Add to ORKGFor the TESLA linear collider 1.3 GHz RF sources with 10 MW peak power and about 70 % efficiency are needed. As an alternative to the development of a Multibeam-Klystron, we investigate the feasibility of an IOT (Inductive Output Tube). This is a very compact RF source: The time struc-ture of the beam is produced by a gated emission cathode and the output cavity is directly adjacent to the anode. Un-like IOTs, conventional klystrons lose some of their de-sign efficiency when they are operated below saturation, because only the RF component of the beam is reduced and not the DC beam current. In contrast to this the cathode current of an IOT is controlled by the drive power. In order to keep the gun voltage low, we plan to investigate a devic...
The most challenging rf source requirements for high-energy accelerators presently being studied or ...
For the TESLA FEL operation very short intense bunches of electrons have to be accelerated. These bu...
A 500 kW electron linear accelerator is being proposed at TRIUMF for radioactive ion beam production...
There is an increasing requirement within the particle accelerator community for CW RF power sources...
The MIT X-Ray Laser project, to produce output in the 0.3 to 100 nanometer range, is based on a supe...
This program investigated development of a multiple beam inductive output tube (IOT) to produce 30 M...
A 10-MW, L-band multi beam klystron (MBK) for TESLA linear collider and TESLA XFEL has been under de...
The Tesla linear collider requires 600 pieces of 10MW L-Band klystrons operating at a pulse duration...
Modern accelerator projects demand increasing of the power and operating frequency from the RF sourc...
The Tesla linear collider requires 600 pieces of 10MW L-Band klystrons operating at a pulse duration...
AbstractThe most important part of the particle accelerators [1] – is the power generator together w...
The RF needs for the TESLA Test Facility a DESY are described. Possible klystron‐modulator schemes, ...
An Inductive Output Tube (IOT) differs from a klystron in several aspects which require special trea...
The design goals for new Klystrons are governed by the rf power needs and efficiency requirements of...
The classical generation of RF power with klystrons and tetrodes is evolving and changing to meet th...
The most challenging rf source requirements for high-energy accelerators presently being studied or ...
For the TESLA FEL operation very short intense bunches of electrons have to be accelerated. These bu...
A 500 kW electron linear accelerator is being proposed at TRIUMF for radioactive ion beam production...
There is an increasing requirement within the particle accelerator community for CW RF power sources...
The MIT X-Ray Laser project, to produce output in the 0.3 to 100 nanometer range, is based on a supe...
This program investigated development of a multiple beam inductive output tube (IOT) to produce 30 M...
A 10-MW, L-band multi beam klystron (MBK) for TESLA linear collider and TESLA XFEL has been under de...
The Tesla linear collider requires 600 pieces of 10MW L-Band klystrons operating at a pulse duration...
Modern accelerator projects demand increasing of the power and operating frequency from the RF sourc...
The Tesla linear collider requires 600 pieces of 10MW L-Band klystrons operating at a pulse duration...
AbstractThe most important part of the particle accelerators [1] – is the power generator together w...
The RF needs for the TESLA Test Facility a DESY are described. Possible klystron‐modulator schemes, ...
An Inductive Output Tube (IOT) differs from a klystron in several aspects which require special trea...
The design goals for new Klystrons are governed by the rf power needs and efficiency requirements of...
The classical generation of RF power with klystrons and tetrodes is evolving and changing to meet th...
The most challenging rf source requirements for high-energy accelerators presently being studied or ...
For the TESLA FEL operation very short intense bunches of electrons have to be accelerated. These bu...
A 500 kW electron linear accelerator is being proposed at TRIUMF for radioactive ion beam production...