A mapping approach to synchronization in the "Zajfman trap": stability
  conditions and the synchronization mechanism

Blümel R; Church D A; Dahan M; David J Tannor; Dehmelt H; Grobe R; Levine M A; Marshall A G; Paul W; Pedersen H B; Pedersen H B; Pedersen H B; Percival I; Strasser D; Strasser D; Taylor J R; Tihamér Geyer; Yu N; Zajfman D

research

A mapping approach to synchronization in the "Zajfman trap": stability conditions and the synchronization mechanism

Authors: Blümel R
Church D A
Dahan M
David J Tannor
Dehmelt H
Grobe R
Levine M A
Marshall A G
Paul W
Pedersen H B
Pedersen H B
Pedersen H B
Percival I
Strasser D
Strasser D
Taylor J R
Tihamér Geyer
Yu N
Zajfman D
Publication date: 20 December 2002
Publisher: 'IOP Publishing'
Doi

Abstract

We present a two particle model to explain the mechanism that stabilizes a bunch of positively charged ions in an "ion trap resonator" [Pedersen etal, Phys. Rev. Lett. 87 (2001) 055001]. The model decomposes the motion of the two ions into two mappings for the free motion in different parts of the trap and one for a compressing momentum kick. The ions' interaction is modelled by a time delay, which then changes the balance between adjacent momentum kicks. Through these mappings we identify the microscopic process that is responsible for synchronization and give the conditions for that regime.Comment: 12 pages, 9 figures; submitted to Phys Rev

Similar works

Full text

Open in the Core reader

Download PDF

Available Versions

Crossref

Last time updated on 03/12/2019