A Composite Fermion Hofstader Problem: Partially Polarized Density Wave
  States in the 2/5 FQHE

A. A. Koulakov; A. Buckthought; A. H. MacDonald; A. Kol; A. Lopez; A. Lopez; A. Lopez; B. I. Halperin; B. I. Halperin; B. I. Halperin; B. I. Halperin; D. H. Lee; D. Tsui; D. Yoshioka; D. Yoshioka; D. Yoshioka; F. C. Zhang; G. Murthy; G. Murthy; G. Murthy; Ganpathy Murthy; H. A. Fertig; H. Fukuyama; H. Fukuyama; I. V. Kukushkin; J. E. Furneaux; J. K. Jain; J. K. Jain; J. K. Jain; J. K. Jain; J. P. Eisenstein; J. P. Eisenstein; K. Park; K. Yang; L. Brey; L. Zheng; M. Rasolt; N. Read; N. Read; P. Khandelwal; R. B. Laughlin; R. G. Clark; R. L. Willett; R. R. Du; R. R. Du; R. Shankar; S. M. Girvin; S. M. Girvin; S. M. Girvin; S.-C. Zhang; T. Chakraborty; T. Chakraborty; V. Kalmeyer; X. G. Wu; Z. Tesanovic

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A Composite Fermion Hofstader Problem: Partially Polarized Density Wave States in the 2/5 FQHE

Abstract

It is well-known that the 2/5 state is unpolarized at zero Zeeman energy, while it is fully polarized at large Zeeman energies. A novel state with charge/spin density wave order for Composite Fermions is proposed to exist at intermediate values of the Zeeman coupling for 2/5. This state has half the maximum possible polarization, and can be extended to other incompressible fractions. A Hartree-Fock calculation based on the new approach for all fractional quantum Hall states developed by R.Shankar and the author is used to demonstrate the stability of this state to single-particle excitations, and compute gaps. We compare our results with a very recent experiment which shows direct evidence for the existence of such a state, and also with more indirect evidence from past experiments.Comment: One reference added, minor clarifying change

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Last time updated on 02/01/2020