Add to ORKGThe formation of nearly uniformly distributed beams has been accomplished by the use of multipole magnets. Multipole fields, however, are an inappropriate basis for creating precise distributions, particularly since substantial departures from uniformity are produced with a finite number of multipole elements. A more appropriate formalism that allows precise formation of a desired distribution is presented. Design of nonlinear magnets for uniform-beam production and the optics of an accompanying expansion system are presented
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The design and specification choices are described for a PM quadrupole used to enable beam transpor...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The formation of nearly uniformly distributed beams has been accomplished by the use of multipole ma...
It has been known that uniformization of a beam with a Gaussian profile is possible utilizing odd-or...
Two prototype nonlinear multipole magnets have been designed for use in the 800-MeV beam test of the...
The intensity distribution of a typical particle beam is an approximate Gaussian distribution while ...
The use of multipole magnets enables us to transform the transverse profile of a charged-particle be...
The use of multipole magnets enables us to transform the transverse profile of a charged-particle be...
This monograph presents research on the transversal beam dynamics of accelerators and evaluates and ...
The strength and astounding simplicity of certain permanent magnet materials allow a wide variety of...
A successfully tested method is described which achieves a more uniform illumination of an extended ...
This monograph presents research on the transversal beam dynamics of accelerators and evaluates and ...
A uniformly irradiating beam is beneficial in spallation for preventing irregular wear on the target...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The design and specification choices are described for a PM quadrupole used to enable beam transpor...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The formation of nearly uniformly distributed beams has been accomplished by the use of multipole ma...
It has been known that uniformization of a beam with a Gaussian profile is possible utilizing odd-or...
Two prototype nonlinear multipole magnets have been designed for use in the 800-MeV beam test of the...
The intensity distribution of a typical particle beam is an approximate Gaussian distribution while ...
The use of multipole magnets enables us to transform the transverse profile of a charged-particle be...
The use of multipole magnets enables us to transform the transverse profile of a charged-particle be...
This monograph presents research on the transversal beam dynamics of accelerators and evaluates and ...
The strength and astounding simplicity of certain permanent magnet materials allow a wide variety of...
A successfully tested method is described which achieves a more uniform illumination of an extended ...
This monograph presents research on the transversal beam dynamics of accelerators and evaluates and ...
A uniformly irradiating beam is beneficial in spallation for preventing irregular wear on the target...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...
The design and specification choices are described for a PM quadrupole used to enable beam transpor...
The multiple multipole expansion, or MME technique is a numerical method for solving electromagnetic...