Add to ORKGUnderstanding slow and fast ground motion is important for the successful operation and design for present and future colliders. Since 2000 there have been several studies of ground motion at Fermilab. Several different types of HLS (hydro static level sensors) have been used to study slow ground motion (less than 1 hertz) seismometers have been used for fast (greater than 1 hertz) motions. Data have been taken at the surface and at locations 100 meters below the surface. Data of recent slow ground motion measurements with HLSs, many years of alignment data and results of the ATL-analysis are presented and discussed
Ground motion and vibration can be a limiting factor in the performance of future colliders, in part...
Optimization of the parameters of a future linear collider requires comprehensive models of ground m...
This paper is an overview of a study program, initiated at DESY, to measure ground vibration of vari...
bstract A series of new ground motion studies using an pgraded hydrostatic level system are planned ...
The power spectrum density and coherence function for slow ground motions are studied for the constr...
Ground motion and vibration can be a limiting factor in the performance of future linear colliders. ...
Since October 1999 we carry out continuous measurements of the slow ground motion on and nearby Ferm...
The proposed location for the International Linear Collider (ILC) in the Americas region is Fermilab...
Ground motion can cause significant deterioration in the luminosity of a linear collider. Vibration ...
Long term ground stability is essential for achieving the performance goals of the Next Linear Colli...
Ground motion can cause significant beam emittance growth and orbit oscillations in large hadron col...
Long term ground stability is essential for achieving the performance goals of the Next Linear Colli...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...
The High Luminosity LHC (HL-LHC) will require unprecedented orbit stability at the low beta collisio...
Ground motion and vibration can be a limiting factor in the performance of future colliders, in part...
Optimization of the parameters of a future linear collider requires comprehensive models of ground m...
This paper is an overview of a study program, initiated at DESY, to measure ground vibration of vari...
bstract A series of new ground motion studies using an pgraded hydrostatic level system are planned ...
The power spectrum density and coherence function for slow ground motions are studied for the constr...
Ground motion and vibration can be a limiting factor in the performance of future linear colliders. ...
Since October 1999 we carry out continuous measurements of the slow ground motion on and nearby Ferm...
The proposed location for the International Linear Collider (ILC) in the Americas region is Fermilab...
Ground motion can cause significant deterioration in the luminosity of a linear collider. Vibration ...
Long term ground stability is essential for achieving the performance goals of the Next Linear Colli...
Ground motion can cause significant beam emittance growth and orbit oscillations in large hadron col...
Long term ground stability is essential for achieving the performance goals of the Next Linear Colli...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...
Ground motion is of great importance for the performance of any future Linear Collider, because it i...
The High Luminosity LHC (HL-LHC) will require unprecedented orbit stability at the low beta collisio...
Ground motion and vibration can be a limiting factor in the performance of future colliders, in part...
Optimization of the parameters of a future linear collider requires comprehensive models of ground m...
This paper is an overview of a study program, initiated at DESY, to measure ground vibration of vari...