SU51192A1 - Photocell - Google Patents

Description

The present classroom of photoelectrics using secondary e.: I; ktro11ioi e shspi consists of a special Eoistructive form of such a photocell. With the whole method of obtaining a coefficient of activity, a photocurrent is obtained. 1) The distance between the anode and the surface emitting the secondary elltrocks is taken to be less than the free length of the electron of the nrn pressure of the gas field.

On . 1-6 of the proposed drawing schematically depicts photoelements according to psobpeteppy.

The photocell action of the photocell is as follows (e. The electrons released from the cathode Ki, the node of the actual light, are entrained by the zero anode A - the cathode Ki n, the lumen of its gas, it increases the photocurrent as it does in a conventional gas photocell (FIG. 1-4). The ions formed in the discharge nozzle are not collected at the cathode, but at the collectors Ki.

The ion collectors are made from a material with a large electron work function. The electrons passing through the anode to the anode at high speeds, passing through the anode n, strike the electrode Ka, which is located from the anode A at a distance shorter than the electron mean free path, knock out secondary electrons from it. The second electrons, the node acting on the difference between the apod-kato; and K-2 nonotentials, are attracted to the anode A. The distance between the A and C is the largest length: the like electron and n, therefore, the non-change of these hectares is almost no longer occurring. .

In 1 (on the photocell, they are diverted to special collectors, having a large output work; therefore, the photocurrent utilization coefficient in the gas can be freely reduced to .20–25 in the stable part of the photocell characteristic. Due to the 1x2 cathode secondary radiation, the electron current gain can be obtained another 4-5 times. Thus, a gain factor of 100 is obtained in the photocell of this system, and therefore, when the sensitivity of the photocathode is 20-40 mA / lm n, when the working voltage is 250-300 volts, a photocell is obtained sensitivity, equal to 2. -4 ma / lm.

Electrodes Ki U Ki are short circuited, and electrodes Ki, 1x2 c A apply a voltage of 240-320 V, and the electrodes K2 and A are applied a voltage of 8-12 V. At the same time, electrode A has a fully polarized UO with respect to Ka electrode and so

in relation to the electrodes Ki and Ki. The photocell is filled with argon.

FIG. 5-6 schematically depict the construction of a photocell, which differs from the previous ones in that the photocathode | and ion collectors are combined into a single electrode Ki. Electrode Ei and Eds | They are galvanized from nickel ilastium, j which are treated externally with silver, oxygen, and cesium, and internally I and carbide. Electrodes, vyrviye | light from the outer surface of the louver,; are entrained by the field inside the electron–; space. Ions formed by I in the discharge gap Ki – A. under the action of nol ndut ia internal stand; ronu.

The main feature of the proposed type of photocell is that the amplification of the photocurrent with nominal emission of electrons is practically

It does not change the ignition potential. The gas discharge in the photocell and, therefore, does not decrease the photocurrent enhancement coefficient or the non-self-sustaining discharge in gas, which makes it possible to obtain a large photocurrent enhancement coefficient.

PROPOSITIONS AND RESULTS.

A photoeleimite in which the photocurrent is inserted and produced by means of a self-sustaining discharge in gas and by means of secondary-emission electrons, characterized in that the distance between the surface and the anode of the secondary electrons is less than the free path of the electron at that pressure of gas to which the electrons photocell.

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FIG:

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