SU705565A1 - Method of determining thermoelectronic emission current in a-c low-pressure arc discharges - Google Patents

Description

The devices in FIG. 2 is a graphic illustration of the method.

The device consists of the gas discharge source 1, line 2, the monochromator 3, the photomultiplier tube 4, the two-beam oscilloscope 5.

The device works as follows. The gas discharge source 1 under study is placed in front of lens 2, the discharge is ignited, the spectrum of the cathode region of the riser is projected through the lens onto the entrance slit of the monochromator 3, the output slot of which is separated by an argon line with a wavelength of 42 IOD nm and is projected to the input of the photoelectron multiplier 4, the signal from which it enters the input of the first channel of the two-beam oscilloscope 5. A signal is fed to the input of the second channel, which is removed from the resistor connected in series to the gas discharge source and, therefore, proportional to ny current discharge.

When the source operates on an alternating current in the anodic half-period of the hydroxy discharge in the cathode spot zone, it is heated to a temperature of 900-1000 ° C and retains this temperature by the time the cathode half-cycle occurs. When K1 of the instantaneous values of the discharge current at the beginning of the KaTOflHord half-period changes, the cathode changes from the negative spatial charge mode through the point of the zero field to the accelerating field mode,

If there is a negative spatial charge of electrons near the cathode, it is not enough to excite argon. The transition of the cathode to the accelerating field mode is associated with the appearance of a group of fast emission electrons with an energy of the order of magnitude of the cathode potential drop (12V), sufficient to excite the arsenic levels of the argon / E-I.V /. Thus, the appearance of the cathode region of the argon lines in the emission spectrum in the cathode period in the emission spectrum is a sign of the transition of the cathode to the accelerating field mode. The line of argon with a wavelength of 420.1 nm has a high brightness and has a sharp dependence of the excitation function on the energy of electrons. Therefore, it is the most convenient dd detection point of the zero field.

FIG. 2 shows the curve of the current form ZR of the fluorescent lamp and the curve. intensity distribution of the argon line in the negative half-period of the discharge, which is used to determine the moment of the cathode transition from the negative space charge mode to

Accelerated floor mode (point A), i.e. g, l determine the current of thermionic emission of cathodes operating on alternating current. By projecting point A onto the curve 3 p, point B we obtain the value of the discharge current, which corresponds to the magnitude of the current of thermionic emission at zero field.

The proposed method makes it possible to significantly simplify the determination of the thermal emission current, and use it in evaluating the operating modes of the cathodes, developing new designs and compositions of the emission coatings of the cathodes of gas discharge lamps.

Claims (1)

Invention Formula The method for determining the thermionic emission current in low pressure alternating current arc discharges by measuring the discharge current and determining the zero field point, characterized in that, in order to improve the accuracy of determining the electric current and simplify the measurement procedure, the intensity of the argon line with A wavelength of 420.1 nm in the near-cathode region of the discharge determines the point of the zero field by the deviation from zero, the intensity of the line in the negative half-period of the discharge, and the emission current is defined as the discharge current at the point of the zero field. Sources of information taken during the examination: iC.G.ound / AneNW method of invw-tig-otion thermo-ionic cat1iodes T1ie Ptiysicoit Revie w, 1934,, N8, p5l9. 2.1..HQ jmouili, Th6 mcasurument 0 o ttiu moiomc emission in aiscttaro-e tubes.Tlie Sievama TecVir o, i96o, ri, NUjp) (prototype) ..