SU830888A1 - Device for determining profile of absorbing dose - Google Patents

Description

He used an electrically measuring instrument that used a broadband piezoelectric transducer with a high temporal resolution (), which was shunted by differentiating resistance, as a receiver of acoustic pulsed particles excited by a nanosecond beam.

The drawing shows a schematic diagram of the proposed device for direct determination of a profile of absorbed energy in the material under study.

The device consists of a collimator monitor 1, the orthlot 2 under study, a wide-band piezotransducer with a high temporal resolution () 3, a differentiating resistance 4, a recorder 5 and a meter 6.

The device works as follows. A beam of charged particles (for example, electrons), through the collimator monitor 1, falls on the absorber Ee 2 under study, whose thickness is greater than the electron path in it. The energy introduced into the sample by an electron beam over a time of 10 ° -10 ° C is transmitted to the nuclear subsystem and leads to the expansion of the irradiated volume. If the duration of the irradiation pulse is less than the acoustic relaxation time, then a bipolar acoustic pulse, consisting of successive compression and expansion pulses, is emitted from a volume in which the energy of the electron beam is absorbed. The duration of each of these pulses is determined by the ratio of the maximum electron mean free path in a given absorber to the speed of its propagation in it, and the shape follows the dose distribution profile.

The voltage pulse excited in the sample is recorded by a wideband piezodetector with a high temporal resolution (). When exposed to such a detector, an acoustic pulse at its electrodes results in a potential difference, which is a time integral of the spatial profile of the pressure pulse. Differentiator this signal at low impedance 4, directly monitor the profile of the absorbed dose on the recorder 5. Meter 6 is calibrated to measure the irofil dose in absolute units. Direct observation of the absorbed dose profile on the recording equipment, excluding the additional complex processing of observation results, is a significant advantage over previously known devices. The use of a broadband sensor with a time resolution reduces the inconsistencies in the measurement of the high-frequency components of the acoustic pulses, from which the dose profile is restored. The advantage of the proposed device is its non-selectivity to the absorber material and surface treatment, which is essential for the devices described above. The implementation of the device does not cause any particular difficulties, and recording and processing the results of observations is simple and does not require complicated calculations.

Claims (3)

1. Pikaev AK Dosimetry in radiation chemistry. “Spider, 1975, p. 3 2. Dergobuzov KA, et al. Instruments and Experimental Technique, No. 1, 1975. 3.F. S. Regg "QppI Phys Leff v. 17, No. 9, 1970, p. 408-411 (irotype).