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The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)

A cryopump design of tubular geometry is presented, which incorporates in its vacuum system only a very small fraction of ambient temperature walls. Furthermore, the total amount of the 300K radiation reaching the cold baffles is reduced by about two orders of magnitude. This has the double advantag...

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Detalles Bibliográficos
Autores principales: Benvenuti, C, Blechschmidt, Diether
Lenguaje:eng
Publicado: 1974
Materias:
Acceso en línea:http://cds.cern.ch/record/880035
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author Benvenuti, C
Blechschmidt, Diether
author_facet Benvenuti, C
Blechschmidt, Diether
author_sort Benvenuti, C
collection CERN
description A cryopump design of tubular geometry is presented, which incorporates in its vacuum system only a very small fraction of ambient temperature walls. Furthermore, the total amount of the 300K radiation reaching the cold baffles is reduced by about two orders of magnitude. This has the double advantage that the baffles can be cooled at lower temperatures and can be allowed to be more 'transparent' to radiation and hence to molecules. The new model has been entirely optimised both for molecular and radiation transmission by a Monte Carlo method. It is designed to have a pumping speed of 3000 ls/sup -1/ for H/sub 2/ at the two entrances, an axial conductance providing a pressure drop across the pump of a factor of ten and a limit pressure in the 10/sup -14/ Torr range. (6 refs).
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1974
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spelling cern-8800352019-09-30T06:29:59Zhttp://cds.cern.ch/record/880035engBenvenuti, CBlechschmidt, DietherThe optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)Detectors and Experimental TechniquesA cryopump design of tubular geometry is presented, which incorporates in its vacuum system only a very small fraction of ambient temperature walls. Furthermore, the total amount of the 300K radiation reaching the cold baffles is reduced by about two orders of magnitude. This has the double advantage that the baffles can be cooled at lower temperatures and can be allowed to be more 'transparent' to radiation and hence to molecules. The new model has been entirely optimised both for molecular and radiation transmission by a Monte Carlo method. It is designed to have a pumping speed of 3000 ls/sup -1/ for H/sub 2/ at the two entrances, an axial conductance providing a pressure drop across the pump of a factor of ten and a limit pressure in the 10/sup -14/ Torr range. (6 refs).oai:cds.cern.ch:8800351974
spellingShingle Detectors and Experimental Techniques
Benvenuti, C
Blechschmidt, Diether
The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)
title The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)
title_full The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)
title_fullStr The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)
title_full_unstemmed The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)
title_short The optimization of a tubular condensation cryopump for pressures below 10/sup -13/ Torr (for intersecting storage rings for protons)
title_sort optimization of a tubular condensation cryopump for pressures below 10/sup -13/ torr (for intersecting storage rings for protons)
topic Detectors and Experimental Techniques
url http://cds.cern.ch/record/880035
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