SU738201A1 - Device for measuring phase distribution of cyclotron beam - Google Patents

Description

A device for measuring the phase distribution of a cyclotron beam belongs to the field of nuclear electronics and can be used to study the properties of a beam of charged particles in cyclic accelerators. The study of the phase distribution of the spslotron beam makes it possible, first, to limit the phase losses of the beam during the acceleration process, and secondly, to use the acceleration mode to be isochronous, which significantly increases the mono-energeticness of the beam. Currently, devices are known in which a moving probe and an intensity meter are used. In this device, the dependence of the beam current on the radius I (R) removes with a movable probe moving along the radius and an intensity meter at various values of the frequency of the high-frequency generator, close to the resonant value. Then, by the break points of the curves, the outer boundaries of the phase distribution of the W beam are determined — the width of the phase spectrum of DeschC as a function of the radius. However, in a number of cases, the cyclotron frequency generator operation in self-excitation mode prevents direct removal of the D curves (Ry with certain oscillator frequency detuning. Then the measuring devices consisting of a mobile probe and an intensity meter are used, which are used to remove the dependence D in a similar way. (R) at various discrete detuning of the magnetic field. In this case, the width of the phase spectrum sin от is derived from the analysis of the dependences 3 (l, I) for different radii of acceleration. The cyclotron phase distribution device is taken as a prototype. However, the removal of the dependence G1 (K) is made when e} 1 the secret change in frequency or magnetic field, which leads to an inaccurate removal of dependence (possible omission of characteristic points of the curve); for the measurement, which reduces the accuracy of the wires being measured due to the time-varying resolution of the acceleration of the cyclotron; when measured using the magnetic field detuning method, it is necessary only in very small limits (0.1-0.2% of the resonant value) to change the current of the main magnet, which requires a tighter adjustment of the value of the main field, which is difficult to accomplish while maintaining its high stability. The aim of the invention is to improve the accuracy and shorten the measurement time of phase distribution of the internal cyclotron beam. This goal is achieved by introducing an additional winding, which is fed through the current sensor of this winding from the sawtooth generator. A winding current sensor is associated with a beam intensity meter. In the drawing, a structure1 is shown on the circuit of a device for measuring the phase distribution of a cyclotron beam, where 1 Shpslotron, in which it mixes with a mobile probe 2j connected to an integer meter; ivness 3, 4 is an additional winding connected to a sawtooth current generator 5 through a current sensor of this winding 6, KOTopbrit is associated with an intensity measurement of -3. The device for measuring the phase distribution of the cyclotron beam works as follows. The signal corresponding to the intensity of the beam in the absence of current in the additional winding is removed from the probe 2 installed in the chamber of the cyclotron 1, and fed to the intensity meter 3. When fed into the additional winding from the generator 5, pinner type O1X), the current is mismatched proportional to:, the current is winding. This detuning of the magnetization of the south field leads to a change in the phase dividing of the cpslotron beam and, consequently, to a change in its intensity. The signal from the current sensor 6 of the auxiliary winding is fed to an intensity meter 3, which detects the mixing intensity of the beam. The intensity meter reproduces the dependence of the current of the cyclotron beam on the current of the additional winding, which corresponds to the dependence 1 (lN). Similarly, dependencies are scaled for different radii. Introducing the deformation of the magnetic field with the help of an additional winding fed from the sawtooth current generator significantly improves the accuracy of the measurements, since this detuning is monotonous, which ensures the removal of all points of the D (AH) dependence. At the same time, the accuracy of measurements is improved by significantly reducing the time taken to take a characteristic, which is determined by the period of the generator sawtooth current. A formula for measuring the phase distributor of the cyclotron beam, containing a probe and an intensity meter, characterized in that, in order to increase the accuracy and reduce the measurement time of the phase distribution of the beam, an additional winding connected to the sawtooth generator is introduced into it. current through the winding current sensor, which is connected to the beam intensity meter.

Claims (1)

A device for measuring the phase distributor of a cyclotron beam, containing a ³⁵ probe and an intensity meter, characterized in that, in order to increase the accuracy and reduce the time of measuring the phase distribution of the beam, an additional ^40th winding connected to a sawtooth current generator through a winding current sensor is introduced into it, which is associated with a beam intensity meter.