598 research outputs found
Topological superconductivity with deformable magnetic skyrmions
Magnetic skyrmions are nanoscale spin configurations that can be efficiently
created and manipulated. They hold great promises for next-generation
spintronics applications. In parallel to these developments, the interplay of
magnetism, superconductivity and spin-orbit coupling has proved to be a
versatile platform for engineering topological superconductivity predicted to
host non-abelian excitations, Majorana zero modes. We show that topological
superconductivity can be induced by proximitizing magnetic skyrmions and
conventional superconductors, without need for additional ingredients. Apart
from a previously reported Majorana zero mode in the core of the skyrmion, we
find a more universal chiral band of Majorana modes on the edge of the
skyrmion. We show that the chiral Majorana band is effectively flat in the
physically relevant regime of parameters, leading to interesting robustness and
scaling properties. In particular, the number of Majorana modes in the
(nearly-)flat band scales with the perimeter length of a deformed skyrmion
configuration, while being robust to local disorder.Comment: 16 + 3 pages, 3 figures + Supplementary Material
Self-Organized Discrimination of Resources
When selecting a resource to exploit, an insect colony must take into account at least two constraints: the resource must be abundant enough to sustain the whole group, but not too large to limit exploitation costs, and risks of conflicts with other colonies. Following recent results on cockroaches and ants, we introduce here a behavioral mechanism that satisfies these two constraints. Individuals simply modulate their probability to switch to another resource as a function of the local density of conspecifics locally detected. As a result, the individuals gather at the smallest resource that can host the whole group, hence reducing competition and exploitation costs while fulfilling the overall group's needs. Our analysis reveals that the group becomes better at discriminating between similar resources as it grows in size. Also, the discrimination mechanism is flexible and the group readily switches to a better suited resource as it appears in the environment. The collective decision emerges through the self-organization of individuals, that is, in absence of any centralized control. It also requires a minimal individual cognitive investment, making the proposed mechanism likely to occur in other social species and suitable for the development of distributed decision making tools
Giant Optical Non-linearity induced by a Single Two-Level System interacting with a Cavity in the Purcell Regime
A two-level system that is coupled to a high-finesse cavity in the Purcell
regime exhibits a giant optical non-linearity due to the saturation of the
two-level system at very low intensities, of the order of one photon per
lifetime. We perform a detailed analysis of this effect, taking into account
the most important practical imperfections. Our conclusion is that an
experimental demonstration of the giant non-linearity should be feasible using
semiconductor micropillar cavities containing a single quantum dot in resonance
with the cavity mode.Comment: 40 pages, 16 figures, accepted in Phys. Rev.
- …