SU680453A1 - Method of measuring ionization energy loss of charged particles in spark chamber - Google Patents

Description

pulse nlpr-e. At the same time, a certain amount of time after the arrival of a high-voltage pulse on the electrodes, depending on the ionization loss of the particle in the amer, develops a spark sample. The spark time measurement unit in the spark chamber measures the time interval between the moment of arrival of the high-voltage pulse and the beginning of the development of the spark sample. Thus, by measuring the time at which a spark is formed in the spark chamber, one can determine the very low loss of a particle passing through the working volume of the chamber.

As a spark chamber, there can be ka, k camera with film or filmless information, as well as information (high-resolution, wide-gap, optical waves, ferrite memory or magnetostriction).

The measurement unit of the spark formation time in a spark .KaMiepe can measure either for high-voltage (Immersion on the leading front electrodes until a sharp fall, caused by the development of spark breakdown between electrodes, or the time interval between the front of them, the high-voltage pulse and the spark current .

The proposed method for measuring ionization losses in a spark chamber, along with recording the coordinates of a charged particle in a chamber, makes it easy, quick and with good accuracy to get information about ionization losses of a particle. The use of sparking cameras allows one to fully automate the process of co-ordinating the point of passage of the particle and its ionization loss.

Thus, the application of the proposed method for measuring ionization losses expands the capabilities of spark chambers.

The described method of measuring the ionization losses of charged particles in a spark camphor was tested on an Sirius electron synchrotron.

The test results are shown in FIG. 1, where the curve of the dependence of the spark formation time in the spark chamber on the ionization losses of protons of various energies is given. Brem ForM1Irovani taking it at the center of the maximum of the distribution, ionization loss — over the middle of the interval of loss of the proton spectrum. FIG. Figure 2 shows the time-domain spectra of the formation of a spark in a spark chamber for electrons with energies above 50 MeV, protons 28-36 MeV, and alpha particles 5 -: 6 MeV.

Thus, by measuring the time that a spark was formed in a spark chamber, the ionization losses of charged particles could be measured with a certain accuracy. The divided spectra of electrons, protons and alpha particles (Fig. 2) show that this resolution can be obtained sufficiently high.

Claims (2)

1.Agan Nts A.O., Leksin G.A., Tiupchik V.M., PTE, 1969, No. 3, p. 55-58. 2. Bolotov V.P. et al. ITE, 1970, No. 3, p. 114-116. E S, f l - // l / d f, ScM gas Hf mfnv. 80S5SOТ.nsek FIG. one