Session J11: Fractional Quantum Hall Effect I

11:15 AM–2:03 PM, Tuesday, March 22, 2011
Room: D222

Sponsoring Unit: FIAP
Chair: Nikolai Zhitenev, National Institute of Standards and Technology

Abstract ID: BAPS.2011.MAR.J11.7

Abstract: J11.00007 : Negative spin wave dispersion for composite fermions

12:27 PM–12:39 PM

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Authors:

  U. Wurstbauer
    (Columbia Univ.)

  D. Majumder
    (Indian Association for the Cultivation of Science)

  S. Mandal
    (Indian Association for the Cultivation of Science)

  I. Dujovne
    (Columbia Univ.)

  A. Rigosi
    (Columbia Univ.)

  T.D. Rhone
    (Columbia Univ.)

  B. Dennis
    (Alcatel-Lucent)

  K. West
    (Princeton Univ.)

  L. Pfeiffer
    (Princeton Univ)

  J. Jain
    (Pennsylvania State Univ.)

  A. Pinczuk
    (Columbia Univ.)

The FQHE is a result of strongly interacting electrons that can be understood as QHE of composite fermions. We use inelastic light scattering experiments to study the collective excitations of CF with 2 flux quanta focusing on filling factors $\nu$ = 4/9, 3/7 and 2/5. For these fillings, the lowest collective excitation modes are spin-waves, which display a distinct spectral weight below the bare Zeeman energy indicating a negative dispersion relation. The determined energies for these ``spin-wave roton minima'' are in excellent quantitative agreement with numerical calculations. Using the real experimentally transferred momentum the addressed DOS and hence inelastic light scattering spectra can be modeled. We demonstrate that the observed modes are very similar for positive and negative effective magnetic field at the same CF-filling factor.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2011.MAR.J11.7