Add to ORKGThe theoretical minimum emittance (TME) for a storage ring is given if both the horizontal betatron and the disper-sion function have a minimum in the middle oft the bend-ing magnet and furthermore meet special values. In most of the storage rings the emittance is a factor 2 to 5 higher as the TME-value. The TME can be reached with a new type of lattice composed of combined function bending magnets and a quadrupole doublet at each side following by a drif
The theoretical minimum emittance cells are the optimal configurations for achieving the absolute mi...
Whether 1.3 or 3 GHz is adopted, there will be little difference between the magnet lattices. The sm...
In this note, we describe a design of lattice, which is by no means optimized for the ultimate perfo...
A simple treatment of minimum emittance theory in storage rings is presented, favoring vector and ma...
It is a challenge to produce a practical design of an electron storage ring with a theorectical mini...
Low emittance is desired in most synchrotron light source and damping ring designs. The work present...
The TME (Theoretical Minimum Emittance) cell is being used now for designing the lattice of differen...
In recent years nonuniform dipoles with bending-radius variation have been studied for reducing stor...
This paper uses the advanced light source (ALS) storage-ring lattice as an example to illustrate the...
The layout of the machine is shown in Fig. 1. The two rings cross in the horizontal plane in two poi...
This lecture introduces storage-ring lattice desing. Applying the formalism that has been establishe...
A unit cell with one homogeneous bending magnet is commonly used in the design of multi-bend achroma...
Low emittance machines require lattices with many magnets of short length. Furthermore, successful l...
The basic optics design scope in lepton rings is to match the sections in either side of the bending...
The lattice for the future MAX-IV storage rings at MAX-Lab has been studied. The MAX IV facility con...
The theoretical minimum emittance cells are the optimal configurations for achieving the absolute mi...
Whether 1.3 or 3 GHz is adopted, there will be little difference between the magnet lattices. The sm...
In this note, we describe a design of lattice, which is by no means optimized for the ultimate perfo...
A simple treatment of minimum emittance theory in storage rings is presented, favoring vector and ma...
It is a challenge to produce a practical design of an electron storage ring with a theorectical mini...
Low emittance is desired in most synchrotron light source and damping ring designs. The work present...
The TME (Theoretical Minimum Emittance) cell is being used now for designing the lattice of differen...
In recent years nonuniform dipoles with bending-radius variation have been studied for reducing stor...
This paper uses the advanced light source (ALS) storage-ring lattice as an example to illustrate the...
The layout of the machine is shown in Fig. 1. The two rings cross in the horizontal plane in two poi...
This lecture introduces storage-ring lattice desing. Applying the formalism that has been establishe...
A unit cell with one homogeneous bending magnet is commonly used in the design of multi-bend achroma...
Low emittance machines require lattices with many magnets of short length. Furthermore, successful l...
The basic optics design scope in lepton rings is to match the sections in either side of the bending...
The lattice for the future MAX-IV storage rings at MAX-Lab has been studied. The MAX IV facility con...
The theoretical minimum emittance cells are the optimal configurations for achieving the absolute mi...
Whether 1.3 or 3 GHz is adopted, there will be little difference between the magnet lattices. The sm...
In this note, we describe a design of lattice, which is by no means optimized for the ultimate perfo...