Contents Online
Communications in Mathematical Sciences
Volume 21 (2023)
Number 5
Emergent behaviors of the kinetic Lohe Hermitian sphere model
Pages: 1171 – 1213
DOI: https://dx.doi.org/10.4310/CMS.2023.v21.n5.a1
Authors
Abstract
We study a global well-posedness of measure-valued solutions to the kinetic Lohe Hermitian sphere (LHS) model derived from the Lohe tensor (LT) model on the set of rank‑1 complex tensors (i.e. complex vectors) with the same size and investigate emergent behaviors. The kinetic LHS model corresponds to a complex analogue of the kinetic LS model which has been extensively studied in the literature on the aggregation modeling of Lohe particles on the unit sphere in Euclidean space. In this paper, we provide several frameworks in terms of system parameters and initial data leading to the local and global well-posedness of measure-valued solutions. In particular, we show emergent behaviors of the kinetic LHS model with the same free flows by analyzing the temporal evolution of the order parameter.
Keywords
emergence, Kuramoto model, Lohe Hermitian sphere model, order parameter
2010 Mathematics Subject Classification
34D06, 70F10, 70G60
Received 9 September 2021
Received revised 29 July 2022
Accepted 14 September 2022
Published 30 August 2023