Add to ORKGA feasibility study of a storage ring dedicated to crystalize ion beams is actually in progress at the LNL Legnaro Laboratory. As result of computer simulations, a 38 m circumference storage ring with six super-periods was selected among other possible configurations. Simulation programs suggest the possibility to use such a storage ring in order to study ordered beam structure (string, zig-zag, helix, shell). The problems connected to the shear forces induced in the dipoles have been taken into account and are still under study
A new compact ion cooler ring (S-LSR) in Kyoto University has a circumference of 22.197 m and maximu...
It has been known theoretically that a charged-particle beam circulating in a storage ring exhibits ...
It seems that the time has come in the pursuit of lower and lower beam temperatures to start focusin...
We present a study on a storage ring dedicated to ion beam crystallization. Lattice has been design...
The possibility of generating crystallized ion beams, i.e. beams whose particles are located at fixe...
This is brief summary of the Design Report concerning the low-energy heavy-ion storage ring propos...
After the successful exploitation of electron cooling in several heavy ion storage rings the possibi...
The conceptual design of a low-energy heavy-ion storage ring, called CRYSTAL, proposed for the exper...
The possibility of generating crystallized ion beams has always excited the interest of most people ...
The using of crystalline ion beams can increase of the luminosity in the collider and in experiments...
The use of crystalline ion beams can increase luminosity in the collider and in experiments with tar...
This is brief summary of the Design Report concerning the low-energy heavy-ion storage ring proposed...
During the past several decades, beam crystallization has been studied both theoretically and experi...
The crystallisation of laser-cooled Mg + ion beams circulating in the table-top rf quadrupole storag...
Storage rings are circular machines that store particle beams at a constant energy. Beams are stored...
A new compact ion cooler ring (S-LSR) in Kyoto University has a circumference of 22.197 m and maximu...
It has been known theoretically that a charged-particle beam circulating in a storage ring exhibits ...
It seems that the time has come in the pursuit of lower and lower beam temperatures to start focusin...
We present a study on a storage ring dedicated to ion beam crystallization. Lattice has been design...
The possibility of generating crystallized ion beams, i.e. beams whose particles are located at fixe...
This is brief summary of the Design Report concerning the low-energy heavy-ion storage ring propos...
After the successful exploitation of electron cooling in several heavy ion storage rings the possibi...
The conceptual design of a low-energy heavy-ion storage ring, called CRYSTAL, proposed for the exper...
The possibility of generating crystallized ion beams has always excited the interest of most people ...
The using of crystalline ion beams can increase of the luminosity in the collider and in experiments...
The use of crystalline ion beams can increase luminosity in the collider and in experiments with tar...
This is brief summary of the Design Report concerning the low-energy heavy-ion storage ring proposed...
During the past several decades, beam crystallization has been studied both theoretically and experi...
The crystallisation of laser-cooled Mg + ion beams circulating in the table-top rf quadrupole storag...
Storage rings are circular machines that store particle beams at a constant energy. Beams are stored...
A new compact ion cooler ring (S-LSR) in Kyoto University has a circumference of 22.197 m and maximu...
It has been known theoretically that a charged-particle beam circulating in a storage ring exhibits ...
It seems that the time has come in the pursuit of lower and lower beam temperatures to start focusin...