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Multiplication cluster type photomultiplier

A photomultiplier tube and cluster technology, which is applied in the direction of electron multiplier tubes, dynodes, electrode devices with multiple dynodes, etc., can solve the problem of large detection dead zone, difficulty in accurately adjusting the dynamic range of photomultiplier tubes, and individual performance differences and other problems, to achieve the effect of large light intensity range, large dynamic range detection and good detection performance

Active Publication Date: 2021-08-24
XI'AN INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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  • Application Information

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Problems solved by technology

[0010] In order to solve the technical problems of large detection dead zone, measurement errors caused by individual performance differences, and difficult accurate adjustment of the dynamic range of photomultiplier tubes in current schemes for improving the dynamic range of photomultiplier tubes, the present invention provides a multiplication cluster photomultiplier tube

Method used

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  • Multiplication cluster type photomultiplier
  • Multiplication cluster type photomultiplier
  • Multiplication cluster type photomultiplier

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Embodiment

[0064] Such as figure 2 As shown, the photomultiplier tube of this embodiment is composed of a vacuum container 1, an optical input window 2, an electron multiplication system 4, a photocathode 3, and an anode system 5. The vacuum container 1 and the photocathode 3 are not shown in the figure.

[0065] The optical input window 2 is a plane optical input window 2 and has a circular structure.

[0066] The photocathode 3 is plated on the inner surface of the plane optical input window 2 ( figure 2 the lower surface in).

[0067] The electron multiplication system 4 is composed of 6 fan-shaped micro-channel plate (MCP) electron multipliers with the same structural parameters, which are respectively the first fan-shaped micro-channel plate electron multiplier 41, the second fan-shaped micro-channel plate electron multiplier 42, and the third fan-shaped micro-channel plate electron multiplier. The channel plate electron multiplier 43, the fourth fan-shaped micro-channel plate e...

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Abstract

The invention provides a multiplication cluster type photomultiplier which solves the problems of large detection dead zone, measurement error caused by individual performance difference and difficulty in accurately adjusting a dynamic range in the current scheme for improving the dynamic range of the photomultiplier. The photomultiplier comprises a vacuum container, an optical input window, a photoelectric cathode, an electron multiplication system, an anode system and a power supply electrode, the electron multiplication system is coaxial with the center of the photoelectric cathode and comprises a plurality of spliced electron multiplication electrodes, each electron multiplication electrode forms an electron multiplication area, and the electron gains of all the electron multiplication areas are different; the area covered by all electron multiplication areas is less than or equal to an effective detection area of the photoelectric cathode; the anode system comprises a plurality of anodes, the number of the anodes is same as that of the electron multiplication electrodes, and the positions of the anodesare in one-to-one correspondence with theelectron multiplication electrodes; the power supply electrode supplies power to the photoelectric cathode, the electron multiplication electrodes and the anodes; the power supply electrode is connected with a vacuum container external power supply system through an electrode lead; and the signal lead-out wire of each anode is connected with an external circuit through a metal wire.

Description

technical field [0001] The invention relates to a photoelectric detection device, in particular to a multiplication cluster type photomultiplier tube which sets different electronic gain regions in the device to realize detection in a large dynamic range. Background technique [0002] Cosmic rays have been leading the development of elementary particle physics since their discovery. People have discovered a large number of elementary particles and composite particles in cosmic rays, such as positrons, muons, π mesons, kaons and other strange particles. It is crucial to create a basic picture of the microscopic world and its interactions. Since the current cosmic ray observations cover 10 9 eV to 10 20 With a wide range of eV, the detector response varies greatly. Therefore, two types of detection technologies, direct detection and indirect detection, are also used for cosmic rays in different energy segments. [0003] In the indirect detection technology, photodetectors a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01J43/18H01J43/24G01T1/208
CPCH01J43/18H01J43/246G01T1/208
Inventor 刘虎林徐向晏王俊锋何建平田进寿王兴陈萍薛彦华缑永胜
Owner XI'AN INST OF OPTICS & FINE MECHANICS - CHINESE ACAD OF SCI
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