DE1905318A1 - Double-shell cathode for hollow cathode lamps to generate bright atomic and molecular spectra - Google Patents

Description

Double-shell cathode for hollow cathode lamps for generating more powerful light Atomic and Molecular Spectra The invention relates to an embodiment of the cathode of Hollow cathode lamps for generating powerful atomic and molecular spectra using metallic analysis samples of any shape by placing two metal half-shells together be glued non-conductive, with one shell being the power supply, water cooling and sample holder, while the second, galvanically separated shell, the Prevention of glow discharge and heat dissipation in the cathode window takes over.

Background Art The most recent one for atomic absorption analysis Hollow cathodes used and emission spectral analysis are mostly modifications the Geissler tube (atomic absorption) or the Schuler hollow cathode (Applich Spectroscopy Vol. 21 No. 3, May / June 1967). In patent no.

1244956 an attempt is made for those occurring with higher current loads Mastering problems. In all of these hollow cathode designs, there is the actual one hollow cathode made of a specially shaped metal body usually in the shape of a 15 mm long cylinder with an axial bore.

When using the hollow cathode discharge in emission spectral analysis got to In the previous types of construction, therefore, a hollow cathode pot made of the material to be analyzed be worked out, a circumstance which understandably the application of this Form of excitation for emission spectral analysis made very difficult. But you want to To use randomly shaped analytical samples, the sample must be passed over Bring a window with the discharge space in connection, the window a constant sample section, which at the same time carries the hollow cathode bore, for Releases discharge space. Since the necessary in the emission spectral analysis Current intensities the sample has to be cooled, it is more practical to combine the Tasks of the power supply, the water cooling, the vacuum seal and the transmission the glow discharge to the spectral sample with a cathode base plate to the sample is firmly pressed with its flat, drilled side by a specimen holder. Since the cathode base plate, which closes the discharge space, is now live at the same time it must protect against undesirable glow discharge, as in Pat. No. 1244956 described, isolated. It has now been shown that this isolation in the area the window is exposed to special thermal loads, so that at this Good heat dissipation would be desirable. Again, however, this is only possible through a metallic surface opposite the gas discharge. rn one Work by W. Grimm (Spctrochimica Acta, 1968, Vol. 23 B, pp 443 to 454) is this This problem is partially circumvented by keeping the anode and cathode extremely close to each other brings in and through a special vacuum pump between the resulting slot second vacuum, a high vacuum, is generated, which the discharge approach to the bare Cathode parts prevented. However, this arrangement does not bring a definitive solution, as evaporated cathode material is deposited on the slot during longer periods of operation and leads to short circuits.

The invention is now based on the task of satisfying this problem Way to solve.

According to the invention, this object is now achieved in that the sample-carrying Cathode baseplate is made in two metal half-shells that are connected to each other be glued non-conductive with a suitable metal adhesive. The one bowl The functions of power and water supply and the vacuum seal then take over as well as the sample holder, the other, galvanically separated shell, the prevention the glowing light approach and the heat dissipation in the cathode window.

The invention goes beyond the possibility of using any shape metallic analysis samples: By taking suitable measures, one can also use the 'rTichtleiter examine mixed with graphite powder. One uses namely instead of the block-shaped Analysis sample a die with a cylindrical bore, so graphite-dielectric mixtures can be used pressed into this hole together with the die brought over the window.

An expansion of the invention also results from the fact that the inner Half-shell is connected to its own voltage and so the flow of ions or electrons is controlled.

Description (see figure): The grounded anode block 1 is above the seal 2 connected to the cathode base plate. Half-shell 3 takes over the heat dissipation in the window, half-shell 4 the power supply, the water cooling 5 and the sample holder 6. The asbestos flat seal 7 takes over the plane-parallel insulation between the half-shell 3 and sample 8.Sample 8 closes the vacuum of the discharge space 10 with seal 9 towards the outside.

The adhesive layer 11 galvanically separates the two cathode half-shells 12 and 13 are water and vacuum connections. The front cover 14 can through the Quartz window 15, the emitted light to the outside. On the foot 16 rests the entire Arrangement.

Claims (5)

Claims 1. Leading a cathode of hollow cathode lamps for hearing generation bright atomic and molecular spectra of thickly shaped, metallic and block-shaped analysis samples, characterized in that the cathode is in two half-shells (3,4) divided by d. Adhesive layer (7) are electrically isolated and held together. 2, embodiment according to claim 1, characterized in that half-shell (3) represents the cover of the water channels (5). 3. Execution according to claim 1, characterized in that the vacuum seals (9) of the Sample (8) can be omitted and instead via the rear part of the cathode Glass cover placed vacuum-tight and evacuated through a separate vacuum line will. 4. Execution according to claim 1, characterized in that instead For a block-shaped, metallic analysis sample, a matrix with a non-conductor filling is pressed on. 5. Execution according to claim 1, characterized in that the inner Cathode half-shell is designed as a control electrode.