DE1519836B1 - DEVICE FOR DRAWING SEMICONDUCTOR CRYSTALS FROM A MELT - Google Patents

Description

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The invention relates to a device crucible wall are dimensioned so that a continuous for pulling semiconductor crystals from a melt heated in the crucible easily out-melt of the semiconductor material would occur with two coaxial, especially since a metal rod normally Crucibles made of non-wettable by the melt is easily wettable by its melt. The Bedin material. The semiconductor material can correspond to half cuts in this known device conductive element, e.g. B. germanium or silicon, so not according to the conditions of the device or a semiconducting compound, e.g. B. indium anti- of the invention. In addition, this is known monid or cadmiümtelluruid. Device does not melt treatment in the crucible

According to a well-known procedure (British made, because doing the guided through the opening Patent specification 754767) can melt crystals from a rod part.

relatively small crucible, hereinafter referred to as Next it was already known (German patent

Inner crucible, which is in a larger registration S 34776), a crucible-like The crucible, the outer crucible, is located, formed from heatable ceramic tubes, rods the. The contents of both crucibles are available through an od. Small opening in the inner crucible combined into 15 crucible or the like producing structures binding. are. It was not considered necessary

When practicing this procedure- the joints and spaces between the pipes rens there arises the difficulty that the inner crucible to seal, since the melted in the structure has a tendency to float on the melt. Metal due to its high surface tension It is difficult to find a material that specifically does not leak.

heavier than the melt, and the pressing down play in the device according to the invention

of the inner crucible from above is very complicated the following considerations play a role: and leads to symmetry disturbances in the environment. The surface tension of the melted

the solidification surface of the crystal, the dislocations caused by the material is im result in the crystal structure. 25 general

The invention is based on the object

the difficulties of this known device to ν / 1 1 \

bypass. f - + - g / cm *,

The invention is based on the knowledge that ⁶ \ ^Λ ι ^Λ 2 /

Semiconductor materials in the molten state a 30

have high surface tension and therefore where γ is the surface tension in dynes / cm, g the openings in the crucible are permissible if the magnitude of acceleration due to gravity in cm / sec ² and A ₁ and i? ₂ These openings do not exceed a certain amount of curvature radius of the liquid surface. two mutually perpendicular directions in centimeters

Accordingly, the task mentioned will represent 35 meters.

solved that the inner crucible with some play- If the crucible made of graphite and the melted

space through the bottom of the outer crucible is made of germanium, γ is about a stem, with this margin being measured at 500 dyn / cm. If the opening or the melt is mainly due to its surface - the clearance V2 mm wide, then R ₁ with ¹ Z ₄₀ and tension is prevented from flowing out. 40 Α ₂ πώ: οο to be added. Furthermore, if g at 1000 cm / sec ²

According to a further development of the invention, the upward pressure of the stems eme in the inner crucible opening longitudinally in the opening is 20 g / cm ² . The density of the germanium bore, also the cross section of the is about 5.3; As a result, such a bore can be so small that the melt opening to a depth of almost 4 cm below all is prevented from flowing out of the germanium surface due to its surface tension. in front of the melt through the slot

This has the advantages that the inside flows.

The pan floats in the outer pan and cannot be moved laterally This depth is sufficient in many cases

and doping material simple, without hindrance. The invention is described below with reference to FIG

through the drawn-up crystal, in the crucible, a drawing explained in more detail.

can be brought. The device according to the single figure of the

It should be noted that a device drawing already has an outer pan 15 with a device was known (British patent specification 701790), base 16, which is provided with a hole 17. in the case of the vaporizing of metals, a metal The inner crucible 18 fits with little clearance stab stuck through the bottom of a crucible and the 55 the outer crucible. The flows through a channel 19 upper end of the rod by high frequency heating melt 20 to the extent from the outer crucible in is melted. When the high-frequency field after the inner crucible, in which as a result of the opening of the the melting is switched off, it may be before crystal 21 a refill is required. Of the come that the melt on the rod in the crucible. The advantage of the inner crucible is that the runs down. The rod and the opening in the crucible 60 properties of the crystal can be influenced but so dimensioned that the melt because of its NEN, by the composition of the contents of the high viscosity is not changed by the gap between the inner crucible without being required The rod and the wall of the opening in the crucible allow for the much larger contents of the outer crucible can kick. The flow velocity of the affect. The diffusion through the Melt will be so small in the gap that the channel 19 will be neglected. To prevent, Molten material has solidified before the crucible 18 floats on top of the melt 20 can step out of the opening. The maxim that begins is the inner pan with a handle 22 Mal dimensions of the gap between the rod and the provided with little play through the hole

17 is passed through. This stem can be on the underside by a device not shown here moved up and down as shown by arrows. This is where surface tension prevents the drainage of the melt through the narrow slot between the stem 22 and the Hole 17.

It is often desirable to add certain substances, so-called dopants, to the melt. Of the Addition is usually done from above, but this can cause difficulties, for example, because of the raised Crystal stands in the way.

In the present embodiment, a narrow channel 23 is drilled into the stem 22, which is so small that that this melt does not flow through this channel. The dopant can, however, in the form a ball or a thin wire with the help of a pin through the channel 23 in the melt are introduced.

Claims (2)

Patent claims: 1. Apparatus for pulling semiconductor crystals from a melt of the semiconductor material, with two coaxial crucibles made of material that cannot be wetted by the melt, thereby characterized in that the inner crucible (18) a handle (22) that goes through the bottom (16) of the outer pan (15) with some clearance possesses, this margin is dimensioned so that the melt solely through its surface tension is prevented from flowing out of the outer pan. 2. Device according to claim 1, characterized in that that the handle (22) has a longitudinal bore (23) opening into the inner crucible (18), the cross-section of the bore being so small that the melt alone is prevented from flowing out by its surface tension. 1 sheet of drawings