An anyon wavefunction (characterized by the statistical factor n) projected onto the lowest Landau level is derived for the fractional quantum Hall effect states at filling factor ν = n/(2pn+1) (p and n are integers). We study the properties of the anyon wavefunction by using detailed Monte Carlo simulations in disc geometry and show that the anyon ground-state energy is a lower bound to the composite fermion one. Our results suggest that the composite fermions can be viewed as a combination of anyons and a fluid of charge-neutral dipoles. © IOP Publishing Ltd
Anyons occur in two-dimensional electron systems as excitations with fractional charge in the topolo...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
We derive one-particle and two-particle correlators of anyons in the lowest Landau level. We show th...
An anyon wavefunction (characterized by the statistical factor n) projected onto the lowest Landau l...
The collective excitations of matter in 2D can obey statistics which is neither fermionic nor bosoni...
We study a system of anyons with the statistics parameter θ=π/p, where p is a large integer. We use ...
International audienceAnyons (intermediate between bosons and fermions) occur in two-dimensional ele...
We study the problem of anyons with statistics in a strong magnetic field by means of a similarity t...
This paper presents the concept of anyons and how they arise in d = 2 + 1 physical theories. Classic...
We study the anyon gas with repulsive interactions at θ = π(1-1/ν), where ν is a fractiona...
Anyon is collective excitation of two dimensional electron gas subjected to strong magnetic field, c...
Recently, in certain flat band lattice systems at commensurate fillings, fractional quantum Hall sta...
The commutation relations of the composite fields are studied in the 3, 2 and 1 space dimensions. It...
International audienceAnyon collision experiments have recently demonstrated the ability to discrimi...
Anyon collision experiments have recently demonstrated the ability to discriminate between fermionic...
Anyons occur in two-dimensional electron systems as excitations with fractional charge in the topolo...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
We derive one-particle and two-particle correlators of anyons in the lowest Landau level. We show th...
An anyon wavefunction (characterized by the statistical factor n) projected onto the lowest Landau l...
The collective excitations of matter in 2D can obey statistics which is neither fermionic nor bosoni...
We study a system of anyons with the statistics parameter θ=π/p, where p is a large integer. We use ...
International audienceAnyons (intermediate between bosons and fermions) occur in two-dimensional ele...
We study the problem of anyons with statistics in a strong magnetic field by means of a similarity t...
This paper presents the concept of anyons and how they arise in d = 2 + 1 physical theories. Classic...
We study the anyon gas with repulsive interactions at θ = π(1-1/ν), where ν is a fractiona...
Anyon is collective excitation of two dimensional electron gas subjected to strong magnetic field, c...
Recently, in certain flat band lattice systems at commensurate fillings, fractional quantum Hall sta...
The commutation relations of the composite fields are studied in the 3, 2 and 1 space dimensions. It...
International audienceAnyon collision experiments have recently demonstrated the ability to discrimi...
Anyon collision experiments have recently demonstrated the ability to discriminate between fermionic...
Anyons occur in two-dimensional electron systems as excitations with fractional charge in the topolo...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
We derive one-particle and two-particle correlators of anyons in the lowest Landau level. We show th...
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