摘要:
A finFet controls conduction channel conditions using one of two gate structures, preferably having a gate length shorter than the other gate structure to limit capacitance, which are opposed across the conduction channel. An asymmetric halo impurity implant performed at an angle adjacent to the gate structure for controlling conduction channel conditions forms a super steep retrograde well to limit short channel effects in the portion of the conduction channel which is controlled by the other gate structure.
摘要:
An integrated circuit is provided including an FET gate structure formed on a substrate. This structure includes a gate dielectric on the substrate, and a metal nitride layer overlying the gate dielectric and in contact therewith. This metal nitride layer is characterized as MNx, where M is one of W, Re, Zr, and Hf, and x is in the range of about 0.7 to about 1.5. Preferably the layer is of WNx, and x is about 0.9. Varying the nitrogen concentration in the nitride layer permits integration of different FET characteristics on the same chip. In particular, varying x in the WNx layer permits adjustment of the threshold voltage in the different FETs. The polysilicon depletion effect is substantially reduced, and the gate structure can be made thermally stable up to about 1000° C.
摘要翻译:提供了一种集成电路,其包括形成在衬底上的FET栅极结构。 该结构包括衬底上的栅极电介质和覆盖栅极电介质并与其接触的金属氮化物层。 该金属氮化物层的特征在于MN x,其中M是W,Re,Zr和Hf之一,x在约0.7至约1.5的范围内。 优选地,该层为W N x X,x为约0.9。 改变氮化物层中的氮浓度允许在同一芯片上集成不同的FET特性。 特别地,在WN SUB>层中改变x允许调节不同FET中的阈值电压。 多晶硅耗尽效应显着降低,并且栅极结构可以在高达约1000℃下热稳定。
摘要:
The present invention relates to a semiconductor device structure that includes at least one SRAM cell formed in a substrate. Such SRAM cell comprises two pull-up transistors, two pull-down transistors, and two pass-gate transistors. The pull-down transistors and the pass-gate transistors are substantially similar in channel widths and have substantially similar source-drain doping concentrations, while the SRAM cell has a beta ratio of at least 1.5. The substrate preferably comprises a hybrid substrate with at two isolated sets of regions, while carrier mobility in these two sets of regions differentiates by a factor of at least about 1.5. More preferably, the pull-down transistors of the SRAM cell are formed in one set of regions, and the pass-gate transistors are formed in the other set of regions, so that current flow in the pull-down transistors is larger than that in the pass-gate transistors.
摘要:
A field effect transistor (FET), integrated circuit (IC) chip including the FETs and a method of forming the FETs. The FETs have a device channel and a gate above the device channel with a doped source/drain extension at said each end of the thin channel. A portion of a low resistance material layer (e.g., a silicide layer) is disposed on source/drain extensions. The portions on the doped extensions laterally form a direct contact with the doped source/drain extension. Any low resistance material layer on the gate is separated from the low resistance material portions on the source/drain extensions.
摘要:
An apparatus and method for real-time monitoring process conditions of a semiconductor wafer processing operation. A semiconductor wafer subject to processing in a wafer processing tool is embedded with one or more sensor devices. In response to receipt of wireless electromagnetic signals, the embedded sensor devices are activated for generating sensory data. The electromagnetic signals are further utilized to activate a transmitter device provided in the wafer to wirelessly transmit the sensory data generated from the activated embedded sensor device. The transmitted electromagnetic signals comprising the sensory data are communicated to a control device for controlling processing conditions of the process tool based upon the received sensory data.
摘要:
A method for increasing the level of stress for amorphous thin film stressors by means of modifying the internal structure of such stressors is provided. The method includes first forming a first portion of an amorphous film stressor material on at least a surface of a substrate, said first portion having a first state of mechanical strain defining a first stress value. After the forming step, the first portion of the amorphous film stressor material is densified such that the first state of mechanical strain is not substantially altered, while increasing the first stress value. In some embodiments, the steps of forming and densifying are repeated any number of times to obtain a preselected and desired thickness for the stressor.
摘要:
An integrated circuit device including at least one semiconductor memory array region and logic circuits including a support region is formed by the following steps. Form a sacrificial polysilicon layer over the array region. Form a blanket gate oxide layer over the device. Form a thick deposit of polysilicon in both the array region where word lines are located and in the support region where the logic circuits are located. Remove the thick polysilicon layer, the gate oxide layer and the sacrificial polysilicon layer only in the array region. Then deposit a thin polysilicon layer in both the array region and support regions. Next deposit a metallic conductor coating including at least an elemental metal layer portion over the thin polysilicon layer. Then form word lines and sate electrodes in the array region and support region respectively.
摘要:
A versatile structure is formed, based on a deep trench, vertical transistor DRAM cell, that forms a conductive extension of the trench electrode in an elongated trench that contacts the lower electrode of the vertical transistor. The structure can be used as a capacitor, as a discrete transistor as a single-transistor amplifier or as a building block for more complex circuits.
摘要:
The present invention provides a semiconducting device including at least one gate region including a gate conductor located on a surface of a substrate, the substrate having an exposed surface adjacent the gate region; a silicide contact located adjacent the exposed surface; and a stress inducing liner located on the silicide contact, the exposed surface of the substrate adjacent to the gate region and the at least one gate region, wherein the stress inducing liner provides a stress to a device channel portion of the substrate underlying the gate region. The stress produced on the device channel is a longitudinal stress on the order of about 200 MPa to about 2000 MPa. The present invention also provides a method for forming the above-described semiconducting device.
摘要:
A conductive structure in an integrated circuit (12), and a method of forming the structure, is provided that includes a polysilicon layer (30), a thin layer containing titanium over the polysilicon, a tungsten nitride layer (34) over the titanium-containing layer and a tungsten layer over the tungsten nitride layer. The structure also includes a silicon nitride interfacial region (38) between the polysilicon layer and the titanium-containing layer. The structure withstands high-temperature processing without substantial formation of metal silicides in the polysilicon layer (30) and the tungsten layer (32), and provides low interface resistance between the tungsten layer and the polysilicon layer.