E. Tanke
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View article: Frequency jump using 704.4 MHz radio-frequency quadrupole and cross-bar <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mi>H</mml:mi></mml:math>-type drift tube linear accelerators
Frequency jump using 704.4 MHz radio-frequency quadrupole and cross-bar -type drift tube linear accelerators Open
A large-scale proton or H^{−} accelerator often requires a jump in radio frequency, typically in the beam velocity range of β=0.4–0.6. The MYRRHA linac has two frequency jumps: one at β≅0.2 and another one in the typical beam velocity rang…
View article: Erratum: Realizing long radio-frequency quadrupole accelerators with multiple shorter and independent cavities [Phys. Rev. Accel. Beams <b>23</b>, 042003 (2020)]
Erratum: Realizing long radio-frequency quadrupole accelerators with multiple shorter and independent cavities [Phys. Rev. Accel. Beams <b>23</b>, 042003 (2020)] Open
Received 1 September 2020DOI:https://doi.org/10.1103/PhysRevAccelBeams.23.109901Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work mus…
View article: Photocathode study of the CompactLight Collaboration for a novel XFEL development
Photocathode study of the CompactLight Collaboration for a novel XFEL development Open
The latest generation of light sources, the Free Electron Lasers that are capable of delivering high-intensity photon beams of unprecedented brilliance and quality, provide a substantially novel way to probe matter with a very high, largel…
View article: Mechanical engineering, design and structural health monitoring at the ESS facility to enable science
Mechanical engineering, design and structural health monitoring at the ESS facility to enable science Open
The European Spallation Source (ESS), which is established as a European Research Infrastructure Consortium (ERIC), is a multi-disciplinary research facility that is currently under construction. ESS has as vision to develop to a world cla…
View article: Light Sources in Europe—Case Study: The COMPACTLIGHT Collaboration
Light Sources in Europe—Case Study: The COMPACTLIGHT Collaboration Open
The light sources currently existing or under development in Europe address needs in the Central and Northwestern regions, whereas in the Southeastern European region there is no facility of this kind. The CompactLight collaboration, an H2…
View article: Engineering Design Integration & Non-Destructive Testing for the ESS accelerator
Engineering Design Integration & Non-Destructive Testing for the ESS accelerator Open
The ESS linac is under construction by the ESS partner institutes (so- called In-Kind Contributors - IKC) and will operate the most powerful proton beam ever for neutron spallation source. The linac delivers 5 MW via 2 GeV protons at a rep…
View article: The CompactLight Design Study Project
The CompactLight Design Study Project Open
The H₂020 CompactLight Project (www. CompactLight.eu) aims at designing the next generation of compact X-rays Free-Electron Lasers, relying on very high gradient accelerating structures (X-band, 12 GHz), the most advanced concepts for brig…
View article: Status of the CompactLight Design Study
Status of the CompactLight Design Study Open
CompactLight (XLS) is an International Collaboration of 24 partners and 5 third parties, funded by the European Union through the Horizon 2020 Research and Innovation Programme. The main goal of the project, which started in January 2018 w…
View article: DYNAC: Extensions, Updates, and Upgrades
DYNAC: Extensions, Updates, and Upgrades Open
DYNAC is a multi-particle beamline simulation code suitable for modelling of the motion of protons, heavy ions, or electrons, moving through linear accelerators and beam transport lines. In this paper, we document extensions written in Pyt…
View article: Status of and Plans for the Beam Dynamics Program DYNAC
Status of and Plans for the Beam Dynamics Program DYNAC Open
A short introduction to the linac beam dynamics code DYNAC will be given. Recently implemented features, such as a Graphical User Interface (GUI), will be presented and benchmarking of the Radio Frequency Quadrupole (RFQ) model will be dis…
View article: Strategy for the engineering integration of the ESS accelerator
Strategy for the engineering integration of the ESS accelerator Open
The European Spallation Source (ESS), currently under construction in Lund, Sweden, will be the world’s most powerful source of neutrons. The goal is to deliver neutrons to users in 2019 and reach full power sometime in the middle of the f…
View article: The Spallation Neutron Source Beam Commissioning and Initial Operations
The Spallation Neutron Source Beam Commissioning and Initial Operations Open
The Spallation Neutron Source (SNS) accelerator delivers a one mega-Watt beam to a mercury target to produce neutrons used for neutron scattering materials research. It delivers ~ 1 GeV protons in short (< 1 us) pulses at 60 Hz. At an aver…
View article: A Planning and Scheduling System for the ESS Accelerator Project
A Planning and Scheduling System for the ESS Accelerator Project Open
Constructing a large, international research infrastructure is a complex task, especially when a large fraction of the equipment is delivered as in-kind contributions. A mature project management approach is essential to lead the planning …
View article: Status of the ESS Accelerator Construction Project
Status of the ESS Accelerator Construction Project Open
The European spallation source is now under construction just outside in Lund in Sweden. The driver is a 5 MW linac operating at a duty factor of 4% and at 2 GeV. The detailed design of the buildings is just being completed, and the castin…