Add to ORKGTo minimize losses during slow extraction towards N- and W-Area, electrostatic septa in long straight section 2 and 6 precede the magnetic septa. The 2 electrode plates, visible at the entrance to the septum, establish a vertical electrical field to remove the ions created by the circulating beam in the residual gas. See 7801286 for such a septum in its tank, and 7501201 for a detailed view of the wire suspension. See also 7501120X
In the Fermilab Tevatron Switchyard proton beam splits ae initiated by a wire array electrostatic se...
The Super Proton Synchrotron (SPS) at CERN provides slow-extracted beam for Fixed Target experiments...
Pulsed septum magnet for ejection from PS straight sections 61/62 to the East-Hall. This septum magn...
To minimize losses during slow extraction towards N- and W-Area, electrostatic septa in long straigh...
To minimize losses during slow extraction towards N- and W-Areas, electrostatic septa in long straig...
The extraction system for the N-Area is located in LSS2 (another one for the W-Area, now abandoned, ...
For "Continuous Transfer" to the SPS, the PS beam, after acceleration, is peeled off in 5 turns. To ...
One of the 3-m long electrostatics septa. The septum itself consists of 0.15 mm thick molybdenum wir...
The authors study the leakage field in electrostatic wire septums like those used for the extraction...
The SPS is equipped with a North extraction channel to a fixed target beam line. This channel is equ...
Downstream end of a 17 m beam for extraction, which carries five pairs of septum electromagnets in t...
Electrostatic septum-end view with the cathode (on the right), the wire anode (with its iron traps) ...
Introduction of an SPS septum electromagnet used for extraction into the vacuum tank. On top can be ...
SPS long straight section (LSS) with a series of 5 septum tanks for slow extraction (view in the dir...
The electrostatic septum for the slow extraction system of the JHF 50-GeV proton synchrotron is one ...
In the Fermilab Tevatron Switchyard proton beam splits ae initiated by a wire array electrostatic se...
The Super Proton Synchrotron (SPS) at CERN provides slow-extracted beam for Fixed Target experiments...
Pulsed septum magnet for ejection from PS straight sections 61/62 to the East-Hall. This septum magn...
To minimize losses during slow extraction towards N- and W-Area, electrostatic septa in long straigh...
To minimize losses during slow extraction towards N- and W-Areas, electrostatic septa in long straig...
The extraction system for the N-Area is located in LSS2 (another one for the W-Area, now abandoned, ...
For "Continuous Transfer" to the SPS, the PS beam, after acceleration, is peeled off in 5 turns. To ...
One of the 3-m long electrostatics septa. The septum itself consists of 0.15 mm thick molybdenum wir...
The authors study the leakage field in electrostatic wire septums like those used for the extraction...
The SPS is equipped with a North extraction channel to a fixed target beam line. This channel is equ...
Downstream end of a 17 m beam for extraction, which carries five pairs of septum electromagnets in t...
Electrostatic septum-end view with the cathode (on the right), the wire anode (with its iron traps) ...
Introduction of an SPS septum electromagnet used for extraction into the vacuum tank. On top can be ...
SPS long straight section (LSS) with a series of 5 septum tanks for slow extraction (view in the dir...
The electrostatic septum for the slow extraction system of the JHF 50-GeV proton synchrotron is one ...
In the Fermilab Tevatron Switchyard proton beam splits ae initiated by a wire array electrostatic se...
The Super Proton Synchrotron (SPS) at CERN provides slow-extracted beam for Fixed Target experiments...
Pulsed septum magnet for ejection from PS straight sections 61/62 to the East-Hall. This septum magn...