The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV, which are both designed to operate with a uniform, multibunch fill pattern. Both rings have a 100 MHz RF system and employ passive harmonic cavities to damp instabilities and increase Touschek lifetime. Recently, a discussion on timing modes at the MAX IV storage rings has been initiated by the user community. Creating opportunities for timing experiments implies operating the rings with other fill patterns than the planned multibunch mode. Such operation can, however, cause transient effects in the passive harmonic cavities which affect the performance of the machine. It is therefore of interest to study the effect on the beam when operating with non-uniform fill...
The MAX-II electron storage ring operates exclusively in multi-bunch mode with all buckets filled. D...
Collective effects in MAX IV 3 GeV storage ring are strongly enhanced by the combination of low emit...
Idle harmonic cavities can be used in low emittance storage rings in order to lengthen the stored bu...
The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV, which are both designe...
The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV. Both rings make use of...
The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV. Both rings make use of...
The MAX IV facility includes two storage rings, operated at 1.5 and 3 GeV energy, for the purpose of...
The MAX IV storage rings, currently under construction in Lund, Sweden, will use third harmonic cavi...
The ongoing trend towards synchrotron light storage rings with ultralow emittance lattices leads to ...
At synchrotron light storage rings there is demand for serving both high-brilliance and timing users...
Time-resolved experimental techniques are increasingly abundant at storage ring facilities. Recent d...
A higher harmonic RF cavity is considered to be an important tool to control the bunch length in sto...
At many storage rings for synchrotron light production there is demand for serving both high-flux an...
The MAX IV 3 GeV storage ring operates with beam of high current and ultralow emittance. These beam ...
A three-day workshop was held in Lund, Sweden, from March 25 to 27, 2015, with a focus on timing mod...
The MAX-II electron storage ring operates exclusively in multi-bunch mode with all buckets filled. D...
Collective effects in MAX IV 3 GeV storage ring are strongly enhanced by the combination of low emit...
Idle harmonic cavities can be used in low emittance storage rings in order to lengthen the stored bu...
The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV, which are both designe...
The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV. Both rings make use of...
The MAX IV facility includes two storage rings operated at 1.5 GeV and 3 GeV. Both rings make use of...
The MAX IV facility includes two storage rings, operated at 1.5 and 3 GeV energy, for the purpose of...
The MAX IV storage rings, currently under construction in Lund, Sweden, will use third harmonic cavi...
The ongoing trend towards synchrotron light storage rings with ultralow emittance lattices leads to ...
At synchrotron light storage rings there is demand for serving both high-brilliance and timing users...
Time-resolved experimental techniques are increasingly abundant at storage ring facilities. Recent d...
A higher harmonic RF cavity is considered to be an important tool to control the bunch length in sto...
At many storage rings for synchrotron light production there is demand for serving both high-flux an...
The MAX IV 3 GeV storage ring operates with beam of high current and ultralow emittance. These beam ...
A three-day workshop was held in Lund, Sweden, from March 25 to 27, 2015, with a focus on timing mod...
The MAX-II electron storage ring operates exclusively in multi-bunch mode with all buckets filled. D...
Collective effects in MAX IV 3 GeV storage ring are strongly enhanced by the combination of low emit...
Idle harmonic cavities can be used in low emittance storage rings in order to lengthen the stored bu...