SU497955A1 - Method of recording rations in a neutron monitor with compensation for coincidence effect - Google Patents

Description

The size of each control time does not guarantee the complete elimination of such cases; in addition, this leads to an increase in the number of miscalculations of true and compensating interactions, as the number of cases in which neutrons of interaction register during the control time and do not detect in the additional additional collection time increases.

2. Residual interaction neutrons diffusing in the monitor for a time longer than the collection time will get into the control one, while the information will not be recorded and, therefore, some of the interaction will be lost, their interactions as well as the following collection times will be lost. one after the first collection time and one after the other after a delay interval, while a false compensating interaction is detected. An increase in the delay time to eliminate the effect of residual neutrons increases the number of interaction errors, since no neutrons are recorded in it.

The purpose of the invention is to eliminate spurious compensating interactions in order to improve the accuracy of compensation of the effect of coincidences in the registration / AI of multiplicities on a neutron monitor.

This is achieved by those. that when registering multiplicities on a neutron monitor consisting of several identical sections, each of which is essentially a separate independent neutron monitor, the collection times of interactions that occur in other sections of the monitor during the collection time of the first interaction are used as additional speiMeH Any section, i.e. interactions, in relation to which interactions / interactions in the remaining sections are subsequent: iy, they also start counting at the time of registration of the first neutron corresponding interactions, with the interactions compensating for the coincidence effect, are determined by the total number of neutrons recorded by neutron counters in all sections of the neutron monitor during the collection time of the first interaction.

FIG. 1 shows the case where, for collection 1, interaction with the multiplicity KI 2, which occurs in one of the sections of the monitor, in the same section, another interaction took place with multiplicity K.2 3 FIG. 2 depicts a case where, at the time of collection /, of the first interaction with the multiplicity Ki 2, the second, the coinciding interaction with the multiplicity Kz 3, is outlined in another section of the monitor, revealing its collection time 4.

The proposed method of registering fatigue with effect compensation is the same as follows. Registration is carried out on N identical sections of the neutron monitor. The probability that during the collection time D of the first neutron discovered by the first neutron of some interaction with the multiplicity K 2, in one of the sections, another interaction will occur in the same section with the multiplicity K 3 (see Fig. 1), and the false interaction with the total multiplicity will be registered formed during the collection of the first interaction is equal to the probability that during the collection time 1, interaction with a multiplicity of KI 2, in the same section, the second, matching interaction with multiplicity, 3, will occur in one of the remaining -V-1 sections, opening time collection a 4 (see,, ig. 2), provided that, besides these, during the collection of the first interaction in

There were no other interactions in the monitor, since all sections of the neutron monitor are identical and the stream of particles of cosmic rays equally falls on any section of the monitor. Therefore, the number of false interactions of a certain multiplicity, formed by the coincidence of two interactions in one section during the collection time of the first one, will be equal to the number of cases of registration of the same total multiplicity formed during the collection time of the first interaction, which originated in the same section, when the second matching interaction produced one of the other sections of the monitor. Consequently, false interactions due to double coincidences will be compensated if the multiplicity of the net is determined by the total number of neutrons (registered during the collection time for the first interaction in all sections of the monitor and the number of cases of different multiplications is recorded with a plus sign if during the neutron collection time there was no interaction in one of the sections of the mopitor, in the remaining sections there was not a single interaction, and with a minus sign, if in one of the remaining sections Another interaction, besides, since the compensation of the effect of double coincidence for each section is carried out over the remaining L - 1 sections, as a result of which the number of compensating interactions is N - 1 times more than the number of false interactions, the registration of compensating interactions

each multiplicity-pi should be conducted through a divisor with a division factor L - 1. Similarly, for any coincidence, the order of coincidence of interactions with the multiplicities K, Kz,. To one of

monitor sections during the collection of the first interaction is equal to the likelihood that the matching interactions with the same multiplicity will occur in any sections in one of the possible combinations, with

Claims (2)

provided that in addition to these in the monitor there were no other interactions. The scheme for registering craters in general form takes the following form: for each channel, the number of cases in one of the total multiplicities formed by neutron interactions in all N sections of the neutron monitor recorded during the neutron collection time of the first interaction is recorded, with an "plus sign" for an odd number of sections n, in which neutrons are registered during the collection time of the first interaction, and with the minus sign for even, and the number of cases of each total multiplicity is recorded through deli spruce dividing factor equal to the number of combinations - the number of possible combinations for distribution sovnavschih interactions sections of the monitor. When recording multiplicities on a neutron monitor consisting of L section, the effect of coincidences is compensated up to and including yV-ro. Claim 1. Method for registering multiplicities on a neutron monitor with compensation of the effect of coincidence, consisting in determining the multiplicity but the total number of neutrons recorded by neutron counters during the collection time, which begins at the time of registration of the first neutron of the interaction, and additional collection times, and registration the number of cases of each multiplicity in the respective channels, characterized in that, in order to eliminate false ghosting interactions and improve the accuracy of com The non-coincidence effect of registering a brief on a neutron monitor consisting of Л identical sections uses the collection times of interactions that occurred in other sections of the monitor during the collection time of the first interaction, which also starts counting when the first neutron of the corresponding neutron interactions, and record the number of cases of each multiplicity, formed by the total number of neutrons from the interactions in all sections of the monitor, neutrons counters for collecting the first reaction time with the sign "nlyus an odd number n of sections in which the reaction occurred for the first time, collecting, and with the sign" minus - for even. 2. The method according to claim 1, characterized in that the registration of the number of cases of each multiplicity is carried out through a divider with a division factor equal to the number of the combination, "- 1 scientific research institute. one