SU636714A1 - Photoelectric multiplier divider - Google Patents

Description

one

The invention is adapted to photoelectronic technology, in particular, to photoelectric multiplier (PMT) power supply circuits.

A PMT divider HJ is known, in which the first dynode is used as the main accelerating element. Such a divider greatly increases the dark currents of the multiplier. Known PMT divider containing

series-connected stabilizing capacitors and damping resistors connected to dinodes

However, such a divider has a significant disadvantage in that when high-intensity light signals are amplified, such as occur in full-absorption scintillation counters, when registering charged particles of a wide energy range, the damping resistors become an additional source of nonlinear distortions.

Claims (2)

Since the coefficient of the 1T amplification of the PMT cascade depends on the energy of the electrons incident on the dynode and in a dynamic mode a current flows through the damping resistors, the amplitude of which is tens and hundreds of milliamperes, and the resulting voltage pulse on the damping resistors decreases the absolute value of constant voltage applied to the corresponding diode, then in the photomultiplier, in which the anode is located between the last two dynodes, electrons emitted by the penultimate dynode, accelerated by the electric field, the penultimate d the inode-anode, then hindered by the anodode-last dynode electric field, before interacting with the emission surface of the gohutean dynode, will have energy, excluding the initial energy, equal to the potential difference of the last dynodes, which can be represented by the following expression: (Un-iU.nr aVl n-n -Uo.V Y.-U ... iU.ri), raetl.j.llrt is a constant voltage, respectively, on the last but one and the last dynode; J, TG is the amplitude of the alternating voltage (pulse) at the damping resistors connected respectively to the last but one and the last dynoids. The form of the anode signal. Since the variable components, in known dividers, differ significantly from each other, in the dynamic mode the potential difference of the last and last but one dynodes and the gain of the last cascade of the PMT become irregular in time, which significantly impairs the spectrometric characteristics of the scintillation counter. The purpose of the invention is to improve the spectrometric characteristics of a scintillation counter. This goal is achieved by connecting one common damping resistor between the chain of stabilizing capacitors and a grounded bus, and the stabilizing capacitors are galvanically connected with the corresponding dynodes. The drawing shows the electrical circuit of the proposed splitter, where 1 and 2 are the last but one and the last dynoes, 3 is a common damping resistor, 4 is a chain of stabilizing capacitors. A chain of series-connected capacitors 4 is grounded through a common damping resistor 3, and each stabilizing capacitor is connected directly to the corresponding dynode. The spectrometric characteristics of the scintillation counter are improved by eliminating the time dependence of the potential difference between dynodes I and 2 by turning on one common damping resistor 3. The alternating voltage across the damping resistor 3, which occurs in the resultant passage of dynode currents through it, increases the voltage at diodes 1 and 2 is simultaneously equal in magnitude. Such an inclusion of the demagnetizing resistor 3 contributes to the fulfillment of the condition that the sum of the variable components of the voltages included in relation (1) is equal to zero. Formula of the invention A photomultiplier tube divider containing series-connected stabilizing capacitors and damping resistors, characterized in that in order to improve the spectrometric characteristics of the scintillation counter, a single common damping resistor is connected between the chain of stabilizing capacitors and a grounded band, and all stabilizing capacitors are connected by a link and a grounded band is connected to one stabilizer. photomultiplier dinodes. Sources of information taken into account in the examination: 1.Baldin B.Yu. et al. JINR Report 13-7859. Dubna, 1974. 2. Certificate of author No. 528639, class H 01 J 43 / ZO.