SU135552A1 - Method for extreme control of gamma radiation intensity of elementary particle accelerators - Google Patents

Description

Methods are known for the extreme intensity control of 7-radiation of elementary particle accelerators with twelve input parameters. When using these methods, devices are used that contain radio channels for the initial processing of radiation pulses, amplification circuits, switches, comparison circuits, and dc amplifiers.

The proposed method for controlling the intensity of the t-radiation of an accelerator differs from the known ones in that the regulation is performed according to the injection time and the activation time of the high-frequency voltage on the accelerator resonator as input parameters, thus increasing the stability of operation and automatic tuning of the accelerator (betatron or synchrotron). An extremal intensity regulator, γ-radiation, is used in the betatron, and both regulators connected in parallel and working simultaneously are used in the synchrotron.

Extreme regulation; -radiation according to the proposed method is carried out using two extreme regulators / and // (respectively, the injection time controller and the high-frequency voltage on-time controller), the functional diagram of which is shown in the drawing.

Extreme regulator / injection time works as follows. The injection time T is modulated at a frequency f / 2 by the value of bG, where f is the frequency of the power supply to the accelerator magnet. Modulation is carried out by periodically shunting the additional winding of the magnetizing permalloy sensor (not shown) by means of a switch /, which includes the animated 135552-2 vibrator triggered by the I1 pulses of the main permalloy sensor at the time of the second passage of the synchrotron through zero. Thus, injection pulses after one follow with a shift of 6G, the value of which can be changed by resistance. At the same time, the intensity (-radiation corresponds to the current injection time G, then the injection time T + LT. These intensity values are recorded by an ionization chamber 2 located in the scattered - {-radiation of the synchrotron and amplified by amplifier 3. From the amplifier output, the pulses from (-radiation the switch 4 is divided into two channels 5 and b, respectively, the injection time T and G + bG. At the output-channels these pulses are compared, the value is determined in the sign of the difference of intensities (scheme 7), which is fed to the DC amplifier ntegrator 8 and then to a balanced cathode follower 9, which current is received at a bias winding nermalloevogo injection sensor shifts injection time 67 by an appropriate amount.

The extremal regulator // is constructed in a similar way on the time when the high-frequency voltage is turned on to the accelerator cavity. The turn-on time of the high-frequency voltage T is modulated with the frequency fl4 by the value of bG. . The modulation is carried out by periodically dosing the additional winding of the external pictransformer (not shown) by means of the switch 10. At the same time, the intensity of the radiation corresponds to the current turn-on time of the high-frequency voltage T, then the time Td + Lg. The pulses from the I-radiation come through the switch 1 E two channels 12 and 13, respectively, of the time T „and T„ + T,. At the output of the channels, these pulses are compared, the magnitude and sign of the difference is determined (circuit 14), which is fed to the DC amplifier-integrator 15, and then to a balanced cathode repeater 16. The current of the latter entering the bias transformer winding shifts the turn-on time of the high-frequency voltage on the synchrotron resonator by 67 „

Subject invention

A method of extreme intensity control of the t-radiation of particle accelerators using devices containing radio channels for the initial processing of radiation pulses, amplification circuits, switches, comparison circuits and dc amplifiers, characterized in that in order to increase the stability of operation and automatic , adjustments of the accelerator (betatron or synchrotron), regslirovaniya produced at the time of injection and at the time of switching on the high-frequency voltage to the accelerator resonator.