English

Programmable emergence through hierarchical self-organisation

Optics 2026-02-17 v2

Abstract

Predictively steering self-organising systems with hierarchical structure toward intended outcomes across widely separated dynamical scales remains a fundamental challenge. Despite decades of progress, hierarchy remains a descriptive property rather than a mechanism for control. Here, we show how a high-dimensional stochastic system can be steered toward preselected target states by exploiting its internal hierarchy of timescales. Fast variables lock to slower collective variables; iterating this locking across scales progressively reduces the effective dynamics to a small set of externally controllable parameters. This enables directing the system while maintaining dynamical insulation from noise across scales, thereby turning hierarchy from an observation into a mechanism for programmable emergence. We experimentally demonstrate this approach in a fully tractable platform: a mode-locked laser, in which we assemble and stabilise more than 100 pulses into harmonic patterns over timescales spanning 10 orders of magnitude. Phenomena such as nucleation, quantum-noise-induced annihilation, long-range interactions and annealing-like ordering are predicted and exploited to transition the system to preselected states. Our results establish a route to programming emergent behaviour in driven-dissipative systems, with implications ranging from optics to materials.

Keywords

Cite

@article{arxiv.2510.05344,
  title  = {Programmable emergence through hierarchical self-organisation},
  author = {Aladin Şura and F. Ömer Ilday},
  journal= {arXiv preprint arXiv:2510.05344},
  year   = {2026}
}

Comments

70 pages, 16 figures

R2 v1 2026-07-01T06:20:07.499Z