Abstract: An invention is disclosed for improved performance in a CMP process using a pressurized membrane as a replacement for a platen air bearing. In one embodiment, a platen for improving performance in CMP applications is disclosed. The platen includes a membrane disposed above the platen, and a plurality of annular bladders disposed below the membrane, wherein the annular bladders are capable of exerting force on the membrane. In this manner, zonal control is provided during the CMP process.

Abstract: A wheel for a conveyor system for transporting semiconductor wafers includes a first section for supporting a semiconductor wafer at a first level and a second section for supporting the wafer at a second level, with the first level being higher than the second level. In one embodiment, each of the first and second sections is semicircular. The first level may be substantially the same as a level at which the wafer is subjected to a wafer cleaning operation, and the distance the second level is below the first level may be in a range from about one sixteenth of an inch to about three sixteenths of an inch. A conveyor system for transporting wafers and a method for transferring wafers from a conveyor system to a wafer processing station also are described.

Abstract: The present invention includes a system and method for confining plasma within a plasma processing chamber. The plasma processing apparatus comprises a first electrode, a power generator, a second electrode, at least one confinement ring, and a ground extension surrounding the first electrode. The first electrode is configured to receive a workpiece and has an associated first electrode area. The power generator is operatively coupled to the first electrode, and the power generator is configured to generate RF power that is communicated to the first electrode. The second electrode is disposed at a distance from the first electrode. The second electrode is configured to provide a complete electrical circuit for RF power communicated from the first electrode. Additionally, the second electrode has a second electrode area that is greater than the first electrode area. At least one confinement ring is configured to assist confine the plasma.

Abstract: An antenna arrangement for generating an electric field inside a process chamber is provided. Generally, the antenna arrangement comprises a first loop disposed around an antenna axis. The first loop comprises a first turn with a first turn gap; a second turn with a second turn gap, where the second turn is concentric and coplanar with the first turn and spaced apart from the first turn, and where the antenna axis passes through the center of the first turn and second turn; and a first turn-second turn connector electrically connected between a second end of the first turn and a first end of the second turn comprising a spanning section between and coplanar with the first turn and the second turn and which spans the first turn gap and the second turn gap.

Abstract: An etching apparatus has a chamber enclosing a first electrode, a second electrode, confinement rings, a focus ring, and a shield. The first electrode is coupled to a source of a fixed potential. The second electrode is coupled to a dual frequency RF power source. The confinement rings are disposed between the first electrode and the second electrode. The chamber is formed of an electrically conductive material coupled to the source. The focus ring substantially encircles the second electrode and electrically insulates the second electrode. The shield substantially encircles the focus ring. The distance between an edge of the second electrode and an edge of the shield is at least less than the distance between the edge of the second electrode and an edge of the first electrode. The shield is formed of an electrically conductive material coupled to the source of fixed potential.

Abstract: A method for controlling a removal of photoresist material from a semiconductor substrate is provided. The method includes providing the semiconductor substrate having a photoresist mask formed thereon. The method also includes forming a conformal layer of polymer over the photoresist mask and a portion of the semiconductor substrate not covered by the photoresist mask while concurrently removing a portion of the conformal layer of polymer. The thickness of the conformal layer of polymer on each region of the semiconductor substrate is set to vary depending on a removal rate of the conformal layer of polymer in each region of the semiconductor substrate.

Abstract: A single slot valve shaft is in a vacuum body between adjacent vacuum chambers, such as a process module and a transport module. Separate valves are provided on the single shaft actuator for each of two valve body slots, each body slot being closed or opened according to the position of the single shaft. The separate valves allow a vacuum condition to be maintained in the transport module while an adjacent process module is open to the atmosphere for servicing. The single shaft allows access to an open valve for servicing the open valve by way of stops that limit drive travel and hold the valve in an open, but not vertically-spaced, position relative to a respective slot. The open valve is easily reached by a gloved hand of a service worker. The single shaft is mounted on a first cradle, and the first cradle is mounted on a second cradle. Two separate shaft drives move the two cradles to position the single shaft to locate the valves between the slots to open one slot and close the other slot.

Abstract: A confinement assembly for confining a discharge within an interaction space of a plasma processing apparatus comprising a stack of rings and at least one electrically conductive member. The rings are spaced apart from each other to form slots therebetween and are positioned to surround the interaction space. At least one electrically conductive member electrically couples each ring. The electrically conductive member contacts each ring at least at a point inside of the outer circumference of each ring.

Abstract: A method and apparatus for providing a substantially constant environment in the cavity surrounding the optical pathway during the chemical mechanical planarization (CMP) operation is provided. In one embodiment, a system for planarizing the surface of a substrate is provided. The system includes a platen configured to rotate about its center axis. The platen supports an optical view-port assembly for assisting in determining a thickness of a layer of the substrate. A polishing pad disposed over the platen is included. The polishing pad has an aperture overlying a window of the optical view-port assembly. A carrier for holding the substrate over the polishing pad is also included. A cavity defined between the surface of the substrate and the window is included. A fluid delivery system adapted to provide a stable environment in the cavity during a chemical mechanical planarization (CMP) operation is included.

Abstract: In a linear chemical mechanical planarization (CMP) system, a surface of each roller of a pair of rollers is disclosed which includes a first set of grooves covering a first portion of the surface of the roller where the first set of grooves has a first pitch that angles outwardly toward a first outer edge of the roller. The surface also includes a second set of grooves covering a second portion of the surface of the roller where the second set of grooves has a second pitch that angles outwardly toward a second outer edge of the roller with the second pitch angling away from the first pitch. The surface further includes a first set of lateral channels arranged along the first portion, and a second set of lateral channels arranged along the second portion. The first set of lateral channels crosses the first set of grooves, and the second set of lateral channels crosses the second set of grooves.

Abstract: An apparatus for applying a wafer to a polishing belt during a CMP operation includes a spindle having an upper end and a lower end. A wafer carrier is coupled to the lower end of the spindle. A linear force generator is disposed at the upper end of the spindle. A load cell is positioned between the linear force generator and the upper end of the spindle. A controller is coupled to the load cell for controlling the force applied by the linear force generator. A method for applying downward force on a wafer during CMP also is described.

Abstract: A system is provided for use in semiconductor wafer cleaning operations. The cleaning system has a top cap and a bottom cap. The top cap seals on a top surface contact ring of a wafer, and the bottom cap seals on a bottom surface contact ring of the wafer. The wafer is held between the top cap and the bottom cap. An edge clean roller is used for cleaning an edge of the wafer. A drive roller is configured to rotate the wafer, the top cap, and the bottom cap. The edge clean roller rotates at a first velocity and the drive roller rotates at a second velocity so as to facilitate an edge cleaning of the wafer by the edge clean roller.

Abstract: A chemical mechanical polishing (CMP) apparatus is provided. The CMP apparatus includes a first roller situated at a first point and a second roller situated at a second point. The first point is separate from the second point. Also included in the apparatus is a polishing pad strip having a first end secured to the first roller and a second end secured to the second roller. The first roller and the second roller are configured to reciprocate so that the polishing pad strip oscillates at least partially between the first point and the second point.

Abstract: A cleaning solution, method, and apparatus for cleaning semiconductor substrates after chemical mechanical polishing of copper films is described. The present invention includes a cleaning solution which combines deionized water, an organic compound, and an ammonium compound in an acidic pH environment for cleaning the surface of a semiconductor substrate after polishing a copper layer. Such methods of cleaning semiconductor substrates after copper CMP alleviate the problems associated with brush loading and surface and subsurface contamination.

Abstract: A chemical mechanical planarization (CMP) system having a polishing pad, a carrier plate and a wafer plate is provided with an active gimbal. The active gimbal is defined by a circular hollow ring having a wall thickness and a diameter. The circular hollow ring is configured by an elastomeric material for placement in a space between the carrier plate and the wafer plate, and the space preferably is defined in part by a cavity tightly receiving the ring. The circular hollow ring is filled with a gel-like material that flows from one portion of the ring that is squeezed and deformed when the wafer plate tilts relative to the carrier plate. The flow is to another portion of the ring that returns to an original configuration during such tilting. Methods of making the gimbal include operations for selecting materials for the hollow ring and the gel-like material.

Abstract: An apparatus for controlling the voltage applied to a shield interposed between an induction coil powered by a power supply via a matching network, and the plasma it generates, comprises a shield, a first feedback circuit, and a second feedback circuit. The power supply powers the shield. The first feedback circuit is connected to the induction coil for controlling the power supply. The second feedback circuit is connected to the shield for controlling the voltage of the shield. Both first and second feedback circuits operate at different frequency ranges. The first feedback circuit further comprises a first controller and a first sensor. The first sensor sends a first signal representing the power supplied to the inductive coil to the first controller. The first controller adjusts the power supply such that the power supplied to the inductor coil is controlled by a first set point. The second feedback circuit further comprises a second sensor, a second controller, and a variable impedance network.

Abstract: A cascaded wafer scrubbing system and method are provided. The cascaded wafer scrubbing system includes an array of rows of brush pairs. Each row includes a plurality of counter-rotating brush pairs that are arranged horizontally and longitudinally, and configured to receive and process a wafer in a vertical orientation through wafer preparation zones defined by each pair of brushes. Below and between the pairs of brushes is a track that is configured to apply a rotation to the wafer and to transition the wafer in a vertical orientation through the brush pairs. Nozzles dispense fluids on and over the brush pairs, and the brush pairs are configured such that fluids are dispensed through the brush pairs. Nozzles dispense a curtain of fluid between each wafer preparation zone, and the cascaded wafer scrubbing system is configured to progress from dirtiest to cleanest as the wafer transitions through each wafer preparation zone.

Abstract: Methods and apparatus for controlling the temperature of a process surface and for conditioning of a process surface are provided. In one example, a temperature controller is described within a CMP system. The CMP system has a first roller and a second roller and a linear belt circulating around the first and second rollers. The linear belt has a width that spans between a first edge and a second edge. The temperature controller includes an array of thermal elements. Each of the thermal elements of the array is independently controlled. The array of thermal elements is positioned between the first roller and the second roller and configured to contact a back surface of the linear belt. The array of thermal elements extends between the first edge and the second edge of the linear belt width.

Abstract: A CMP polishing pad improves overall material removal rate uniformity by combining multiple polishing pad sections in a serially linked manner, where the polishing pad sections are characterized by at least two different material removal rate profiles. The polishing pad is designed by determining a wafer polishing profile for each of a group of polishing pads where each polishing pad has a unique groove configuration, determining a combination of polishing pad segments, each of the segments constructed with one of the unique groove configurations, that will combine to achieve an improved uniformity in the polishing profile, and manufacturing a polishing pad having pad sections corresponding to the analytically determined pad sections.

Abstract: A chemical mechanical polishing (CMP) system is provided. A carrier has a top surface and a bottom region. The top surface of the carrier is designed to hold and rotate a wafer having a one or more formed layers to be prepared. A preparation head is also included and is designed to be applied to at least a portion of the wafer that is less than an entire portion of the surface of the wafer. Preferably, the preparation head and the carrier are configured to rotate in opposite directions. In addition, the preparation head is further configured to oscillate while linearly moving from one of the direction of a center of the wafer to an edge of the wafer and from the edge of the wafer to the center of the wafer so as to facilitate precision controlled removal of material from the formed layers of the wafer.