Your search keyword '"Lecheminant, P."' showing total 2 results

1. Quantum phase transitions in multileg spin ladders with ring exchange.

Author

Capponi, S., Lecheminant, P., and Moliner, M.

Subjects

*EXCHANGE interactions (Magnetism), *PHASE transitions, *DIMERIZATION

Abstract

Four-spin exchange interaction has been raising intriguing questions regarding the exotic phase transitions it induces in two-dimensional quantum spin systems. In this context, we investigate the effects of a cyclic four-spin exchange in the quasi-1D limit by considering a general N-leg spin ladder. We show by means of a low-energy approach that depending on its sign, this ring exchange interaction can engender either a staggered or a uniform dimerization from the conventional phases of spin ladders. The resulting quantum phase transition is found to be described by the SU(2)N conformal field theory. This result, as well as the fractional value of the central charge at the transition, is further confirmed by a large-scale numerical study performed by means of exact diagonalization and density matrix renormalization group approaches for N≤4. [ABSTRACT FROM AUTHOR]

Published

2013

2. Particle formation and ordering in strongly correlated fermionic systems: Solving a model of quantum chromodynamics.

Author

Azaria, P., Konik, R. M., Lecheminant, P., Pálmai, T., Takács, G., and Tsvelik, A. M.

Subjects

*NAMBU-Jona-Lasinio model, *QUANTUM chromodynamics, *BARYONS

Abstract

In this paper we study a (1+1)-dimensional version of the famous Nambu-Jona-Lasinio model of quantum chromodynamics (QCD2) both at zero and at finite baryon density. We use nonperturbative techniques (non-Abelian bosonization and the truncated conformal spectrum approach). When the baryon chemical potential, μ, is zero, we describe the formation of fermion three-quark (nucleons and Δ baryons) and boson (two-quark mesons, six-quark deuterons) bound states. We also study at μ=0 the formation of a topologically nontrivial phase. When the chemical potential exceeds the critical value and a finite baryon density appears, the model has a rich phase diagram which includes phases with a density wave and superfluid quasi-long-range (QLR) order, as well as a phase of a baryon Tomonaga-Luttinger liquid (strange metal). The QLR order results in either a condensation of scalar mesons (the density wave) or six-quark bound states (deuterons). [ABSTRACT FROM AUTHOR]

Published

2016