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The matters of creation and structural optimization of large-dimensioned cathode-heating units for relativistic electron injectors of physical and processing plants and super-powerful electron-beam devices are examined.
A major portion of problems related to theory of vacuum electronics have been demonstrated as being ill-posed. As this takes place, only part of ill-posed problems that fall, according to R. Baire, in the 1st class of analytically expressible functions can be solved by numerical methods. A numerical solution to the remainder of analytically expressible functions that have the only exact solution will...
The matters of creation and structural optimization of large-dimensioned cathode-heating units for relativistic electron injectors of physical and processing plants and super-powerful electron-beam devices are examined.
The matters of creation and structural optimization of large-dimensioned cathode-heating units for relativistic electron injectors of physical and processing plants and super-powerful electron-beam devices are examined.
It is shown that current take-off of matrix field nanoemitters, taking into account a statistical nature of the field enhancement factor distribution of separate emitters, can be written in the form of the Fredholm equation of the first kind. A method for determination of statistical function of the field enhancement factor distribution of the matrix field emission nanostructures is proposed from...
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