Steve Simon

Trial wave functions for a composite Fermi liquid on a torus

Physical Review B American Physical Society 97:3 (2018) 035149

Authors:

M Fremling, N Moran, JK Slingerland, Steven Simon

Abstract:

We study the two-dimensional electron gas in a magnetic field at filling fraction ν =1/2. At this filling the system is in a gapless state which can be interpreted as a Fermi liquid of composite fermions. We construct trial wave functions for the system on a torus, based on this idea, and numerically compare these to exact wave functions for small systems found by exact diagonalization. We find that the trial wave functions give an excellent description of the ground state of the system, as well as its charged excitations, in all momentum sectors. We analyze the dispersion of the composite fermions and the Berry phase associated with dragging a single fermion around the Fermi surface and comment on the implications of our results for the current debate on whether composite fermions are Dirac fermions.

On the Structure of Edge State Inner Products in the Fractional Quantum Hall Effect

(2018)

Authors:

Richard Fern, Roberto Bondesan, Steven H Simon

Size Constraints on Majorana Beamsplitter Interferometer: Majorana Coupling and Surface-Bulk Scattering

(2017)

Authors:

Henrik Schou Røising, Steven H Simon

How SU(2)4 Anyons are Z3 Parafermions

SciPost Physics SciPost 3:6 (2017) 037

Authors:

Richard Fern, J Kombe, Steven Simon

Abstract:

We consider the braid group representation which describes the non-abelian braiding statistics of the spin $1/2$ particle world lines of an SU(2)$_4$ Chern-Simons theory. Up to an abelian phase, this is the same as the non-Abelian statistics of the elementary quasiparticles of the $k=4$ Read-Rezayi quantum Hall state. We show that these braiding properties can be represented exactly using ${Z}_3$ parafermion operators.

How SU(2)$_4$ Anyons are Z$_3$ Parafermions

(2017)

Authors:

Richard Fern, Johannes Kombe, Steven H Simon