SU150946A1 - Ion trap - Google Patents

Description

The known ionic traps do not provide a measurement of the current value not distorted by photoemission from the measuring electrodes, and do not allow simultaneously measuring the current of positive ions to the surface of the trap (collector) and the density of the photocurrent.

The described ion trap provides the above requirements while increasing the measurement accuracy.

This is achieved by using a system of flat collecting electrode ions in the trap, made in the form of sectors of a circle whose area is less than the surface area of the external grid and combined under a common external hemispherical grid with a base in the form of a disk metal ring that encloses the internal electrodes and creates a collecting field. required configuration.

The drawing shows the layout and configuration of the electrodes of the ION-NOY trap in two projections.

The ion trap contains a system of internal electrodes, each of which is divided into equal parts, having the form of circular sectors, electrically interconnected.

The internal electrode system consists of two halves, one of which is a single collector 7. Parts of a single collector alternate with parts of the internal (anti-photoelectronic) grid 2, which also have the form of sectors.

The external grid of the ion trap 3 has the shape of a hemisphere, the base of which is a disk metal ring 4, covering the system of internal electrodes. The external grid provides for the capture of a large number of ions and shrinking them onto the working system of internal electrodes.

The latter is achieved by imparting to the surface of the system of internal electrodes a sufficiently large negative potential relative to the external grid, and therefore its annular base.

No. 150946-2 -

So that way. the surface of the system of internal electrodes becomes for positive ions the bottom of the potential we, forming a heel inside the trap.

The ions of the stationary plasma, penetrating through the openings of the external grid, having relatively small intrinsic kinetic energy, move inside the trap to the surface of the system of internal electrodes, following in the direction of the lines of force collecting zero. At the same time, they can lie again on the external grid (or its base) because the potential of the external grid is higher than the potential of any point inside the trap. Under the influence of an electric field, poloniteline iopes tend to move towards the lowest potential, which from all points inside the trap has surface points of the internal electrode system, and towards the internal electrode system, ions will move from any point in space between the external grid and the internal electrode system. This is how the condition of collecting positive ions trapped inside the trap on the surface of the internal electrode system is fulfilled. The power lines collect the Hiero field, filled with a hemisphere and partly at its base, and closed at the g () of the internal electrode system.

At the same time, the working surfaces of the internal measuring electrodes should have the same properties, and the transparency of both the external and anti-photoelectric grids should be uniform but the entire surface of the grids.

Subject invention

 a trap for measuring the current to the collector and the photocurrent density by a difference method, characterized in that, in order to increase the measurement accuracy, it uses a system of flat ion-collecting electrodes made in the form of circular sectors, the area of which is less than the surface area of the external grid and the combined code a common external hemispherical grid with a base in the tongue of a disk metal ring covering the inner electrodes and creating a collector; its field is of the required configuration.