DE1164681B - Process for the production of a uniformly doped rod made of semiconductor material by crucible-free zone melting - Google Patents

Description

Process for the production of a uniformly doped rod made of semiconductor material through crucible-free zone melting, semiconductor arrangements such as rectifiers, transistors, Photodiodes and the like are already widely used in electrical engineering applied. Larger quantities of semiconductor materials, such as germanium, silicon or intermetallic compounds of elements of III. and V. Group of the Periodic Table. There are already different procedures for their extraction and cleaning or other processing has become known.

The invention relates to a method for equalization or otherwise influencing the doping concentration of a rod made of semiconductor material by crucible-free vertical zone melting, in which the melting zone through the Semiconductor rod is passed several times in both directions lengthwise. One such method is, for example, that known as forward-backward zone melting or zone-leveling known method in which the doping concentration in a rod made of semiconductor material arranged in a horizontal crucible is made uniform over the length as well as over the cross-section.

It is also known that in the case of crucible-free vertical zone melting the direction of migration of the melting zone from bottom to top is to be preferred, since in this direction the melting zone is mechanically particularly stable.

Certain difficulties arise in this work. The melting conditions moving the melting zone upwards are different from those moving downwards. As a result of gravity, a bulge forms in the lower part of the melting zone the end. As the melt zone moves down, it points to the upward movement a much smaller extension in the longitudinal direction of the rod when doing so the same rod length and thickness should be achieved. You have to do the Reduce the heating power when moving downwards.

This can lead to a reduction in the aforementioned zone melt leveling the desired effect, i.e. a remaining unevenness of the doping content to lead. In addition, the melting conditions can be changed when moving the melting zone downwards more difficult to control, which is why with alternating upward and downward hikes the enamel zone has increased demands on the attention of the person entrusted with the work must be asked.

The invention relates to a method for equalization or otherwise influencing the doping concentration of a vertically mounted Rod made of semiconductor material by crucible-free zone melting; where the melting zone passed through the semiconductor rod several times in both vertical directions will. According to the invention, the direction reversal is brought about by reversing the .Stabes and in a manner known per se for all zone passages relative to gravity one and the same vertical direction, preferably from bottom to top, maintained.

A particularly advantageous embodiment of the method provides; that the rod is turned over only once and after several passes in one direction and afterwards approximately the same number of zone passes as before will. In this way, a substantial saving in labor can be achieved.

In particular, the invention relates to the implementation of the Process with automatic control of the zone passage through the semiconductor rod. The measures according to the invention bring particular advantages here because the control program only for a single direction of movement, especially for that which is easier to control Moving up the melt zone, needs to be laid out.

The following is an example of the zone melt leveling process can be described in more detail: With crucible-free zone melting, the melting zone moves slowly over the entire length of the rod. At the one lying in the direction of travel page new material is constantly being melted on the zone, while on the opposite one Page material is precipitated from the melt. The recrystallizing material mostly has a higher purity than the melt, because of the crystal structure only foreign atoms with a distribution coefficient <1 are incorporated. So come it is that the impurities in the melting zone continuously increase while they are in the excreted material are present in a much lower concentration. However, because of the constant increase in the zone, the concentration also decreases in the recrystallizing rod continuously in the direction of drawing. Then leave If the melting zone migrates through the rod in the opposite direction, the same occurs Effect in the opposite direction, and there is roughly a distribution of Foreign matter as it existed before the start of the zone melting process.

Local accumulations of foreign matter are broken down, see above that after repeated back and forth wandering of the melting zone, the concentration of foreign substances is constant over the entire length of the rod. This is the process of zone melt leveling, which, however, fails with certain substances that are part of the crystal structure of the rod exactly how the semiconductor material itself is installed (same atomic radius, Distribution coefficient almost ---- 1).

By wandering back and forth the melting zone does not become just one uniform concentration of foreign atoms over the length of the rod, but also over reaches the rod cross-section. For example, a rod made of highly purified semiconductor material are doped with certain foreign substances, this will be the case in most cases Apply to the surface of the rod and then apply the zone melt leveling process subject. This results in uniform doping both over the length of the rod as well as via the rod cross-section, since the mostly inductive heating of the melting zone this is vigorously stirred and otherwise a purely mechanical mixing takes place, especially if the one rod part to the other around his Longitudinal axis is rotated, which is known to serve, the recrystallizing semiconductor material to grow up symmetrically.

The sequence of the zone melting process can be carried out automatically Control facility. Such facilities are also already known. Measurements are made via appropriate organs and, accordingly, the feed rate the heating coil regulates the heating power and the rotation of the rod or and turned off. As a result of the difficulties described in the introduction the control device reacts differently when moving the zone upwards than when moving it downwards. The effort for this is quite considerable. You can therefore see the previously known Devices for the automatic control of the zone melting process such a control program suggest that only the easier-to-control upward movement is used for zone melting and with the downward movement a quick passage of the glowing stick at reduced heating takes place. This lower heating output is only used for maintenance a sufficient conductivity of the semiconductor material at the inside of the heating coil lying position of the rod. The inventive design of the method creates the possibility of the automatic control of the zone melting process also on to use zone melt leveling and similar procedures without the necessary to do so To increase effort. It has also been shown that it is not necessary to each pass of the melting zone in one direction equals one pass in to follow the other direction by enriching the melting zone increasing doping of the rod resulting from foreign substances again in each case to undo. As shown in the practical implementation of the procedure it is quite sufficient to run a certain number of times in one direction follow the same number of passes in the opposite direction.

This process will be explained in more detail using an example. According to a more recent proposal, a certain dopant is used in certain Concentration provided semiconductor material manufactured in such a way that on one low-resistance thinly drawn semiconductor rod of known doping concentration very pure semiconductor material is deposited, for example, from the gas phase. From the ratio of the cross section of the finished rod to the cross section of the low resistance "Soul" then results in the final doping concentration that one thereby achieves can be set to any desired value that you can adjust the precipitated material can grow up to a corresponding thickness. Then it will be like this The semiconductor rod obtained is subjected to the zone melt leveling, in order to obtain the above the length of the rod almost uniform doping concentration also over the cross section to equalize. The procedure according to the invention is as follows. A rod 20 cm long, for example, is placed in the zone melting apparatus in the morning clamped, and then a single-crystal seedling is fused to the lower end. Now the automatic control of the zone melting device is switched on, which it then takes over a certain number of passes through the melting zone with e.g. B. 4 mm / min pulling speed from bottom to top perform, for example 10. In the evening, the person in charge of the work can take out the semiconductor rod, vice versa and switch on the apparatus again, whereupon the game begins repeated, only that the direction of passage of the melting zone relative to the semiconductor rod is reversed. After the device itself after the appropriate number of passes has switched off automatically, the next morning the finished rod of the apparatus can be used can be removed.

Claims (3)

Claims: 1. Method for equalization or otherwise Influencing the doping concentration of a vertically held rod Semiconductor material through crucible-free zone melting, in which the melting zone through the semiconductor rod is passed several times in both vertical directions, characterized in that the direction reversal is brought about by reversing the rod and in a manner known per se for all zone passages relative to gravity. and the same vertical direction, preferably from below to above, is retained. 2. The method according to claim 1, characterized in that the rod only once, namely after several passes in one direction, vice versa and afterwards approximately the same number of zone passes as before will. 3. The method according to claim 1, characterized in that the zone passage is automatically controlled by the semiconductor rod. In. Documents considered: German Patent No. 1014 332; German Auslegeschrift No. 1032 555; French Patent No. 1107 076; British Patent No. 790 954.