Theoretical Foundations of Chemical Engineering.
Vol. 34.
2000.
P. 292-297
Glass capillary tubes as a high granularity gaseous detector of photons and charged particles
We demonstrate that Glass Capillary Tubes (GCP's) can be combined with high efficiency SbCs and bialkali photocathodes. We also report first results from tests of GCP's combined with solid converters of x-ray photons and with secondary electron emitters.
Authors
Peskov V.1
,
Silin E.2
,
Sokolova T.3
,
Radionov I.2,
4
,
Gunji S.5
,
Sakurai H.5
Number of issue
6
Language
English
Pages
1825-1828
Status
Published
Link
Volume
47
Year
2000
Organizations
- 1 Royal Institute of Technology, Stockholm, Sweden
- 2 Institute of Applied Mechanics, Russian Academy of Sciences, Moscow, Russian Federation
- 3 University for Friendship between Nations, Moscow, Russian Federation
- 4 “Reagent” Research & Development Center, Moscow, Russian Federation
- 5 Yamagat University, Yamagata, Japan
Keywords
Aluminum; Antimony compounds; Capillary tubes; Charged particles; Heating; Manufacture; Photocathodes; Photons; Quantum efficiency; Ruthenium; Secondary emission; Bialkali photocathode; Evaporation chamber; Glass capillary tube; Secondary electron emitter; Solid converter; X ray photon; Gas detectors
Date of creation
19.10.2018
Date of change
19.10.2018
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Other records
Zeitschrift fur Naturforschung - Section A Journal of Physical Sciences.
Vol. 55.
2000.
P. 139-144