Add to ORKGFast-cycling synchrotrons are key instruments for accelerator based nuclear and high-energy physics programs. We explore a possibility to construct fast-cycling synchrotrons by using super-ferric, {approx}2 Tesla B-field dipole magnets powered with a superconducting transmission line. We outline both the low temperature (LTS) and the high temperature (HTS) superconductor design options and consider dynamic power losses for an accelerator with operation cycle of 0.5 Hz. We also briefly outline possible power supply system for such accelerator, and discuss the quench protection system for the magnet string powered by a transmission line conductor
New results from the investigation of 2 T superferric model dipoles operating at 4 T/s, 1 Hz are pre...
A superconductive energy storage magnet which is connected to the three phase power system could be ...
Availability of 20 T operational field dipole magnets would open the way for a 16.5 TeV beam energy ...
Novel design options of HTS and LTS superconductor lines for fast-cycling accelerator magnets are pr...
Recently proposed fast cycling accelerators for proton drivers (SF-SPS, CERN and SF-MR, SF-BOOSTER, ...
Recently proposed synchrotrons, SF-SPS (Super-Ferric SPS) at CERN and DSF-MR (Dual Super-Ferric Main...
Recently proposed injector accelerator, Low Energy Ring (LER) for the LHC and fast cycling accelerat...
Recently proposed injector accelerator, Low Energy Ring (LER) for the LHC and fast cycling accelerat...
Up to now, only one synchrotron (Nuclotron at JINR, Dubna) is equipped with fast-pulsed superconduct...
Up to now, only one synchrotron (Nuclotron at JINR, Dubna) is equipped with fast-pulsed superconduct...
The option being considered for the FCC-hh high energy injector is a superconducting synchrotron rep...
The authors outline primary physics motivation, present proposed new arrangement for Fermilab accele...
We propose to build the DSF-MR (Double Super-Ferric Main Ring), 480 GeV, fast-cycling (2 second repe...
An upgrade of the LHC injection chain, and especially the sequence of PS and SPS, up to an extractio...
The concept for the new GSI accelerator facilities is based on a large synchrotron designed for oper...
New results from the investigation of 2 T superferric model dipoles operating at 4 T/s, 1 Hz are pre...
A superconductive energy storage magnet which is connected to the three phase power system could be ...
Availability of 20 T operational field dipole magnets would open the way for a 16.5 TeV beam energy ...
Novel design options of HTS and LTS superconductor lines for fast-cycling accelerator magnets are pr...
Recently proposed fast cycling accelerators for proton drivers (SF-SPS, CERN and SF-MR, SF-BOOSTER, ...
Recently proposed synchrotrons, SF-SPS (Super-Ferric SPS) at CERN and DSF-MR (Dual Super-Ferric Main...
Recently proposed injector accelerator, Low Energy Ring (LER) for the LHC and fast cycling accelerat...
Recently proposed injector accelerator, Low Energy Ring (LER) for the LHC and fast cycling accelerat...
Up to now, only one synchrotron (Nuclotron at JINR, Dubna) is equipped with fast-pulsed superconduct...
Up to now, only one synchrotron (Nuclotron at JINR, Dubna) is equipped with fast-pulsed superconduct...
The option being considered for the FCC-hh high energy injector is a superconducting synchrotron rep...
The authors outline primary physics motivation, present proposed new arrangement for Fermilab accele...
We propose to build the DSF-MR (Double Super-Ferric Main Ring), 480 GeV, fast-cycling (2 second repe...
An upgrade of the LHC injection chain, and especially the sequence of PS and SPS, up to an extractio...
The concept for the new GSI accelerator facilities is based on a large synchrotron designed for oper...
New results from the investigation of 2 T superferric model dipoles operating at 4 T/s, 1 Hz are pre...
A superconductive energy storage magnet which is connected to the three phase power system could be ...
Availability of 20 T operational field dipole magnets would open the way for a 16.5 TeV beam energy ...