Your search keyword '"Berkson-Korenberg, Z."' showing total 3 results

1. Large composite fermion effective mass at filling factor 5/2.

Author

Petrescu, M., Berkson-Korenberg, Z., Vijayakrishnan, Sujatha, West, K. W., Pfeiffer, L. N., and Gervais, G.

Subjects

QUANTUM Hall effect, LANDAU levels, SPECIFIC heat, QUANTUM statistics, FERMIONS, MAJORANA fermions, QUASIPARTICLES, ENTROPY

Abstract

The 5/2 fractional quantum Hall effect in the second Landau level of extremely clean two-dimensional electron gases has attracted much attention due to its topological order predicted to host quasiparticles that obey non-Abelian quantum statistics and could serve as a basis for fault-tolerant quantum computations. While previous works have establish the Fermi liquid (FL) nature of its putative composite fermion (CF) normal phase, little is known regarding its thermodynamics properties and as a result its effective mass is entirely unknown. Here, we report on time-resolved specific heat measurements at filling factor 5/2, and we examine the ratio of specific heat to temperature as a function of temperature. Combining these specific heat data with existing longitudinal thermopower data measuring the entropy in the clean limit we find that, unless a phase transition/crossover gives rise to large specific heat anomaly, both datasets point towards a large effective mass in the FL phase of CFs at 5/2. We estimate the effective-to-bare mass ratio m*/me to be ranging from ~ 2 to 4, which is two to three times larger than previously measured values in the first Landau level. The fractional quantum Hall state at the filling factor 5/2 has been intensively studied due to its predicted non-Abelian statistics. Petrescu et al. measure the composite fermion effective mass of this state and find that it is several times larger than that in the half-filled lowest Landau level. [ABSTRACT FROM AUTHOR]

Published

2023

2. Large composite fermion effective mass at filling factor 5/2.

Author

Petrescu, M., Berkson-Korenberg, Z., Vijayakrishnan, Sujatha, West, K. W., Pfeiffer, L. N., and Gervais, G.

Subjects

QUANTUM Hall effect, LANDAU levels, SPECIFIC heat, QUANTUM statistics, FERMIONS, MAJORANA fermions, QUASIPARTICLES, ENTROPY

Abstract

The 5/2 fractional quantum Hall effect in the second Landau level of extremely clean two-dimensional electron gases has attracted much attention due to its topological order predicted to host quasiparticles that obey non-Abelian quantum statistics and could serve as a basis for fault-tolerant quantum computations. While previous works have establish the Fermi liquid (FL) nature of its putative composite fermion (CF) normal phase, little is known regarding its thermodynamics properties and as a result its effective mass is entirely unknown. Here, we report on time-resolved specific heat measurements at filling factor 5/2, and we examine the ratio of specific heat to temperature as a function of temperature. Combining these specific heat data with existing longitudinal thermopower data measuring the entropy in the clean limit we find that, unless a phase transition/crossover gives rise to large specific heat anomaly, both datasets point towards a large effective mass in the FL phase of CFs at 5/2. We estimate the effective-to-bare mass ratio m*/me to be ranging from ~ 2 to 4, which is two to three times larger than previously measured values in the first Landau level. The fractional quantum Hall state at the filling factor 5/2 has been intensively studied due to its predicted non-Abelian statistics. Petrescu et al. measure the composite fermion effective mass of this state and find that it is several times larger than that in the half-filled lowest Landau level. [ABSTRACT FROM AUTHOR]

Published

2023

3. Large composite fermion effective mass at filling factor 5/2.

Author

Petrescu, M., Berkson-Korenberg, Z., Vijayakrishnan, Sujatha, West, K. W., Pfeiffer, L. N., and Gervais, G.

Subjects

QUANTUM Hall effect, LANDAU levels, SPECIFIC heat, QUANTUM statistics, FERMIONS, MAJORANA fermions, ENTROPY

Abstract

The 5/2 fractional quantum Hall effect in the second Landau level of extremely clean two-dimensional electron gases has attracted much attention due to its topological order predicted to host quasiparticles that obey non-Abelian quantum statistics and could serve as a basis for fault-tolerant quantum computations. While previous works have establish the Fermi liquid (FL) nature of its putative composite fermion (CF) normal phase, little is known regarding its thermodynamics properties and as a result its effective mass is entirely unknown. Here, we report on time-resolved specific heat measurements at filling factor 5/2, and we examine the ratio of specific heat to temperature as a function of temperature. Combining these specific heat data with existing longitudinal thermopower data measuring the entropy in the clean limit we find that, unless a phase transition/crossover gives rise to large specific heat anomaly, both datasets point towards a large effective mass in the FL phase of CFs at 5/2. We estimate the effective-to-bare mass ratio m*/me to be ranging from ~ 2 to 4, which is two to three times larger than previously measured values in the first Landau level. The fractional quantum Hall state at the filling factor 5/2 has been intensively studied due to its predicted non-Abelian statistics. Petrescu et al. measure the composite fermion effective mass of this state and find that it is several times larger than that in the half-filled lowest Landau level. [ABSTRACT FROM AUTHOR]

Published

2023