Performances of most storage rings are limited by coherent instabilities. Transverse instabilities are destructive for a stored beam. One of the instabilities, the resistive wall instability, is driven by both short range and long range wake-fields. It can be dangerous in single bunch operation as wel
Collective effects in MAX IV 3 GeV storage ring are strongly enhanced by the combination of low emit...
The Fermilab Main Ring has a strong transverse instability identified as a resistive wall1. Previous...
In the damping rings of the International Linear Collider (ILC), the resistive-wall instability is o...
The last generation of storage rings is designed to operate with low emittances (longitudinal and tr...
For a single bunch storage ring the following single bunch transverse instabilities can be harmful: ...
We study transverse coupled-bunch instabilities driven by the resistive-wall impedance in the NLC Ma...
Options being considered for the ILC Damping Rings include lattices with circumferences up to 17 km....
In this paper, concerning the fast single bunch transverse instability, it is believed that the elim...
Beam breakup (BBU) caused by the long-range transverse resistive-wall wake in ERLs is studied mainly...
In this note coherent instability thresholds are estimated for the SSC and discuss some of the subse...
Transverse multibunch instabilities including the resistive wall instability and ion instabilities a...
The Advanced Photon Source (APS) storage ring is a 7-GeV light source with 40 straight sections. Int...
Bunched beams can be unstable against longitudinal collective oscillations. In particular, the inter...
Transverse instability of a bunched beam is investigated with synchrotron oscillations, space charge...
The Advanced Photon Source (APS) storage ring is a 7-GeV light source with 40 straight sections. Int...
Collective effects in MAX IV 3 GeV storage ring are strongly enhanced by the combination of low emit...
The Fermilab Main Ring has a strong transverse instability identified as a resistive wall1. Previous...
In the damping rings of the International Linear Collider (ILC), the resistive-wall instability is o...
The last generation of storage rings is designed to operate with low emittances (longitudinal and tr...
For a single bunch storage ring the following single bunch transverse instabilities can be harmful: ...
We study transverse coupled-bunch instabilities driven by the resistive-wall impedance in the NLC Ma...
Options being considered for the ILC Damping Rings include lattices with circumferences up to 17 km....
In this paper, concerning the fast single bunch transverse instability, it is believed that the elim...
Beam breakup (BBU) caused by the long-range transverse resistive-wall wake in ERLs is studied mainly...
In this note coherent instability thresholds are estimated for the SSC and discuss some of the subse...
Transverse multibunch instabilities including the resistive wall instability and ion instabilities a...
The Advanced Photon Source (APS) storage ring is a 7-GeV light source with 40 straight sections. Int...
Bunched beams can be unstable against longitudinal collective oscillations. In particular, the inter...
Transverse instability of a bunched beam is investigated with synchrotron oscillations, space charge...
The Advanced Photon Source (APS) storage ring is a 7-GeV light source with 40 straight sections. Int...
Collective effects in MAX IV 3 GeV storage ring are strongly enhanced by the combination of low emit...
The Fermilab Main Ring has a strong transverse instability identified as a resistive wall1. Previous...
In the damping rings of the International Linear Collider (ILC), the resistive-wall instability is o...