Deconfined quantum criticality



PAPERS

  1. `Deconfined' quantum critical points , T. Senthil, A. Vishwanath, L. Balents, S. Sachdev, and M. P. A. Fisher, Science 303, 1490 (2004); cond-mat/0311326.
  2. Quantum criticality beyond the Landau-Ginzburg-Wilson paradigm, T. Senthil, L. Balents, S. Sachdev, A. Vishwanath, and M. P. A. Fisher, Physical Review B 70, 144407 (2004); cond-mat/0312617. (Subjects peierls, mqc)
  3. Quantum phases and phase transitions of Mott insulators , S. Sachdev in Quantum magnetism, U. Schollwock, J. Richter, D. J. J. Farnell and R. A. Bishop eds, Lecture Notes in Physics 645, Springer, Berlin (2004), cond-mat/0401041.
  4. Deconfined criticality critically defined, T. Senthil, L. Balents, S. Sachdev, A. Vishwanath, and M. P. A. Fisher, Journal of the Physics Society of Japan 74 Suppl. 1 (2005); cond-mat/0404718.
  5. Putting competing orders in their place near the Mott transition, L. Balents, L. Bartosch, A. Burkov, S. Sachdev, and K. Sengupta, Physical Review B 71, 144508 (2005); cond-mat/0408329.
  6. Putting competing orders in their place near the Mott transition II: the doped quantum dimer model, L. Balents, L. Bartosch, A. Burkov, S. Sachdev, and K. Sengupta, Physical Review B 71, 144509 (2005); cond-mat/0409470. (Subjects qvort, vbs, superflow)
  7. Competing Orders and non-Landau-Ginzburg-Wilson Criticality in (Bose) Mott transitions , L. Balents, L. Bartosch, A. Burkov, S. Sachdev, and K. Sengupta, Proceedings of ``Physics of Strongly Correlated Electron Systems'', YKIS2004 workshop, Yukawa Institute, Kyoto, Japan, November 2004, Progress of Theoretical Physics Supplement 160, 314 (2005); cond-mat/0504692 (Subjects qvort, vbs, superflow).
  8. Theory of quantum impurities in spin liquids, A. Kolezhuk, S. Sachdev, R. R. Biswas, and P. Chen, Physical Review B 74, 165114 (2006); cond-mat/0606385.
  9. Hole dynamics in an antiferromagnet across a deconfined quantum critical point, R. K. Kaul, A. Kolezhuk, M. Levin, S. Sachdev, and T. Senthil, Physical Review B 75 , 235122 (2007); cond-mat/0702119.
  10. Dual vortex theory of doped antiferromagnets, L. Balents and S. Sachdev, Annals of Physics 322, 2635 (2007); cond-mat/0612220.
  11. Impurity spin textures across conventional and deconfined quantum critical points of two-dimensional antiferromagnets, M. A. Metlitski and S. Sachdev, Physical Review B 76, 064423 (2007); cond-mat/0703790.
  12. Algebraic charge liquids, R. K. Kaul, Y. B. Kim, S. Sachdev, and T. Senthil, Nature Physics 4, 28 (2008); arXiv:0706.2187.
  13. Valence bond solid order near impurities in two-dimensional quantum antiferromagnets, M. A. Metlitski and S. Sachdev, Physical Review B 77, 054411 (2008); arXiv:0710.0626.
  14. Quantum magnetism and criticality, S. Sachdev, Nature Physics 4, 173 (2008); arXiv:0711.3015.
  15. A square lattice algebraic spin liquid with SO(5) symmetry, C. Xu and S. Sachdev, Physical Review Letters 100, 137201 (2008); arXiv:0711.3460.
  16. Quantum criticality of U(1) gauge theories with fermionic and bosonic matter in two spatial dimensions, R. Kaul and S. Sachdev, Physical Review B 77, 155105 (2008); arXiv:0801.0723.
  17. Destruction of Neel order in the cuprates by electron-doping, R. K. Kaul, S. Sachdev and C. Xu, arXiv:0804.1794.
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