Relationships between two linearizations of the box-ball system : Kerov-Kirillov-Reschetikhin bijection and slot configuration

TL;DR

This paper explores the relationship between two linearization methods of the box-ball system, revealing explicit connections and extending the linearization approach to finite carrier capacities.

Contribution

It introduces a new seat number-based description of BBS dynamics and clarifies the relation between the KKR bijection and slot configurations, including finite capacity cases.

Findings

Established explicit relations between KKR bijection and slot configurations.

Demonstrated linearization of BBS with finite carrier capacity via slot configuration.

Introduced a novel seat number-based description of BBS dynamics.

Abstract

The box-ball system (BBS), which was introduced by Takahashi and Satsuma in 1990, is a soliton cellular automaton. Its dynamics can be linearized by a few methods, among which the best known is the Kerov-Kirillov-Reschetikhin (KKR) bijection using rigged partitions. Recently a new linearization method in terms of "slot configurations" was introduced by Ferrari-Nguyen-Rolla-Wang, but its relations to existing ones have not been clarified. In this paper we investigate this issue and clarify the relation between the two linearizations. For this we introduce a novel way of describing the BBS dynamics using a carrier with seat numbers. We show that the seat number configuration also linearizes the BBS and reveals explicit relations between the KKR bijection and the slot configuration. In addition, by using these explicit relations, we also show that even in case of finite carrier capacity the BBS can be linearized via the slot configuration.