Starts 31 Mar 2020 11:00

Ends 31 Mar 2020 12:00

Central European Time

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Virtual Joint ICTP/SISSA Statistical Physics Seminar: The Frustration of Being Odd: Boundary Conditions and Bulk, Local Order

Starts 31 Mar 2020 11:00

Ends 31 Mar 2020 12:00

Central European Time

ZOOM MEETING

A central tenant in the classification of phases is that boundary conditions cannot affect the bulk properties of a system. We have uncovered striking, yet puzzling, evidence of a clear violation of this assumption. We use the prototypical example of an XYZ chain with no external field in a ring geometry with an odd number of sites and both ferromagnetic and antiferromagnetic interactions.

In such a setting, even at finite sizes, we are able to calculate directly the spontaneous magnetizations that are traditionally used as order parameters to characterize the system's phases. While when ferromagnetic interactions dominate, we recover the expected behavior, when the system is governed by one antiferromagnetic interaction, the magnetizations decay algebraically to zero with the system size and are not staggered, despite the AFM coupling. We term this behavior ferromagnetic mesoscopic magnetization. With two competing AFM interactions a third, new type of order can emerge, with a magnetization profile that varies in space with an incommensurate pattern.

This modulation is the result of a ground state degeneracy which leads to a breaking of translational invariance. The transition between the two latter cases is signaled by an intensive discontinuity in the first derivative of the ground state energy: this is thus not a standard first-order QPT, but rather looks like a boundary QPT, in a system without boundaries (a Boundary-less Wetting Transitions), but with frustrated boundary conditions.

This modulation is the result of a ground state degeneracy which leads to a breaking of translational invariance. The transition between the two latter cases is signaled by an intensive discontinuity in the first derivative of the ground state energy: this is thus not a standard first-order QPT, but rather looks like a boundary QPT, in a system without boundaries (a Boundary-less Wetting Transitions), but with frustrated boundary conditions.