Abstract: In a system for determining thermal resistance of a field effect transistor, a p-n junction is formed with one of drain and source regions of the transistor for determining a current versus temperature characteristic of the p-n junction. A respective temperature of the transistor is determined for each of a plurality of power dissipation levels through the transistor from the current versus temperature characteristic of the p-n junction. The thermal resistance is a rate of change of the temperature with respect to a rate of change of the power dissipation level for the field effect transistor.

Abstract: A fully depleted field effect transistor formed in a silicon on insulator (SOI) substrate includes a body region formed in a silicon device layer over an isolation layer of the SOI substrate. A gate is positioned above the body region and includes a base gate region adjacent the body region and a wide top gate region formed of tungsten damascene and spaced apart from the body region. An inverted T-shaped central channel region is formed between adjacent source regions and drain region in the body region.

Abstract: An exemplary embodiment relates to a method of finFET patterning. The method can include patterning a fin structure above a substrate, forming amorphous carbon spacers along lateral sidewalls of the fin structure, depositing an oxide layer and polishing the oxide layer to expose top portions of the fin structure and the amorphous carbon spacers, removing amorphous carbon spacers, and depositing polysilicon where the amorphous carbon spacers were located.

Abstract: In the present method of trimming photoresist to form a mask for a layer of a semiconductor device, which layer may include polysilicon and/or nitride, the method is practiced substantially in accordance with: wmin=(h0−Rvtmax)/ARmax where w1=minimum width of trimmed photoresist; h0=height of photoresist prior to trim; Rv=resist vertical etch rate; tmax=maximum etch time to reach resist vertical etch limit; ARmax=maximum allowable aspect ratio of trimmed photoresist.

Abstract: A self-aligned silicide process that can accommodate a low thermal budget and form silicide regions of small dimensions in a controlled reaction. In a first temperature treatment, nickel metal or nickel alloy is reacted with a silicon material to form at least one high resistance nickel silicide region. Unreacted nickel is removed. A dielectric layer is then deposited over a high resistance nickel silicide regions. In a second temperature treatment, the at least one high resistance nickel silicide region and dielectric layer are reacted at a prescribed temperature to form at least one low resistance silicide region and process the dielectric layer. Bridging between regions is avoided by the two-step process as silicide growth is controlled, and unreacted nickel between silicide regions is removed after the first temperature treatment. The processing of the high resistance nickel silicide regions and the dielectric layer are conveniently combined into a single temperature treatment.

Abstract: The present invention relates to a method for fabricating interconnecting lines and vias in a layer of insulating material. A via is formed in the layer of insulating material. A protective material is formed so as to be conformal to at least edges and sidewalls of the via, the protective material facilitating shielding of at least the edges and sidewalls of the via from a trench etch step. The trench etch step is performed to form a trench opening in the insulating material. The via and trench are filled with a conductive metal.

Abstract: A method of manufacturing a semiconductor device having features with a dimension of ½the minimum pitch wherein the minimum pitch is determined by the parameters of the manufacturing process being used to manufacture the semiconductor device. A target layer of material to be etched with dimensions of ½the minimum pitch is first etched with masks having a dimension of the minimum pitch and the target layer of material is then etched with the masks offset by ½the minimum pitch.

Abstract: There is provided a method for forming a photoresist layer for photolithographic applications which has increased structural strength. The photoresist layer is exposed through a mask and developed. The photoresist layer is then reacted with a stabilizer agent to change its material properties before the photoresist layer is dried. Also provided are a semiconductor fabrication method employing a stabilizer-treated photoresist and a composition for a photoresist that strengthens when exposed to a stabilizer agent.

Abstract: In one illustrative embodiment, the method comprises providing a wafer, forming a plurality of die above the wafer, identifying a plurality of good die and at least one non-useful die from the plurality of die, and performing a test process on the at least one non-useful die but not on the good die. In another aspect, the present invention is directed to a system that comprises a metrology tool for receiving a wafer having a plurality of die formed thereabove and identifying a plurality of good die and at least one non-useful die from the plurality of die formed above the wafer, and a process tool for performing a test process on the at least one non-useful die on the wafer but not on the plurality of good die.

Abstract: A method for forming a semiconductor device comprises forming a first layer over a semiconductor substrate. At least one hole is formed through the first layer. A bottom anti-reflective coating (BARC) layer is formed in the at least one hole. A first heating is performed to heat the BARC layer to a flow temperature. A second heating is performed to heat the BARC layer to a hardening temperature so that the BARC layer hardens, wherein the hardening temperature is greater than the flow temperature. An etch is performed to form a trench in the first layer and over the at least one hole, wherein the hardened BARC layer in the at least one hole acts as an etch resistant layer during the etch. As an alternative to the second heating step, the BARC may be simply hardened. The first and second heating may be performed within a heating chamber without removing the semiconductor substrate.

Abstract: A method of fabricating an improved flash memory device, having shallow trench isolation in the periphery region and LOCOS isolation in the core region is provided, by first creating the shallow trench isolation using a hard mask; then creating the LOCOS isolation; and subsequently etching to remove stringers. The flash memory is able to use shallow trench isolation to limit encroachment. The flash memory may also have a nitridated tunnel oxide layer. A hard mask is used to prevent nitride contamination of the gate oxide layer.

Abstract: A method for reducing nitride residue from a silicon wafer during semiconductor fabrication. The wafer includes a nitride mask defining active regions and isolation regions wherein the isolation regions are formed by trenches. The method includes providing an optimized oxide deposition process in which a temperature gradient of a CVD chamber is improved by performing the following steps. First, at least one silicon wafer is placed into the chamber on a quartz boat having an increased slot size, preferably at least 6 mm. Second, the quartz boat is centered in approximately a center of the chamber so that the wafer is located in a center section of the chamber to avoid the temperature gradient at the ends of the chamber, such that when oxide gas is injected onto the wafer, an oxide layer having a substantially uniform thickness is formed on the wafer.

Abstract: Methods are disclosed for determining tunnel oxide reliability of flash memory devices in a wafer prior to sorting and packaging without damaging or stressing the devices. The methods comprise measuring an initial threshold voltage of a test cell having the same tunnel oxide as other flash cells on the wafer, applying an erase stress to the test cell for a first time period and a program stress to the test cell for a second time period, and measuring the final threshold voltage of the test cell. The difference between the initial and final threshold voltages is then used to determine or estimate the tunnel oxide reliability of the flash memory cells on the wafer.

Abstract: A semiconductor device including a semiconductor substrate; a metal gate electrode; and a silicon oxynitride spacer formed on a surface of the metal gate electrode, wherein an interface of the silicon oxynitride spacer and the metal gate electrode is substantially free of metal silicide. In one embodiment, the silicon oxynitride spacer includes a first portion and a second portion, in which the first portion is formed under starving silicon conditions.

Abstract: A semiconductor device having a large-area silicide layer and fabrication method is provided. A semiconductor device, consistent with one embodiment of the invention, includes a silicon substrate, a gate insulating layer disposed over the silicon substrate, a gate electrode disposed over the gate insulating layer, and at least one active region disposed adjacent the gate electrode. Formed over the active region and in contact with the insulating layer is a silicide layer. The active region may, for example, be a source/drain region. The silicide layer generally has a surface area which is larger than that of conventional silicide layers. This, for example, reduces the resistance of the active regions of the semiconductor device and enhances device performance.

Abstract: A processor provides a register for storing an address space number (ASN). Operating system software may assign different ASNs to different processes. The processor may include a TLB to cache translations, and the TLB may record the ASN from the ASN register in a TLB entry being loaded. Thus, translations may be associated with processes through the ASNs. Generally, a TLB hit will be detected in an entry if the virtual address to be translated matches the virtual address tag and the ASN matches the ASN stored in the register. Additionally, the processor may use an indication from the translation table entries to indicate whether or not a translation is global. If a translation is global, then the ASN comparison is not included in detecting a hit in the TLB. Thus, translations which are used by more than one process may not occupy multiple TLB entries. Instead, a hit may be detected on the TLB entry storing the global translation even though the recorded ASN may not match the current ASN.

Abstract: Bridging between silicide layers on a gate electrode and source/drain regions along silicon nitride sidewall spacers is prevented by implanting the exposed surfaces of the silicon nitride sidewall spacers with nitrogen to create a surface region having an increased nitrogen concentration. Embodiments include implanting the silicon nitride sidewall spacers with nitrogen such that the nitrogen concentration of the exposed surface is increased by about 5% to about 15%, thereby substantially preventing the formation of metal silicide on the sidewall spacers.

Abstract: An interconnect structure and method of forming the same in which a bottom anti-reflective coating/etch stop layer is deposited over a conductive layer. An inorganic low k dielectric material is deposited over the BARC/etch stop layer to form a first dielectric layer. The first dielectric layer is etched to form a slot via in the first dielectric layer. An organic low k dielectric material is deposited within the slot via and over the first dielectric layer to form a second dielectric layer over the slot via and the first dielectric layer. The re-filled via is simultaneously etched with the second dielectric layer in which a trench is formed. The trench extends in a direction that is normal to the length of the slot via. The entire width of the trench is directly over the via. The re-opened via and the trench are filled with a conductive material.

Abstract: The present invention is directed to a method of incorporating metrology grating structures into die design. In one embodiment, the invention is directed to a wafer comprised of a semiconducting substrate, a plurality of production die formed on the substrate, and at least one non-production die formed on the substrate, the non-production die having at least one grating structure formed therein that will ultimately be measured in subsequent metrology tests. The present invention is also directed to a method that comprises providing a semiconducting substrate, forming at least one production integrated circuit device in a plurality of production die formed on the substrate, and forming at least one grating structure in the non-production die.

Abstract: An inspection tool or inspection system can be utilized to determine whether the appropriate pattern is on a reticle. The reticle can be associated with EUV lithographic tools. The system can utilize at least two pulse durations of light or an ultra-short pulse duration of light. The light is directed to the reticle and received by a detector.