The mother of all states of the kagome quantum antiferromagnet

Event Details
  • Date/Time:
    • Thursday October 24, 2019
      3:00 pm - 4:00 pm
  • Location: Howey - N110
  • Phone: 404-894-5203
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Summary Sentence: School of Physics, Nonlinear Science & Mathematics Seminar| Dr. Hitesh Changlani| Florida State University

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  • Hitesh Changlani Hitesh Changlani

School of Physics, Nonlinear Science & Mathematics Seminar| Dr. Hitesh Changlani| Florida State University

Strongly correlated systems provide a fertile ground for discovering exotic states of matter, such as those with topologically non-trivial properties. Among these are geometrically frustrated magnets, which harbor spin liquid phases with fractional excitations. On the experimental front, this has motivated the search for new low dimensional quantum materials. On the theoretical front, this area of research has led to analytical and numerical advances in the study of quantum many-body systems.


I will present aspects of our theoretical and numerical work in the area of frustrated magnetism, focusing on the kagome geometry, which has seen a flurry of research activity owing to several near-ideal material realizations. On the theoretical front, the kagome problem has a rich history and poses multiple theoretical puzzles which continue to baffle the community. First, I will present a study of the spin-1 antiferromagnet, where our numerical calculations indicate that the ground state is a trimerized valence bond (simplex) solid with a spin gap [1], contrary to previous proposals. I will show evidence from recent experiments that support our findings but also pose new questions [2]. The second part of the talk follows from an unexpected outcome of my general investigations in the area for the well-studied spin-1/2 case [3]. I will highlight our discovery of an exactly solvable point in the XXZ-Heisenberg model for the ratio of Ising to transverse coupling $J_z/J=-1/2$ [4]. This point in the phase diagram has "three-coloring" states as its exact quantum ground states and is macroscopically degenerate. It exists for all magnetizations and is the origin or "mother" of many of the observed phases of the kagome antiferromagnet. I will revisit aspects of the contentious and experimentally relevant Heisenberg case and discuss its relationship to the newly discovered point [4,5].

[1] H. J. Changlani, A.M. Lauchli, Phys. Rev. B 91, 100407(R) (2015).

[2] A. Paul, C.M. Chung, T. Birol, H. J. Changlani, arXiv:1909.02020 (2019).

[3] K. Kumar, H. J. Changlani, B. K. Clark, E. Fradkin, Phys. Rev. B 94, 134410 (2016).

[4] H. J. Changlani, D. Kochkov, K. Kumar, B. K. Clark, E. Fradkin, Phys. Rev. Lett. 120, 117202 (2018).

[5] H. J. Changlani, S. Pujari, C.M. Chung, B. K. Clark, Phys. Rev. B. 99,104433 (2019)

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  • Created By: Shaun Ashley
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  • Created On: Oct 9, 2019 - 4:04pm
  • Last Updated: Oct 9, 2019 - 4:12pm