Nature.

[37]  A. Chernyshev,et al.  Spin waves in a triangular lattice antiferromagnet: Decays, spectrum renormalization, and singularities , 2009, 0901.4803.

[38]  G. Jackeli,et al.  Mott insulators in the strong spin-orbit coupling limit: from Heisenberg to a quantum compass and Kitaev models. , 2008, Physical review letters.

[39]  M. Stone,et al.  Quasiparticle breakdown in a quantum spin liquid , 2005, Nature.

[40]  Alexei Kitaev,et al.  Anyons in an exactly solved model and beyond , 2005, cond-mat/0506438.

[41]  B. Fåk,et al.  Temperature Dependence of S(Q, E) in Liquid 4He Beyond the Roton , 1998 .

[42]  P. Anderson The Resonating Valence Bond State in La2CuO4 and Superconductivity , 1987, Science.

[43]  C. Haas,et al.  MAGNETIC AND STRUCTURAL INVESTIGATIONS ON NII2 AND COI2 , 1981 .

[44]  D. B. Litvin The Luttinger-Tisza method , 1974 .

[45]  A. Chernyshev,et al.  Rethinking α−RuCl3 , 2020, Physical Review Research.

[46]  Robert Kohl,et al.  Electron Paramagnetic Resonance Of Transition Ions , 2016 .

[47]  Takeshi Nakatani,et al.  AMATERAS: A Cold-Neutron Disk Chopper Spectrometer , 2011 .

[48]  Philip W. Anderson,et al.  The Resonating Valence Bond State in La 2 CuO 4 and Superconductivity , 1987 .

[49]  田辺 行人,et al.  Multiplets of transition-metal ions in crystals , 1970 .