Abstract: An apparatus and method for depositing plural layers of materials on a substrate within a single vacuum chamber allows high-throughput deposition of structures such as these for GMR and MRAM application. An indexing mechanism aligns a substrate with each of plural targets according to the sequence of the layers in the structure. Each target deposits material using a static physical-vapor deposition technique. A shutter can be interposed between a target and a substrate to block the deposition process for improved deposition control. The shutter can also preclean a target or the substrate and can also be used for mechanical chopping of the deposition process. In alternative embodiments, plural substrates may be aligned sequentially with plural targets to allow simultaneous deposition of plural structures within the single vacuum chamber.

Abstract: A microelectronic semiconductor interconnect structure barrier and method of deposition provide improved conductive barrier material properties for high-performance device interconnects. The barrier comprises a dopant selected from the group consisting of platinum, palladium, iridium, rhodium, and time. The barrier can comprises a refractory metal selected from the group consisting of tantalum, tungsten titanium, chromium, and cobalt, and can also comprise a third element selected from the group consisting of carbon, oxygen and nitrogen. The dopant and other barrier materials can be deposited by chemical-vapor deposition to achieve good step coverage and a relatively conformal thin film with a good nucleation surface for subsequent metallization such as copper metallization. In one embodiment, the barrier suppresses diffusion of copper into other layers of the device, including the inter-metal dielectric, pre-metal dielectric, and transistor structures.

Abstract: Rapid thermal cycling of substrates in low-pressure processing environments is achieved by movable temperature conditioners located outside the processing environments. The substrates are mounted on thermally conductive pedestals for processing in the low-pressure environment. The temperature conditioners are movable both into and out of thermal contact with the pedestals outside the low-pressure environment to regulate transfers of heat through the pedestals between the substrates and the temperature conditioners. A translatable cooler block with a high thermal mass and a large interface area with the pedestal can be used as a temperature conditioner for more rapidly withdrawing heat from the substrate.

Abstract: A method and system for fabricating a device on a substrate with a process gas, such as with chemical vapor deposition. A reaction chamber and support chuck cooperate to form a low conductance configuration for axisymetric process gas flow over the substrate and to form a high conductance configuration for enhanced evacuation of residual process gas from the reaction chamber upon completion of the process. A dual conductance chuck has an indented region that aligns with the exhaust port of the reaction chamber to restrict process gas flow in the low conductance configuration, and that moves distal a showerhead and the exhaust port to provide reduced restriction of process gas flow for reaction chamber evacuation. The chuck includes thermal control for enhancing film deposition on the substrate and for reducing residual film deposition on the chuck. An evacuation opening in the housing provides independent evacuation of residual gas from the housing.

Abstract: A microelectronic semiconductor interconnect structure barrier and method of deposition provide improved conductive barrier material properties for high-performance device interconnects. The barrier includes a refractory metal such as cobalt, cobalt-based alloys, ruthenium or ruthenium-based alloys for promoting adhesion of copper. The barrier materials can be deposited by chemical-vapor deposition to achieve good step coverage and a relatively conformal thin film with a good nucleation surface for subsequent metallization such as copper metallization. In one embodiment, the barrier suppresses diffusion of copper into other layers of the device, including the inter-metal dielectric, pre-metal dielectric, and transistor structures.

Abstract: A microelectronic semiconductor interconnect structure barrier and method of deposition provide improved conductive barrier material properties for high-performance device interconnects. The barrier includes a refractory metal such as cobalt, cobalt-based alloys, ruthenium or ruthenium-based alloys for promoting adhesion of copper. The barrier materials can be deposited by chemical-vapor deposition to achieve good step coverage and a relatively conformal thin film with a good nucleation surface for subsequent metallization such as copper metallization. In one embodiment, the barrier suppresses diffusion of copper into other layers of the device, including the inter-metal dielectric, pre-metal dielectric, and transistor structures.

Abstract: An apparatus and method for the deposition of thin film material layers provides improved use of processing chamber space for enhanced processing capability in the fabrication of microelectronic devices. In one embodiment, a physical-vapor deposition target offset from the processing chamber central axis, such as a target having an annular shape and central opening, deposits a material on a substrate while leaving the central region of the processing chamber available for other deposition techniques, including a centrally located sputtering target, CVD showerhead, or ion source. Alternatively, a collimator divides a processing chamber into sub-chambers and allows energetic species from a PVD target or ion source to pass to a substrate located in a separate sub-chamber for interaction with a CVD precursor without mixing the precursor and the plasma associated with the PVD or ion processes.

Abstract: A method and system for fabricating a device on a substrate with a process gas, such as with chemical vapor deposition. A reaction chamber and support chuck cooperate to form a low conductance configuration for axisymetric process gas flow over the substrate and to form a high conductance configuration for enhanced evacuation of residual process gas from the reaction chamber upon completion of the process. A dual conductance chuck has an indented region that aligns with the exhaust port of the reaction chamber to restrict process gas flow in the low conductance configuration, and that moves distal a showerhead and the exhaust port to provide reduced restriction of process gas flow for reaction chamber evacuation. The chuck includes thermal control for enhancing film deposition on the substrate and for reducing residual film deposition on the chuck. An evacuation opening in the housing provides independent evacuation of residual gas from the housing.

Abstract: A chuck body mounts a substrate within a vacuum chamber. Contiguous portions of the substrate and the chuck body form a heat-transfer interface. An intermediate sealing structure seals the chuck body to the substrate independently of any contact between the chuck body and the substrate and forms a separately pressurizable region within the vacuum chamber. A control system promotes flows of fluid through a periphery of the heat-transfer interface within the separately pressurizable region for controlling fluid pressures and related transfers of heat at the heat-transfer interface according to an overall aim of regulating the substrate temperature.

Abstract: A low-pressure processor for processing substrates includes a chuck that engages the substrates' peripheries for purposes of clamping, sealing, and centering the substrates on chuck bodies. For accomplishing all three purposes, a mechanical clamp can be arranged with two sealing regions. One of the sealing regions seals the clamp to a chuck body or an extension of the chuck body, and another of the sealing regions engages a peripheral edge surface of a substrate for sealing the clamp to the substrate. The second sealing region includes an inclined seating surface that engages a front edge of the substrate's peripheral edge surface and divides a clamping force into a first component that presses the substrate against the chuck body and a second component that centers the substrate on the chuck body.

Abstract: A method and system for fabricating a device on a substrate with a process gas, such as with chemical vapor deposition. A reaction chamber and support chuck cooperate to form a low conductance configuration for axisymetric process gas flow over the substrate and to form a high conductance configuration for enhanced evacuation of residual process gas from the reaction chamber upon completion of the process. A dual conductance chuck has an indented region that aligns with the exhaust port of the reaction chamber to restrict process gas flow in the low conductance configuration, and that moves distal a showerhead and the exhaust port to provide reduced restriction of process gas flow for reaction chamber evacuation. The chuck includes thermal control for enhancing film deposition on the substrate and for reducing residual film deposition on the chuck. An evacuation opening in the housing provides independent evacuation of residual gas from the housing.

Abstract: An electromagnet having one or more coils wrapped around a plate-shaped core produces a uniaxial magnetic field in the vicinity of a substrate surface for orienting a magnetic film deposited onto the substrate surface. Variations in the magnetic mass of the plate-shaped core or in the magnetic permeability of the core mass are made to reduce angular skew and to improve uniformity of the uniaxial magnetic field. The variations generally involve a reduction in magnetic mass or permeability near a center of the core with respect to a periphery of the core. Cavities of various sizes and shapes but having symmetry with a magnetic axis can be formed in the core for this purpose.

Abstract: Adhesion of a copper film, such as a copper interconnect, to a substrate underlayer, such as a substrate diffusion barrier, is enhanced with adhesion promotion techniques. The adhesion promotion techniques can repair the interface of the copper film and the substrate to enhance adhesion of the copper film for high-yield formation of inlaid copper metal lines and plugs. For instance, thermal annealing of a seed layer, including a copper seed layer, an alloy seed layer or a reactant seed layer, can repair contamination at the interface of the seed layer and the substrate. Alternatively, the adhesion promotion techniques can avoid contamination of the interface by depositing an inert seed layer, such as a noble (e.g., platinum) or passivated metal seed layer, or by depositing the seed layer under predetermined conditions that minimize contamination of the interface, and then depositing a bulk copper layer under predetermined conditions that maximize throughput.

Abstract: A microelectronic semiconductor interconnect structure barrier and method of deposition provide improved conductive barrier material properties for high-performance device interconnects. The barrier includes a refractory metal such as cobalt, cobalt-based alloys, ruthenium or ruthenium-based alloys for promoting adhesion of copper. The barrier materials can be deposited by chemical-vapor deposition to achieve good step coverage and a relatively conformal thin film with a good nucleation surface for subsequent metallization such as copper metallization. In one embodiment, the barrier suppresses diffusion of copper into other layers of the device, including the inter-metal dielectric, pre-metal dielectric, and transistor structures.

Abstract: A method for chemical-vapor deposition of a material film adds precursor decomposition by-product to the precursor flow to suppress premature gas-phase precursor decomposition and improve process repeatability and film quality. In one embodiment, CVD cobalt films are deposited with carbonyl precursors with reduced premature gas-phase reaction and particulate generation by the addition of excess carbon monoxide to the process chamber comprising the precursor flow. The addition of carbon monoxide not only suppresses gas-phase reaction but also improves cobalt film purity. The addition of excess carbon monoxide to CVD cobalt precursor flow provides repeatable deposition of glue and nucleation layers to support CVD copper, and is extendable to the deposition of high purity CVD cobalt for other applications and with other precursors, and also extendable for CVD CoSi2 films and other cobalt-containing applications.

Abstract: Material is deposited from an active shutter onto a substrate located in a processing chamber housing with a shutter target coupled to a shutter target assembly. A first target assembly located in the housing supports a target for physical-vapor deposition of a first material onto the substrate. A shutter is selectively moveable to extend into a closed or activated position and to retract into an open position. The shutter target assembly is coupled to the shutter such that when the shutter is in the closed position, the shutter target assembly is positioned to allow deposition of material from the shutter target onto the substrate. When the shutter is in the open position, the first target is positioned to deposit material onto the substrate. Alternating layers of materials may be deposited by the shutter target and first target by cycling the shutter between an open position and a closed position.

Abstract: A microelectronic semiconductor interconnect structure barrier and method of deposition provide improved conductive barrier material properties for high-performance device interconnects. The barrier includes a refractory metal such as cobalt, cobalt-based alloys, ruthenium or ruthenium-based alloys for promoting adhesion of copper. The barrier materials can be deposited by chemical-vapor deposition to achieve good step coverage and a relatively conformal thin film with a good nucleation surface for subsequent metallization such as copper metallization. In one embodiment, the barrier suppresses diffusion of copper into other layers of the device, including the inter-metal dielectric, pre-metal dielectric, and transistor structures.

Abstract: A chuck having two distinct portions mounts a substrate within a vacuum processing chamber. A first sealing stage confines a gas within a heat-transfer interface between one portion of the chuck and the substrate. A second sealing stage collects gas escaping from the heat-transfer interface within an intermediate space bounded by the two portions of the chuck and the substrate. Pressure in the intermediate space is reduced with respect to pressure at the heat-transfer interface to inhibit leakage of gas from the heat-transfer interface into the vacuum processing chamber.

Abstract: An electromagnet that produces a uniaxial magnetic field for magnetically orienting thin films on a substrate in a low-pressure processing environment is arranged with a plate-shaped core having a circular periphery and an electromagnetic coil having windings that are arranged in a pattern across a front side of the core for reducing skew of the uniaxial magnetic field. The individual windings include lengths divided in different proportions between straight center sections and two bent end sections. The straight sections of the windings, which extend normal to a winding axis, incrementally decrease in length from the center towards the periphery of the core along the winding axis. Spacing between adjacent center sections of the windings is greater than a spacing between adjacent end sections of the front winding portions along the core periphery. The end sections are increasingly bent at the core periphery as a function of cumulative differences in spacing between the center and end sections.

Abstract: A microelectronic semiconductor interconnect structure barrier and method of deposition provide improved conductive barrier material properties for high-performance device interconnects. The barrier includes a refractory metal such as cobalt, cobalt-based alloys, ruthenium or ruthenium-based alloys for promoting adhesion of copper. The barrier materials can be deposited by chemical-vapor deposition to achieve good step coverage and a relatively conformal thin film with a good nucleation surface for subsequent metallization such as copper metallization. In one embodiment, the barrier suppresses diffusion of copper into other layers of the device, including the inter-metal dielectric, pre-metal dielectric, and transistor structures.