The N beam position monitor method (N-BPM) which was recently developed for the LHC has significantly improved the precision of optics measurements that are based on BPM turn-by-turn data. The main improvement is due to the consideration of correlations for statistical and systematic error sources, as well as increasing the amount of BPM combinations which are used to derive the β-function at one location. We present how this technique can be applied at light sources like ALBA, and compare the results with other methods
Beam position monitors (BPM) in electron and positron storage rings have evolved from simple systems...
The use of beam position monitors (BPMs) as non-intercepting emittance monitors has been proposed in...
Performance measurement and analysis of the Advanced Photon Source (APS) beam position monitor (BPM)...
The N beam position monitor method (N-BPM) which was recently developed for the LHC has significantl...
Measurement and correction of focusing errors is of great importance for performance and machine pro...
The Large Hadron Collider (LHC) is currently the world's largest particle accelerator with the highe...
Optics measurement algorithms which are based on the measurement of beam position monitor (BPM) turn...
Accurate measurements of the focusing properties of an accelerator are essential for proper operatio...
Beam Position Monitor measurement data are the primary source of optics properties computation for p...
The LHC beta functions (β) can be measured using the phase or the amplitude of betatron oscillations...
Turn-by-turn beam position monitor (BPM) data from multiple BPMs are fitted with a tracking code to ...
This paper describes the Beam Position Monitor (BPM) data acquisition scheme for the Advanced Photon...
Beam position monitors (BPM) for synchrotron light storage rings usually consist of beam pickup elec...
A convenient way of having beam bunch intensity information available all around the LHC ring is to ...
The beam based alignment (BBA) technique is applied to the 2-GeV storage ring of the Pohang Light So...
Beam position monitors (BPM) in electron and positron storage rings have evolved from simple systems...
The use of beam position monitors (BPMs) as non-intercepting emittance monitors has been proposed in...
Performance measurement and analysis of the Advanced Photon Source (APS) beam position monitor (BPM)...
The N beam position monitor method (N-BPM) which was recently developed for the LHC has significantl...
Measurement and correction of focusing errors is of great importance for performance and machine pro...
The Large Hadron Collider (LHC) is currently the world's largest particle accelerator with the highe...
Optics measurement algorithms which are based on the measurement of beam position monitor (BPM) turn...
Accurate measurements of the focusing properties of an accelerator are essential for proper operatio...
Beam Position Monitor measurement data are the primary source of optics properties computation for p...
The LHC beta functions (β) can be measured using the phase or the amplitude of betatron oscillations...
Turn-by-turn beam position monitor (BPM) data from multiple BPMs are fitted with a tracking code to ...
This paper describes the Beam Position Monitor (BPM) data acquisition scheme for the Advanced Photon...
Beam position monitors (BPM) for synchrotron light storage rings usually consist of beam pickup elec...
A convenient way of having beam bunch intensity information available all around the LHC ring is to ...
The beam based alignment (BBA) technique is applied to the 2-GeV storage ring of the Pohang Light So...
Beam position monitors (BPM) in electron and positron storage rings have evolved from simple systems...
The use of beam position monitors (BPMs) as non-intercepting emittance monitors has been proposed in...
Performance measurement and analysis of the Advanced Photon Source (APS) beam position monitor (BPM)...