東京確率論セミナー
過去の記録 ~12/08|次回の予定|今後の予定 12/09~
開催情報 | 月曜日 16:00~17:30 数理科学研究科棟(駒場) 126号室 |
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担当者 | 佐々田槙子、中島秀太(明治大学) |
セミナーURL | https://sites.google.com/view/tokyo-probability-seminar23/2024年度 |
2024年02月05日(月)
17:00-18:30 数理科学研究科棟(駒場) 126号室
16:15から2階のコモンルームでTea timeを行いますので、ぜひそちらにもご参加ください。
Sunder Sethuraman 氏 (University of Arizona)
Atypical behaviors of a tagged particle in asymmetric simple exclusion (English)
16:15から2階のコモンルームでTea timeを行いますので、ぜひそちらにもご参加ください。
Sunder Sethuraman 氏 (University of Arizona)
Atypical behaviors of a tagged particle in asymmetric simple exclusion (English)
[ 講演概要 ]
Informally, the one dimensional asymmetric simple exclusion process follows a collection of continuous time random walks on Z interacting as follows: When a clock rings, the particle jumps to the nearest right or left with probabilities p or q=1-p, if that location is unoccupied. If occupied, the jump is suppressed and clocks start again.
In this system, seen as a toy model of `traffic', the motion of a distinguished or `tagged' particle is of interest. Starting from a stationary state, we study the `typical' behavior of a tagged particle, conditioned to deviate to an `atypical' position at time Nt, for a t>0 fixed. In the course of results, an `upper tail' large deviation principle, in scale N, is established for the position of the tagged particle. Also, with respect to `lower tail' events, in the totally asymmetric version, a connection is made with a `nonentropy' solution of the associated hydrodynamic Burgers equation. This is work with S.R.S. Varadhan (arXiv:2311.0780).
Informally, the one dimensional asymmetric simple exclusion process follows a collection of continuous time random walks on Z interacting as follows: When a clock rings, the particle jumps to the nearest right or left with probabilities p or q=1-p, if that location is unoccupied. If occupied, the jump is suppressed and clocks start again.
In this system, seen as a toy model of `traffic', the motion of a distinguished or `tagged' particle is of interest. Starting from a stationary state, we study the `typical' behavior of a tagged particle, conditioned to deviate to an `atypical' position at time Nt, for a t>0 fixed. In the course of results, an `upper tail' large deviation principle, in scale N, is established for the position of the tagged particle. Also, with respect to `lower tail' events, in the totally asymmetric version, a connection is made with a `nonentropy' solution of the associated hydrodynamic Burgers equation. This is work with S.R.S. Varadhan (arXiv:2311.0780).