Planar accelerating millimeter-wave structures have been studied during the last few years at Argonne National Laboratory in collaboration with Technical University of Berlin. The cavity structures are intended to be manufactured by using x-ray lithography microfabrication technology. A complete structure consists of two identical planar half structures put together face-to-face. Since microfabrication technology can make a single-depth indentation on a planar substrate, realizing the constant impedance structure was possible but a constant gradient structure was difficult; changing the group velocity along the structure while maintaining the gap and the depth of the indentation constant was difficult. A constant gradient structure has been...
Recent microfabrication technologies based on LIGA (German acronym for Li thographe, Galvanoformu...
Millimeter-wave (mmWave) accelerating cavity structures have been manufactured using the deep x-ray ...
Modern microfabrication techniques based on deep etch x-ray lithography (LIGA)[1] can be used to pro...
Planar accelerating millimeter-wave structures have been studied during the last few years at Argonn...
Planar accelerating millimeter-wave structures have been studied during the last few years at Argonn...
Feasibility studies on the planar millimeter-wave cavity structures have been made. The structures c...
Travelling wave accelerators can be built either with constant im-pedance or constant gradient struc...
There is a growing interest in the development of high gradient ({ge} 1 GeV/m) accelerating structur...
Recent microfabrication technologies based on the LIGA (German acronym for Lithographe, Galvanoformu...
Institute, a new technological solution of high gradient accelerating structure was elaborated, and ...
A cavity structure is described having at least two opposing planar housing members spaced apart to ...
There is a growing interest in the development of very high gradient ({ge} GeV/meter) accelerating s...
Millimeter-wave (mmWave) accelerating cavity structures have been manufactured using the deep x-ray ...
Millimeter-wave rf cavities for use in linear accelerators, free-electron lasers, and mm-wave undula...
Recent microfabrication technologies based on LIGA (German acronym for Li thographe, G alvanoformung...
Recent microfabrication technologies based on LIGA (German acronym for Li thographe, Galvanoformu...
Millimeter-wave (mmWave) accelerating cavity structures have been manufactured using the deep x-ray ...
Modern microfabrication techniques based on deep etch x-ray lithography (LIGA)[1] can be used to pro...
Planar accelerating millimeter-wave structures have been studied during the last few years at Argonn...
Planar accelerating millimeter-wave structures have been studied during the last few years at Argonn...
Feasibility studies on the planar millimeter-wave cavity structures have been made. The structures c...
Travelling wave accelerators can be built either with constant im-pedance or constant gradient struc...
There is a growing interest in the development of high gradient ({ge} 1 GeV/m) accelerating structur...
Recent microfabrication technologies based on the LIGA (German acronym for Lithographe, Galvanoformu...
Institute, a new technological solution of high gradient accelerating structure was elaborated, and ...
A cavity structure is described having at least two opposing planar housing members spaced apart to ...
There is a growing interest in the development of very high gradient ({ge} GeV/meter) accelerating s...
Millimeter-wave (mmWave) accelerating cavity structures have been manufactured using the deep x-ray ...
Millimeter-wave rf cavities for use in linear accelerators, free-electron lasers, and mm-wave undula...
Recent microfabrication technologies based on LIGA (German acronym for Li thographe, G alvanoformung...
Recent microfabrication technologies based on LIGA (German acronym for Li thographe, Galvanoformu...
Millimeter-wave (mmWave) accelerating cavity structures have been manufactured using the deep x-ray ...
Modern microfabrication techniques based on deep etch x-ray lithography (LIGA)[1] can be used to pro...