TY - JOUR
T1 - Particle-hole symmetry in the fermion-chern-simons and Dirac descriptions of a half-filled landau level
AU - Wang, Chong
AU - Cooper, Nigel R.
AU - Halperin, Bertrand I.
AU - Stern, Ady
N1 - Harvard Society of Fellows; Microsoft Corporation Station Q; EPSRC [EP/J017639/1]; European Research Council under the European Union/ERC; DFG [CRC/Transregio 183, EI 519/7-1]; Minerva Foundation; U.S.-Israel BSFThe authors acknowledge stimulating discussions with T. Senthil, S. Raghu, D. T. Son, and D. Mross. We thank Raghu and Son for sending us advanced copies of their respective works. C. W. is supported by the Harvard Society of Fellows. This work was also supported, in part, by the Microsoft Corporation Station Q, by EPSRC Grant No. EP/J017639/1, by the European Research Council under the European Unions Seventh Framework Program (FP7/2007-2013)/ERC Project MUNATOP, by the DFG (CRC/Transregio 183, EI 519/7-1), by the Minerva Foundation, and by the U.S.-Israel BSF. The authors acknowledge stimulating discussions with T. Senthil, S. Raghu, D. T. Son, and D. Mross. We thank Raghu and Son for sending us advanced copies of their respective works. C. W. is supported by the Harvard Society of Fellows. This work was also supported, in part, by the Microsoft Corporation Station Q, by EPSRC Grant No. EP/J017639/1, by the European Research Council under the European Unions Seventh Framework Program (FP7/2007-2013)/ERC Project MUNATOP, by the DFG (CRC/Transregio 183, EI 519/7-1), by the Minerva Foundation, and by the U.S.-Israel BSF.
PY - 2017/8/14
Y1 - 2017/8/14
N2 - It is well known that there is a particle-hole symmetry for spin-polarized electrons with two-body interactions in a partially filled Landau level, which becomes exact in the limit where the cyclotron energy is large compared to the interaction strength; thus, one can ignore mixing between Landau levels. This symmetry is explicit in the description of a half-filled Landau level recently introduced by Son, using Dirac fermions, but it was thought to be absent in the older fermion-Chern-Simons approach, developed by Halperin, Lee, and Read (HLR) and subsequent authors. We show here, however, that when properly evaluated, the HLR theory gives results for long-wavelength low-energy physical properties—including the Hall conductance in the presence of impurities and the positions of minima in the magnetoroton spectra for fractional quantized Hall states close to half-filling—that are identical to predictions of the Dirac formulation. In fact, the HLR theory predicts an emergent particle-hole symmetry near half-filling, even when the cyclotron energy is finite.
AB - It is well known that there is a particle-hole symmetry for spin-polarized electrons with two-body interactions in a partially filled Landau level, which becomes exact in the limit where the cyclotron energy is large compared to the interaction strength; thus, one can ignore mixing between Landau levels. This symmetry is explicit in the description of a half-filled Landau level recently introduced by Son, using Dirac fermions, but it was thought to be absent in the older fermion-Chern-Simons approach, developed by Halperin, Lee, and Read (HLR) and subsequent authors. We show here, however, that when properly evaluated, the HLR theory gives results for long-wavelength low-energy physical properties—including the Hall conductance in the presence of impurities and the positions of minima in the magnetoroton spectra for fractional quantized Hall states close to half-filling—that are identical to predictions of the Dirac formulation. In fact, the HLR theory predicts an emergent particle-hole symmetry near half-filling, even when the cyclotron energy is finite.
UR - http://www.scopus.com/inward/record.url?scp=85028968156&partnerID=8YFLogxK
U2 - https://doi.org/10.1103/PhysRevX.7.031029
DO - https://doi.org/10.1103/PhysRevX.7.031029
M3 - مقالة
SN - 2160-3308
VL - 7
JO - Physical Review X
JF - Physical Review X
IS - 3
M1 - 031029
ER -