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Updated: Apr 7, 2026

Rapid Repetition Rate Fluctuation Measurement of Soliton Crystals in a Microresonator
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Topological solitons in helical strings.

Cristiano Nisoli1, Alexander V Balatsky1,2

  • 1Theoretical Division and Institute for Material Sciences, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA.

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|July 15, 2015
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Summary

Topological constraints in one-dimensional systems shift focus from kink dynamics to domain dynamics. This study reveals how domain dynamics can be reframed as particle-like excitations in helical structures.

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Area of Science:

  • Condensed Matter Physics
  • Materials Science
  • Polymer Physics

Background:

  • Low-energy physics in one-dimensional systems typically involves particle-like kink dynamics between ordered structures.
  • Topological constraints can fundamentally alter this dynamic, leading to domain-based behavior.
  • Recent observations of charged polymers on nanotubes motivate the study of such constrained systems.

Purpose of the Study:

  • To investigate the low-energy physics of topologically constrained one-dimensional systems.
  • To analyze the dynamics of kinks in helical structures of a string wrapping around a cylinder.
  • To explore the relationship between domain dynamics and local excitations in these systems.

Main Methods:

  • Theoretical modeling of kinks in helical structures on a cylinder.
  • Analysis of the interplay between kink motion and domain dynamics.
  • Developing a particle-like description for local excitations arising from domain dynamics.

Main Results:

  • The dynamics of kinks in topologically constrained helical systems are intrinsically linked to domain dynamics.
  • Energy and momentum are not solely concentrated in solitons but are distributed within the domain dynamics.
  • A particle-like description for local excitations can be derived from the underlying domain dynamics.

Conclusions:

  • Topological constraints transform one-dimensional system dynamics from kink-centric to domain-centric.
  • The complex domain dynamics in helical structures can be effectively described as particle-like local excitations.
  • This work provides a new perspective on the physics of constrained one-dimensional systems, relevant to polymer-nanotube interactions.