SU347759A1 - TIME ANALYZER - Google Patents

Description

The invention relates to a technique for conducting physical experiments on pulsed particle generators.

A time analyzer is known for observing particles from a pulse generator using a single counter, in which a time dependence of the observed process is recorded using a multichannel event scanning system in time and a data display system. To find the counter background, the measurements are repeated with the pulse particle generator turned off.

Each channel records the number of pulses trapped in that channel; read weights are +1 for all channels.

In the experience with background measurement, a read weight factor is assigned a value of -1 for all channels. A set of data with weights of +1 and -1 gives information about the measurable effect. To find it, both data arrays are put together per channel with the corresponding weights, which is equivalent to the subtract operation.

With this measurement logic, fluctuations of noise are not taken into account, and some of the events that drown in noise fluctuations are not detected.

The purpose of the invention is to improve the signal-to-noise ratio by integrating the code noise suppression of a particle counter without loss of counting rate and without impairing the time resolution.

The goal is achieved in that the device comprises a block of forming a temporary structure, a block of bipolar counters and a block of switching polarity of counters connected to the input of bipolar counters, the second inputs of which are connected to the block of time scanning; the time structure forming unit is connected to one of the synchronization outputs, and the meter and polarity switching unit is connected to its output; the output of the time structure formation unit is connected to a pulse particle generator (HPC).

The block diagram of the proposed time analyzer is shown in the drawing.

The analyzer contains a time structure forming unit 7, a synchronization unit 2, a polarity switching unit 3 of counters, a particle detector 4, bipolar counters 5,

time scanner 6.

The signal-to-noise ratio in the rare-event time analyzer is improved by the fact that the effect of noise in the form of its fluctuations is not measured per channel,

cash. Such leveling of the H1uma level leads to a decrease in its fluctuations. To do this, instead of the total weight function for all channels, it is +1. the weighting function S (i) is introduced, depending on the channel number and taking the value -fl or -1. In this case, the counting rate in each channel of such a bipolar system can take both positive and negative values. The weight function must have a number of properties, in particular, it must perform information and adiabatic encoding of the data array before it enters the counter.

The device works as follows. The unit for forming the temporal structure of the working impulse generates a pulse from a pulsed particle generator so that it has the form of a comb, the "tooth and" the lumens of which are arranged in accordance with the value of the weight function that is currently accepted. The first experiment is conducted with a pulse in the form of 5 + (/), a weighting factor of + 1 is attributed to it, the second experiment with a comb pulse in the form of 5 (i), and a weighting factor of -1 is attributed to it. When switching from one value of the weight function to another, the switching unit of the polarity of the particle pulse counters changes the polarity of the counting.

As a result of replacing a single pulse, as is the case in the well-known time analyzer, with a pulse comb, isomorphic to the weight function, the distribution function of the arrival times of particles in the counter is subjected to coding at the stage preceding the particles to enter the detector. As a result, a multichannel event time sweep system registers not the distribution itself, but its encoded image, which is then subjected to recovery.

Subject invention

A time analyzer containing a synchronization unit and a particle detector connected to the input of the time scanning unit, characterized in that, in order to improve the accuracy of operation, it contains a temporary structure forming unit, a bipolar counter unit and a counter switching unit connected to the bipolar input pry counters, the second inputs of which are connected to the timeblocking unit, the time structure forming unit is connected to one of the outputs of the synchronization unit, and the polarity switching unit of the counters - to each other im his exit.