Aluminium oxide microchannel plates

Nuclear Physics B - Proceedings Supplements

Volumn 125, Issue , 2003, Pages 394-399

  Delendik, K ^a   Emeliantchik, I ^b   Litomin, A ^b   Rumyantsev, V ^b   Voitik, O ^a  

^a B I STEPANOV INSTITUTE OF PHYSICS   (Belarus)

^b NATIONAL CENTRE FOR PARTICLE AND HIGH ENERGY PHYSICS   (Belarus)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 10744222478     PISSN: 09205632     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0920-5632(03)91023-1     Document Type: Article

References (22)

1. P.T. Farnsworth, Electron Multiplier, U.S. Patent N. 1,969,399 (1930).
2. Author Certificate No 62669 // Bulletin of Inventions - 1943 - No 4-5, p. 63-71.
3. P.K. Oschepkov, B.N. Skvortsov, B.A. Osanov and I. Siprikov, Pribory. Tekh. Eksper. 4 (1960) 89
4. G.W. Goodrich and W.C. Willey, Rev. Sci. Instr. 33 (1960) 761
5. J. Adams and B.W. Manley, Electron Eng. 37 (1985) 180
6. J. Adams and B.W. Manley, IEEE Trans. Nucl. Sci. (1966) 88
7. W. Baumgartner, U. Zimmermann. A High-gain Channel Electron Multiplier (CEM) Array and Some of Its Operational Characteristics, Advances in Electronics and Electron Physics, 18 (1971) 125
8. R. Naaman, Z. Vager, An electron multiplier capable of working at low vacuum: The microsphere plate, Rev. Sci. Instr. 67 (1996) 3332
9. A. Tremsin, J. Pearson, J. Lees, G. Fraser, The Microsphere Plate: a new type of electron multiplier, NIM A, 368 (1996) 719
10. US patent 3,967,001. Process of preparing a secondary electron emissive coating on the interior walls of a microchannel plate
11. US patent 4,073,989. Continuous channel electron beam multiplier.
12. US patent 4,825,118. Electron multiplier device.
13. US patent 4,950,939. Channel electron multipliers.
14. US patent 5,172,069. Secondary electron multiplying apparatus.
15. US patent 5,378,960. Thin film continuous dynodes for electron multiplication.
16. US patent 5,439,753. Electron emissive film.
17. US patent 5,624,706. Method for fabricating electron multipliers.
18. US patent 5,726,076. Method of making thin film continuous dynodes for electron multiplication.
19. Delendik K.I. and Voitik O.L., Anodic alumina as material for high-aspect ratio microstructures, in Proceedings of the Fourth International Workshop on High-Aspect-Ratio Micro-Structure Technology, 2001, Baden-Baden, Germany, 2pp.)
20. I.F. Emel'yanchik, A.S. Kurilin, V. N. Kukhnovetc et al., Submicrochannel plate multipliers, Applied Surface Science 111 (1997) 295-301
21. Govyadinov, I.F. Emeliantchik, A.S. Kurilin, Anodic aluminium oxide microchannel plates, Nucl. Instr. Meth. A 419 (1998) 667-675
22. Emeliantchik I.F., Rumyantsev V.S. et.al, Development and creation of new types of detectors and readout electronics for modern and future experiments in particle and high energy physics, Selected scientific papers of BSU, Minsk-2001, p.303-322.