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Optimization of the working conditions in an accelerator with an anode layer

Optimization of the working conditions in an accelerator with an anode layer 16. A. E. Grin, "Lumineszenz-photometrische Messungen der Energieabsorption im Strahlungs- feld yon Elektronen-Quellen eindimensionaler Fallin Luft," Z. Naturforsch.,12a, 89-95 (1957). 17. J. A. Gledhill, "The range-energy relation for 0.1-500-keV electrons," J. Phys., A6, 1420-1428 (1973). OPTIMIZATION OF THE WORKING CONDITIONS IN AN ACCELERATOR WITH AN ANODE LAYER V. S. Erofeev, ~ V. P. Naumkin, UDC 629.7.036.74 and I. N. Safronov The characteristics of a two-stage ion accelerator with an anode layer [i, 2] indicate that there are at least two modes of operation: accelerative and anomalous. The occurrence of the anomalous state substantially restricts the performance of the accelerator. It is therefore extremely important to elucidate (at least qualitatively) the main factors that influence the change of mode. An experimental study has been made of the effects of the geometry of the working part on the characteristics, and a relationship is drawn up Between the parameters and the working conditions at the limit of transition from the optimum accel- erative mode to the anomalous one. The experiments were performed on a two-stage axial ion accelerator with an anode layer [i]. i. Effects of Working-Gap Geometry on Accelerator Characteristics. An accelerator with an anode layer usually works with a strong http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Applied Mechanics and Technical Physics Springer Journals

Optimization of the working conditions in an accelerator with an anode layer

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References (7)

Publisher
Springer Journals
Copyright
Copyright
Subject
Physics; Classical Mechanics; Fluid- and Aerodynamics; Classical and Continuum Physics; Applications of Mathematics; Mathematical Modeling and Industrial Mathematics; Mechanical Engineering
ISSN
0021-8944
eISSN
1573-8620
DOI
10.1007/BF00911565
Publisher site
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Abstract

16. A. E. Grin, "Lumineszenz-photometrische Messungen der Energieabsorption im Strahlungs- feld yon Elektronen-Quellen eindimensionaler Fallin Luft," Z. Naturforsch.,12a, 89-95 (1957). 17. J. A. Gledhill, "The range-energy relation for 0.1-500-keV electrons," J. Phys., A6, 1420-1428 (1973). OPTIMIZATION OF THE WORKING CONDITIONS IN AN ACCELERATOR WITH AN ANODE LAYER V. S. Erofeev, ~ V. P. Naumkin, UDC 629.7.036.74 and I. N. Safronov The characteristics of a two-stage ion accelerator with an anode layer [i, 2] indicate that there are at least two modes of operation: accelerative and anomalous. The occurrence of the anomalous state substantially restricts the performance of the accelerator. It is therefore extremely important to elucidate (at least qualitatively) the main factors that influence the change of mode. An experimental study has been made of the effects of the geometry of the working part on the characteristics, and a relationship is drawn up Between the parameters and the working conditions at the limit of transition from the optimum accel- erative mode to the anomalous one. The experiments were performed on a two-stage axial ion accelerator with an anode layer [i]. i. Effects of Working-Gap Geometry on Accelerator Characteristics. An accelerator with an anode layer usually works with a strong

Journal

Journal of Applied Mechanics and Technical PhysicsSpringer Journals

Published: Dec 15, 2004

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