The CERN PS complex (CPS) comprises three accelerators in series: the 50 MeV Linac, the 800 MeV Booster (PSB) and the 28 GeV main synchrotron (PS). Since the beginning of May 1976 this complex has delivered beams to three main users: the 400 GeV SPS, the 30 GeV ISR and the 25 GeV PS experimental areas
The pulse structure of proton linacs is determined by the linac energy, the RF system, and the maxim...
The LHC [1] will be supplied, via the SPS, with protons from the pre-injector chain comprising Linac...
As part of the preparation of the PS as injector for LHC, two new 80 MHz cavities have been designed...
The CERN 800 MeV PSB consists of four synchrotrons stacked one on top of the other. The injector is ...
The CERN Proton Synchrotron Booster (PSB) has been running for more than 30 years. Originally design...
The CERN PS Booster (PSB) produces a variety of beam flavours for the LHC. While the nominal LHC phy...
The CERN 800 MeV PS Booster (PSB) has been in its running-in stage since May 1972. It consists of 4 ...
The replacement of CERN's existing 26 GeV Proton Synchrotron (PS) machine with a separated-function ...
For efficient antiproton production, a maximum number of Preliminary experiments had shown that the ...
The PS booster which accelerates protons from the linac at an energy of 50 MeV to an energy of 800 M...
The nominal operating scheme for feeding LHC with protons [1] makes use of the PS injectors complex....
The CERN SPS receives beams from the CPS by the continuous transfer process. The authors outline the...
In 1998 the CERN SPS accelerator finished a five years long program providing 450GeV proton beams fo...
The transfer line of the PS Booster(PSB) recombines beams from the 4 vertically stacked rings of the...
In 1995 the CERN SPS was used during two months to accelerate fully stripped ions of the Pb208 isoto...
The pulse structure of proton linacs is determined by the linac energy, the RF system, and the maxim...
The LHC [1] will be supplied, via the SPS, with protons from the pre-injector chain comprising Linac...
As part of the preparation of the PS as injector for LHC, two new 80 MHz cavities have been designed...
The CERN 800 MeV PSB consists of four synchrotrons stacked one on top of the other. The injector is ...
The CERN Proton Synchrotron Booster (PSB) has been running for more than 30 years. Originally design...
The CERN PS Booster (PSB) produces a variety of beam flavours for the LHC. While the nominal LHC phy...
The CERN 800 MeV PS Booster (PSB) has been in its running-in stage since May 1972. It consists of 4 ...
The replacement of CERN's existing 26 GeV Proton Synchrotron (PS) machine with a separated-function ...
For efficient antiproton production, a maximum number of Preliminary experiments had shown that the ...
The PS booster which accelerates protons from the linac at an energy of 50 MeV to an energy of 800 M...
The nominal operating scheme for feeding LHC with protons [1] makes use of the PS injectors complex....
The CERN SPS receives beams from the CPS by the continuous transfer process. The authors outline the...
In 1998 the CERN SPS accelerator finished a five years long program providing 450GeV proton beams fo...
The transfer line of the PS Booster(PSB) recombines beams from the 4 vertically stacked rings of the...
In 1995 the CERN SPS was used during two months to accelerate fully stripped ions of the Pb208 isoto...
The pulse structure of proton linacs is determined by the linac energy, the RF system, and the maxim...
The LHC [1] will be supplied, via the SPS, with protons from the pre-injector chain comprising Linac...
As part of the preparation of the PS as injector for LHC, two new 80 MHz cavities have been designed...
DOI
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