High current beams of metal ioni are produced rfflrirntly bj a metal vapnr vacuum arc ion source (aIEVV.4) and multipl) charged ions can be extracted from this sourw. MEVVA ion SOUICP are best suited for low duty cyclr operation as required by heavy ion synchrotrons With typical paramrters (1 Hz and 250 ps pulses) the lifetime of one cathode is about one day and with up to 18 cathodes in a multicathode source three weeks operation with one source will be possib!e. At GSI a multicathode MEVVA ion source has been constructed and inwstigatrd. Esperially pulse TC-producibility and beam fluctuations haw lwtv studird. Trst brnch and lJnilac injector results will be discus:r
The family of MEVVA (metal vapor vacuum arc) high current metal ion sources developed at LBL over th...
The relatively low duty cycle of pulsed accelerators can give rise to problems in matching the chara...
The authors are exploring a new approach for heavy ion beam injection (e.g., into the Relativistic H...
A hstract The Mevva (metal vapor vacuum arc) ion source provides high current beams of multiply-char...
The MEVVA (Metal Vapor Vacuum Arc) ion source is a new kind of source which can produce high current...
We have developed an ion source which can produce high current beams of metal ions. The source uses ...
A new kind of ion source has been developed in which a metal vapor vacuum arc (MEVVA) is used to pro...
Multiply charged ion beam generation is an active field of research for a number of technological ap...
An ion source is described in which a metal vapor vacuum arc is used to create the plasma from which...
The MEVVA ion source can produce high current pulsed beams of metallic ions using a metal vapor vacu...
A miniature multiple beamlet approach to an injector system was recently proposed in order to reduc...
Vacuum arc ion sources provide a convenient tool for the production of intense beams of metal ions. ...
Intense beams of metal ions can be formed from a vacuum arc ion source. Broadbeam extraction is conv...
In this paper a theme touched upon the progress of metal ion sources devoted to metal ion beam impla...
A small, simple ion source for the production of high brightness beams of metal ions is described. A...
The family of MEVVA (metal vapor vacuum arc) high current metal ion sources developed at LBL over th...
The relatively low duty cycle of pulsed accelerators can give rise to problems in matching the chara...
The authors are exploring a new approach for heavy ion beam injection (e.g., into the Relativistic H...
A hstract The Mevva (metal vapor vacuum arc) ion source provides high current beams of multiply-char...
The MEVVA (Metal Vapor Vacuum Arc) ion source is a new kind of source which can produce high current...
We have developed an ion source which can produce high current beams of metal ions. The source uses ...
A new kind of ion source has been developed in which a metal vapor vacuum arc (MEVVA) is used to pro...
Multiply charged ion beam generation is an active field of research for a number of technological ap...
An ion source is described in which a metal vapor vacuum arc is used to create the plasma from which...
The MEVVA ion source can produce high current pulsed beams of metallic ions using a metal vapor vacu...
A miniature multiple beamlet approach to an injector system was recently proposed in order to reduc...
Vacuum arc ion sources provide a convenient tool for the production of intense beams of metal ions. ...
Intense beams of metal ions can be formed from a vacuum arc ion source. Broadbeam extraction is conv...
In this paper a theme touched upon the progress of metal ion sources devoted to metal ion beam impla...
A small, simple ion source for the production of high brightness beams of metal ions is described. A...
The family of MEVVA (metal vapor vacuum arc) high current metal ion sources developed at LBL over th...
The relatively low duty cycle of pulsed accelerators can give rise to problems in matching the chara...
The authors are exploring a new approach for heavy ion beam injection (e.g., into the Relativistic H...
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