Ground motion and vibration can be a limiting factor in the performance of future colliders, in particular linear colliders and large hadron colliders. Investigations of ground motion have been carried out around the world for several decades. In this review, after brief discussion of ground motion requirements for NLC, TESLA and VLHC, the results of recent investigations of ground motion are presented as well as stabilization techniques developed for the NLC.
This paper is divided into two parts. The first part presents recent measurements of ground motion i...
A prerequisite for a successful nanometer level magnet stabilization and pointing system is a low ba...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...
Ground motion and vibration can be a limiting factor in the performance of future colliders, in part...
Ground motion and vibration can be a limiting factor in the performance of future linear colliders. ...
Beam-based feedback systems play an essential role in the operation of high energy electron-positron...
The performance of various systems of the Next Linear Collider (NLC) have been studied in terms of g...
Optimization of the parameters of a future linear collider requires comprehensive models of ground m...
The performance of high energy linear colliders depends critically on the stability with which they ...
In the vast majority of accelerator applications, ground vibration amplitudes are well below tolerab...
This paper is an overview of a study program, initiated at DESY, to measure ground vibration of vari...
The performance of high energy linear colliders depends critically on the stability with which they ...
Ground motion may be a limiting factor in the performance of future linear colliders. Cultural noise...
Original publication available at http://www.jacow.org/International audienceThe demanding nanometre...
The future TeV linear collider should have extremely small beam emittance to achieve the required lu...
This paper is divided into two parts. The first part presents recent measurements of ground motion i...
A prerequisite for a successful nanometer level magnet stabilization and pointing system is a low ba...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...
Ground motion and vibration can be a limiting factor in the performance of future colliders, in part...
Ground motion and vibration can be a limiting factor in the performance of future linear colliders. ...
Beam-based feedback systems play an essential role in the operation of high energy electron-positron...
The performance of various systems of the Next Linear Collider (NLC) have been studied in terms of g...
Optimization of the parameters of a future linear collider requires comprehensive models of ground m...
The performance of high energy linear colliders depends critically on the stability with which they ...
In the vast majority of accelerator applications, ground vibration amplitudes are well below tolerab...
This paper is an overview of a study program, initiated at DESY, to measure ground vibration of vari...
The performance of high energy linear colliders depends critically on the stability with which they ...
Ground motion may be a limiting factor in the performance of future linear colliders. Cultural noise...
Original publication available at http://www.jacow.org/International audienceThe demanding nanometre...
The future TeV linear collider should have extremely small beam emittance to achieve the required lu...
This paper is divided into two parts. The first part presents recent measurements of ground motion i...
A prerequisite for a successful nanometer level magnet stabilization and pointing system is a low ba...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...