Abstract: The ALD process chamber has heating radiation sources and the process sequence includes rapid temperature changes on a substrate surface of a substrate arranged in the ALD process chamber. The temperature changes are controlled and the ALD and CVD processes are optimized by in situ temperature steps, for example in order to produce nanolaminates.

Abstract: Semiconductor devices having deep trenches with fill material therein having low resistivity are provided along with methods of fabricating such semiconductor devices.

Abstract: A ring oscillator has a multiplicity of inverters. An interconnect is connected between two of the inverters, and a storage capacitor to be measured, with its associated lead resistor, is coupled to the interconnect either via an interconnect or a transistor can selectively coupled and decouple the capacitor and the lead resistance. A measuring device is connected up to the ring oscillator and is used to determine a value for the oscillation frequency of the ring oscillator on the basis of which a value for the time constant of the storage capacitor can be determined.

Abstract: The invention relates to a method for fabricating low-resistance electrodes in trench capacitors, and includes steps of: providing a wafer; producing trenches in the wafer; introducing the wafer into an electrolyte solution including a salt of an electrically conductive material; and electrically contact-connecting the wafer and applying a voltage between the wafer and a counterelectrode configured in the electrolyte solution to electrodeposit at least sections of the electrically conductive material in the trenches. The electrodeposition of the electrode material enables a uniform layer thickness along all regions of the trench wall.

Abstract: A trench capacitor has a first capacitor electrode, a second capacitor electrode, and a dielectric, which is arranged between the capacitor electrodes. The first capacitor electrode has a tube-like structure, which extends into a substrate. The second capacitor electrode includes a first section which is opposite to the internal side of the tube-like structure, with the dielectric arranged therebetween, and a second section, which is opposite to the external side of the tube-like structure with the dielectric arranged therebetween.

Abstract: The capacitor is arranged on the surface of a substrate. A first capacitor electrode has a middle part and a side part, which point vertically upwards, are arranged beside each other and are connected with each other via an upper part located above said middle part and said side part. The middle part is longer than the side part and is connected with other components of the circuit configuration located below said middle part and said side part. The first capacitor electrode is provided with a capacitor dielectric. A second capacitor electrode borders the capacitor dielectric.

Abstract: The integrated circuit configuration has at least one buried circuit element and an insulating layer. A multiplicity of insulating regions are in contact with one another to forming a locally delimited insulating layer in the substrate. In this way, trench capacitors implemented as buried circuit elements can be manufactured with a structure size of less than 100 nm in a simple and cost-effective manner.

Abstract: The integrated circuit configuration has at least one buried circuit element and an insulating layer. A multiplicity of insulating regions are in contact with one another to forming a locally delimited insulating layer in the substrate. In this way, trench capacitors implemented as buried circuit elements can be manufactured with a structure size of less than 100 nm in a simple and cost-effective manner.

Abstract: A first capacitor electrode of the capacitor, which is arranged on a surface of a substrate (1), has a lower part (T) and a lateral part (S) arranged thereon. At least a first lateral area of the lateral part (S) is undulatory in such a way that it has bulges and indentations alternately which are formed along lines each running in a plane parallel to the surface of the substrate (1). The lateral part (T) can be produced by depositing conductive material in a depression (V) which is produced in a layer sequence whose layers are composed alternately of a first material and a second material and in which the first material is subjected to wet etching selectively with respect to the second material down to a first depth. The first capacitor electrode is provided with a capacitor dielectric (KD). A second capacitor electrode (P) adjoins the capacitor dielectric (KD).

Abstract: The bottom and the sides of a lower part of recess formed in the substrate has an insulating structure. A first part of the conductive structure of a first electric conductivity type is located in the lower part of the recess. A second part of the conductive structure of a second electric conductivity type, lower than the first type, is located in an upper part and borders the region of the substrate at the sides of the recess. The conductive structure has a diffusion barrier between its first and second parts. The conductive structure is configured as a bit line of a DRAM cell configuration with a vertical transistor, whereby S/Du represents the lower source/drain area and S/Do represents the upper source/drain area connected to a memory capacitor. Or, the conductive structure is configured as a memory capacitor and the upper source drain/area is connected to a bit line.

Abstract: At least a partial layer of an upper capacitor electrode is formed by metal carbide, preferably by a transition metal carbide. In one embodiment, the metal carbide layer is formed by depositing an alternating sequence of metal-containing layers and carbon-containing layers on top of one another and then subjecting them to a heat treatment, in such a manner that they mix with one another. The patterning of the layer sequence can be carried out before the carbide formation step.

Abstract: Tungsten silicide layers are formed on a substrate and a semiconductor component has deep trench capacitors with a filling of tungsten silicide. The tungsten silicide layers are deposited on the substrate at a temperature of less than 400° C. and at a pressure of less than 10 torr from the vapor phase. The vapor phase hs a tungsten-containing precursor substance and a silicon-containing precursor substance. The molar ratio of the silicon-containing precursor compound to the tungsten-containing precursor compound in the vapor phase is selected to be greater than 500.

Abstract: Bit lines are arranged in the lower parts of trenches of a substrate. Word lines are located above the substrate except for protuberances or bulges, which extend downwards into the trenches and which are arranged above the bit lines. The transistors are vertical transistors whose source/drain regions are located below the word lines and between adjacent trenches. The capacitors are linked with the upper source/drain regions. Conductive structures that surround the word lines from the top and the sides while being insulated from the word lines and bordering on the upper source/drain regions can link the upper source/drain regions with the capacitors.

Abstract: A ring oscillator has a multiplicity of inverters. An interconnect is connected between two of the inverters, and a storage capacitor to be measured, with its associated lead resistor, is coupled to the interconnect either via an interconnect or a transistor can selectively coupled and decouple the capacitor and the lead resistance. A measuring device is connected up to the ring oscillator and is used to determine a value for the oscillation frequency of the ring oscillator on the basis of which a value for the time constant of the storage capacitor can be determined.

Abstract: A memory cell has a selection transistor and a trench capacitor. An upper capacitor electrode of the trench capacitor, in the region of an insulating collar, has a metallic section, and that section of the upper electrode that makes contact with a storage dielectric is of a non-metallic form, in particular containing polysilicon. A buried strap, which connects the upper electrode to the select transistor, is of a non-metallic form, in particular formed of polysilicon.

Abstract: An upper capacitor electrode of a trench capacitor of a DRAM memory cell is formed at least in part as a result of a plurality of metal-containing layers being deposited one on top of another and in each case being conditioned after they have been deposited. In this way, the internal stress of the electrode layer can be reduced, and therefore a breaking strength and a resistance to leakage currents of the trench capacitor can be increased.

Abstract: An etching mask is produced for etching a substrate by a photoresist layer being exposed such that areas which are exposed once are not yet completely exposed and, on the basis of a reflective layer which is located under the photoresist layer, additionally exposed areas are exposed completely. In consequence, a first etching mask which is used for etching a substrate can be renewed by a second etching mask in that a photoresist layer which is applied to the first etching mask or instead of the first etching mask is exposed such that areas which have been exposed once are not yet completely exposed, and areas which have been additionally exposed on the basis of a reflective layer which is located under the photoresist layer and corresponds to the first etching mask are exposed completely.

Abstract: The stress-reduced layer system has at least one first layer of polycrystalline or single-crystal semiconductor material, which adjoins a microcrystalline or amorphous, conducting or insulating second layer. The semiconductor layer is doped with at least two dopants of the same conductivity type, of which at least one is suitable for reducing mechanical stresses at the interface. The stress-reduced layer system, in a further embodiment, has at least one first layer of semiconductor material, conducting or insulating material and at least one conducting or insulating second layer. A further semiconductor layer, which is doped with at least one dopant that is suitable for reducing mechanical stresses at the interface between the second layer and the first layer, is arranged between the first layer and the second layer or it is applied to the surface of the first layer or the second layer that is opposite from the interface.

Abstract: The capacitor is arranged on the surface of a substrate. A first capacitor electrode has a middle part and a side part, which point vertically upwards, are arranged beside each other and are connected with each other via an upper part located above said middle part and said side part. The middle part is longer than the side part and is connected with other components of the circuit configuration located below said middle part and said side part. The first capacitor electrode is provided with a capacitor dielectric. A second capacitor electrode borders the capacitor dielectric.

Abstract: Bit lines are arranged in the lower parts of trenches of a substrate. Word lines are located above the substrate except for protuberances or bulges, which extend downwards into the trenches and which are arranged above the bit lines. The transistors are vertical transistors whose source/drain regions are located below the word lines and between adjacent trenches. The capacitors are linked with the upper source/drain regions. Conductive structures that surround the word lines from the top and the sides while being insulated from the word lines and bordering on the upper source/drain regions can link the upper source/drain regions with the capacitors.