SU381297A1 - Photomultiplier - Google Patents

Description

one

; This invention relates to electrovacuum devices.

A photomultiplier tube (FZU) containing a photocathode located in the cavity of the entrance window, a multiplying system, an electron-optical system that rotates the electron: flow 90 relative to the axis of symmetry of the input window plane, known as the first dynode; multiplying system.

However, due to the absence of axial symmetry of the device, electrons having the same initial velocities, but emitted from different sections of the photocathode, move towards the locking electrode in a significantly different: personal trajectory. As a result, CQaAarai with conditions favorable for the preferential passage of slow electrons: carrying useful information.

The proposed photomultiplier is characterized in that, in order to improve the resolution, the electrodes of the electron-optical system have curvilinear surfaces, the cross-sectional shapes of which are parabolas, symmetrical with respect to the right-angle bisector of two equal planes. distance from its verngshny photocathode and the locking electrode.

The advantage of this photomultiplier is that the broad electronic current rotates by 90 in circular concentric trajectories in such a way that in two mutually perpendicular planes, the photocathode and the blocking electrode, the velocity distribution of electrons remains unchanged. As a result, the resolution of the instrument is improved.

The drawing shows the proposed PMT,

Claims (1)

The PMT contains a translucent photocathode 1 located along with conductive layer 2 at the entrance window 3 (the external output of the photocathode is the cobweb ring 4 1 y factive system, before the first dynode 5 of which the locking electrode 6 is formed. the bisector of which serves as the axis of symmetry of the boundary curves of the cross sections, which are the parabolas of the electrodes of the electron-optical system 7-10. The electrodes 7.8 have holes 11,12 for the passage of the electron flux before The otocathode and in front of the locking electrode n the holes 13,14 for the passage of radiant flux through the device. The electrode 9 is made in the form of a grid with transparency for the luminous flux of approximately 10%. 15 connected to the flask through an opaque ring 16. The principle of operation of the photomultiplier is as follows: In the device, the electron and radiant fluxes are separated in directions 90, the light reflected from the grid 9 to the first dynode is only a small part of the total reflected luminous flux, so it causes an insignificant non-closable anode current. In addition to improving the resolution cnocjD6, in the described PM, the magnitude of the blocking voltage does not depend on the voltage on the electrodes of the electron-optical system. The invention is photoelectronically intelligent; a nstel containing a semi-translucent photocathode located in the plane of the entrance window, a multiplying system, an electron-optical system that rotates the electron flux by 90, relative to the axis of symmetry of the input window, the locking electrode placed before the first dynode multiplies 1 system, characterized in that, in order to improve the resolving power, the electrodes of the electrically-optical system have curvilinear surfaces, the cross-sectional shapes of which are parabola symmetrical relative to the bisector right angle formed by two planes, which are arranged at an equal distance from the vertices of the photocathode and the locking electrode.