Add to ORKGFractional quantum Hall effect energy gaps have been measured as a function of Zeeman energy. The gap at v = 1/3 decreases as the g factor is reduced by hydrostatic pressure. This behavior is similar to that at v = 1 and shows that the excitations are spinlike. At small Zeeman energy, the excitation is consistent with the reversal of 3 spins and may be interpreted as a small composite Skyrmion. At 20 kbar, where g has changed sign, the 1/3 gap appears to increase again
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
Tilted magnetic field activation measurements have been made at the 5 3, 4 3 and 7 5 filling factors...
The influence of spin on the Fractional Quantum Hall Effect is investigated in GaAs-GaAlAs heterojun...
Energy gaps have been measured for the ferromagnetic quantum Hall effect states at v =1 and 3 in GaA...
4 pages, 3 figures; slightly modified published versionInternational audienceWe study the recently o...
The activation gap Δ of the fractional quantum Hall state at constant filling ν=1/3 is m...
The activation gap Δ of the fractional quantum Hall state at constant filling ν=1/3 is measured in a...
Excitation energy for the ν=(1/3) fractional quantum Hall effect state is calculated by exact numeri...
The fractional quantum Hall effect has been considered as a puzzling quantum many-body phenomenon th...
We compute energy gaps for spin-polarized fractional quantum Hall states in the lowest Landau level ...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
Tilted magnetic field activation measurements have been made at the 5 3, 4 3 and 7 5 filling factors...
The influence of spin on the Fractional Quantum Hall Effect is investigated in GaAs-GaAlAs heterojun...
Energy gaps have been measured for the ferromagnetic quantum Hall effect states at v =1 and 3 in GaA...
4 pages, 3 figures; slightly modified published versionInternational audienceWe study the recently o...
The activation gap Δ of the fractional quantum Hall state at constant filling ν=1/3 is m...
The activation gap Δ of the fractional quantum Hall state at constant filling ν=1/3 is measured in a...
Excitation energy for the ν=(1/3) fractional quantum Hall effect state is calculated by exact numeri...
The fractional quantum Hall effect has been considered as a puzzling quantum many-body phenomenon th...
We compute energy gaps for spin-polarized fractional quantum Hall states in the lowest Landau level ...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
The Jain\u27s composite fermion wavefunction has proven quite succesful to describe most of the frac...
Tilted magnetic field activation measurements have been made at the 5 3, 4 3 and 7 5 filling factors...