Although used in the design and costing of large projects such as linear colliders and fusion tokamaks, the theory of vacuum arcs and gradient limits is not well understood. Almost 120 years after the isolation of vacuum arcs, the exact mechanisms of the arcs and the damage they produce are still being debated. We describe our simple and general model of the vacuum arc that can incorporate all active mechanisms and aims to explain all relevant data. Our four stage model, is based on experiments done at 805 MHz with a variety of cavity geometries, magnetic fields, and experimental techniques as well as data from Atom Probe Tomography and failure analysis of microelectronics. The model considers the trigger, plasma formation, plasma evolution...
In order to build the Compact LInear Collider (CLIC), accelerating structures reaching extremely hig...
With the development of the power industry and the increase in the capacity of power systems, vacuum...
Understanding the microscopic phenomena behind vacuum arc ignition and generation is crucial for bei...
We describe our vacuum arc model, which divides breakdown into four stages: trigger, plasma formatio...
A better understanding of vacuum arcs is desirable in many of today's 'big science' projects includi...
We have been extending and refining our model of vacuum breakdown and gradient limits and describe r...
Although vacuum arcs were first identified over 110 years ago, they are not yet well understood. We ...
We describe breakdown in 805 MHz rf accelerator cavities in terms of a number of self-consistent mec...
We are developing a general model of breakdown and gradient limits that applies to accelerators, alo...
We describe breakdown in rf accelerator cavities in terms of a number of mechanisms. We divide the b...
Vacuum breakdown is one of the primary limitations in the design and construction of high-energy acc...
This paper presents a rst iteration of a model that attempts to describe all aspects of breakdown i...
A study into the fundamental causes of vacuum breakdown on metal electrodes exposed to high vacuum c...
The mechanisms that contribute to RF breakdown/arcing in an antenna environment are being studied. R...
We argue that the physics of unipolar arcs and surface cracks can help understand rf breakdown, and ...
In order to build the Compact LInear Collider (CLIC), accelerating structures reaching extremely hig...
With the development of the power industry and the increase in the capacity of power systems, vacuum...
Understanding the microscopic phenomena behind vacuum arc ignition and generation is crucial for bei...
We describe our vacuum arc model, which divides breakdown into four stages: trigger, plasma formatio...
A better understanding of vacuum arcs is desirable in many of today's 'big science' projects includi...
We have been extending and refining our model of vacuum breakdown and gradient limits and describe r...
Although vacuum arcs were first identified over 110 years ago, they are not yet well understood. We ...
We describe breakdown in 805 MHz rf accelerator cavities in terms of a number of self-consistent mec...
We are developing a general model of breakdown and gradient limits that applies to accelerators, alo...
We describe breakdown in rf accelerator cavities in terms of a number of mechanisms. We divide the b...
Vacuum breakdown is one of the primary limitations in the design and construction of high-energy acc...
This paper presents a rst iteration of a model that attempts to describe all aspects of breakdown i...
A study into the fundamental causes of vacuum breakdown on metal electrodes exposed to high vacuum c...
The mechanisms that contribute to RF breakdown/arcing in an antenna environment are being studied. R...
We argue that the physics of unipolar arcs and surface cracks can help understand rf breakdown, and ...
In order to build the Compact LInear Collider (CLIC), accelerating structures reaching extremely hig...
With the development of the power industry and the increase in the capacity of power systems, vacuum...
Understanding the microscopic phenomena behind vacuum arc ignition and generation is crucial for bei...