Add to ORKGFifty years ago Frank Goward of the Atomic Energy Research Establishment Group at Malvern converted a small American betatron to make the worldÕs first synchrotron. At the same time Marcus Oliphant was planning to build at Birmingham a large proton machine with a ring magnet and variable magnetic field. Ideas for this had come to him during night-shifts tending the electromagnetic separators at Oak Ridge during the war. Some seven years later, in 1953, a group gathered together in Geneva to build the PS. A major contributor to the design work which had made this possible was John Adams. An account of some of the achievements in these eventful years will be presented. CERN has built nine synchrotrons/colliders and two temporary test rings. E...
On 24 November 1959 the first proton beam was accelerated to 24 GeV. This event 60 years ago was dul...
The development of synchrotron science over the last 50 years is reviewed from the perspective of th...
The alternating-gradient proton synchrotrons at CERN and Brookhaven are very similar in size, design...
The idea of a pulsed magnet ring, fundamental to the synchrotron, appeared in a proposal by Oliphant...
The years immediately after World War II saw the development of a new generation of particle acceler...
John Adams acquired an unrivalled reputation for his leading part in designing and constructing the ...
The Study Group for a GeV-scale Proton Synchrotron was launched in 1952 at CERN. Initially, an up-sc...
John Adams acquired an unrivalled reputation for his leading part in designing and constructing the ...
This contribution, a personal recollection by the author, is part of a special issue CERN’s accelera...
John Adams acquired an unrivalled reputation for his leading part in designing and constructing the ...
CERN's proton synchrotron achieved its first high-energy beams 40 years ago. The pioneers at CERN ha...
This contribution, a personal recollection by the author, is part of a special issue CERNs accelerat...
By any standards, John Adams had a most remarkable career. He was involved in three important, emerg...
Constructed in 1959 and celebrating 60 years of operation in 2019, the PS is still an integral part ...
The idea of colliding two particle beams to fully exploit the energy of accelerated particles was fi...
On 24 November 1959 the first proton beam was accelerated to 24 GeV. This event 60 years ago was dul...
The development of synchrotron science over the last 50 years is reviewed from the perspective of th...
The alternating-gradient proton synchrotrons at CERN and Brookhaven are very similar in size, design...
The idea of a pulsed magnet ring, fundamental to the synchrotron, appeared in a proposal by Oliphant...
The years immediately after World War II saw the development of a new generation of particle acceler...
John Adams acquired an unrivalled reputation for his leading part in designing and constructing the ...
The Study Group for a GeV-scale Proton Synchrotron was launched in 1952 at CERN. Initially, an up-sc...
John Adams acquired an unrivalled reputation for his leading part in designing and constructing the ...
This contribution, a personal recollection by the author, is part of a special issue CERN’s accelera...
John Adams acquired an unrivalled reputation for his leading part in designing and constructing the ...
CERN's proton synchrotron achieved its first high-energy beams 40 years ago. The pioneers at CERN ha...
This contribution, a personal recollection by the author, is part of a special issue CERNs accelerat...
By any standards, John Adams had a most remarkable career. He was involved in three important, emerg...
Constructed in 1959 and celebrating 60 years of operation in 2019, the PS is still an integral part ...
The idea of colliding two particle beams to fully exploit the energy of accelerated particles was fi...
On 24 November 1959 the first proton beam was accelerated to 24 GeV. This event 60 years ago was dul...
The development of synchrotron science over the last 50 years is reviewed from the perspective of th...
The alternating-gradient proton synchrotrons at CERN and Brookhaven are very similar in size, design...