Abstract: A method for producing magneto resistive heads includes the steps of positioning at least two magneto resistive elements in spaced relation to one another and placing the at least two magneto resistive elements in an ion milling environment where material is removed nonselectively from items in the environment. A property of at least two of the plurality of magneto resistive elements is monitored. In response to monitoring, one of the at least two magneto resistive elements is dynamically covered to prevent additional removal of material from the covered magneto resistive element.

Abstract: In a plasma processing method and apparatus for monitoring an operating status of a plasma processing apparatus and/or a processing status of an object being processed, emission spectra emitted from a plasma is obtained as optical data when the plasma process is performed on the object. Quantitative data of each emission source is obtained from the obtained optical data by using reference data in a database storing therein emission spectra of a plurality of emission source as the reference data. The operating status of the plasma processing apparatus and/or the processing status of the object being processed is estimated based on changes in the quantitative data of each emission source.

Abstract: Plasma etching or resputtering of a layer of sputtered materials including opaque metal conductor materials may be controlled in a sputter reactor system. In one embodiment, resputtering of a sputter deposited layer is performed after material has been sputtered deposited and while additional material is being sputter deposited onto a substrate. A path positioned within a chamber of the system directs light or other radiation emitted by the plasma to a chamber window or other optical view-port which is protected by a shield against deposition by the conductor material. In one embodiment, the radiation path is folded to reflect plasma light around the chamber shield and through the window to a detector positioned outside the chamber window.

Abstract: A plasma processing apparatus and method are capable of performing etching with high precision without damaging the semiconductor wafer. The plasma processing apparatus has a plasma generation power supply for generating a plasma within a processing chamber; a high-frequency power supply for applying a high frequency wave to a sample stage installed within the processing chamber; and control means for controlling the plasma generation power supply or the high-frequency power supply based on parameter settings for an output intensity and an output mode for each process step. In this regard, when the process steps are switched, the control means compares parameters for a current process step with those for a next process step and then switches either the output intensities or the output modes before switching the output modes or the output intensities, respectively.

Abstract: A plasma treatment method comprising exhausting a process chamber so as to decompress the process chamber, mounting a wafer on a suscepter, supplying a process gas to the wafer through a shower electrode, applying high frequency power, which has a first frequency f1 lower than an inherent lower ion transit frequencies of the process gas, to the suscepter, and applying high frequency power, which has a second frequency f2 higher than an inherent upper ion transit frequencies of the process gas, whereby a plasma is generated in the process chamber and activated species influence the wafer.

Abstract: In a plasma processing system, a method of inspecting a contact opening of a contact formed in a first layer of the substrate to determine whether the contact reaches a metal layer that is disposed below the first layer is shown. The method includes flowing a gas mixture into a plasma reactor of the plasma processing system, the gas mixture comprising a flow of a chlorine containing gas. The method also includes striking a plasma from the gas mixture; and exposing the contact to the plasma. The method further includes detecting whether metal chloride is present in the contact opening after the exposing.

Abstract: An apparatus and method of machining sliders to obtain the optimum PTR for each slider. An array of MEMS devices configured for angular actuation are provided, and a slider is placed in each MEMS device of the array. The ion milling of the sliders is controlled individually for each slider based on the relationship of the ion angle and relative etch rates of the slider components. The MEMS devices are controlled to ensure the ion incidence angle for each slider is such that the desired PTR of each slider is achieved.

Abstract: A method for minimizing damage to a substrate while repairing a defect in a phase shifting mask for an integrated circuit comprising locating a bump defect in a phase shifting mask, depositing a first layer of protective coating to an upper surface of the bump defect, depositing a second layer of protective coating to areas of the phase shifting mask adjacent the bump defect, etching the first layer of protective coating and removing the bump defect.

Abstract: A substrate support is provided that features a lift pin having at least one larger diameter shoulder section that forms a relief region between the lift pin and a guide hole disposed through a substrate support. The shoulder section minimizes contact between the substrate support and lift pin guide hole, thereby reducing pin scratching, particle generation, component wear, and increasing the useful life of the pin. In another embodiment, a flat-bottom tip is provided to promote self-standing of the lift pin, reducing pin tilting or leaning of the lift pin within the guide hole.

Abstract: The use of impedance measurements to detect the presence of pathogens attached to antibody-coated beads. In a fluidic device antibodies are immobilized on a surface of a patterned interdigitated electrode. Pathogens in a sample fluid streaming past the electrode attach to the immobilized antibodies, which produces a change in impedance between two adjacent electrodes, which impedance change is measured and used to detect the presence of a pathogen. To amplify the signal, beads coated with antibodies are introduced and the beads would stick to the pathogen causing a greater change in impedance between the two adjacent electrodes.

Abstract: The use of impedance measurements to detect the presence of pathogens attached to antibody-coated beads. In a fluidic device antibodies are immobilized on a surface of a patterned interdigitated electrode. Pathogens in a sample fluid streaming past the electrode attach to the immobilized antibodies, which produces a change in impedance between two adjacent electrodes, which impedance change is measured and used to detect the presence of a pathogen. To amplify the signal, beads coated with antibodies are introduced and the beads would stick to the pathogen causing a greater change in impedance between the two adjacent electrodes.

Abstract: A semiconductor manufacturing apparatus comprising an integrated measuring instrument for measuring the form or size of the element to be formed into a wafer, an etching unit for etching the wafer by making use of plasma generated under reduced pressure, an ashing unit for ashing the etched wafer, a wetting unit for wetting the etched wafer, a drying unit for drying the wafer which has gone through the wetting treatment, a transport means whereby the wafers housed in a wafer cassette are transported one by one successively to said metrology and each treating unit, and a transport chamber provided with a wafer cassette inlet for receiving a cassette containing sheets of wafer to be etched, in which said metrology, etching unit, ashing unit, wetting unit, drying unit and transport means are connected by a depressurizable transport passage.

Abstract: A plasma etching apparatus for a semiconductor wafer generates plasma in a plasma generation space between a susceptor and a showerhead. A shield member is detachably disposed inside the sidewall of a process chamber to prevent reaction products from sticking to the sidewall. A window device is arranged to lead plasma light emitted from plasma out of the process chamber. The window device includes a quartz window plate airtightly attached to the sidewall of the process chamber. The window device also includes an aluminum light guide having a number of capillary through holes for guiding the plasma light to the window plate, and a sapphire cover plate disposed between the window plate and the light guide and covering the openings of the through holes. The light guide and the cover plate are attached to the shield member.

Abstract: System for frequency adjustment of piezoelectric resonators by ion etching in vacuum, based on arranging the resonators in rows and columns on a tray that can be moved to simultaneously expose two rows of resonators to the two straight-track portions of an ion gun having a race-track-shaped beam pattern whose straight tracks are spaced at an integer multiple of the inter-row spacing d. As the tray is moved in steps of d, two rows can be etched simultaneously, and each row can be sequentially exposed to a “pre-etch” and “final-etch” stage, with time between the two stages for the resonators to cool down after the “pre-etch” stage.

Abstract: A sensor, such as a mass spectrometer, capable of detecting the presence of materials in a sampled gas is interconnected with a processing chamber of a vacuum manufacturing tool. The sensor includes a timing circuit which is activated only if certain levels of specific materials are detected. Furthermore, the timer is set to run a predetermined time interval after activation so as to discriminate between known transient processing conditions and the presence of impurities which can greatly influence the manufacturing process. When the timer exceeds the predetermined time duration, an output signal can alert the process operator or automatically shutdown the manufacturing tool.

Abstract: The present invention provides a pre-treatment apparatus for an analytical metal sample, the apparatus including (1) a treatment chamber having a sample charging port which can be opened and closed and provided at the top of the chamber, a sample discharging port which can be opened and closed and provided at the bottom of the chamber, and a gas inlet and gas outlet, (2) a sample carrying bar joined to a sample holder also used as a sputtering electrode, and provided to pass through at least one side wall of the treatment chamber so as to be substantially horizontally movable and axially rotatable, and (3) a sputtering counter electrode at least having portions arranged opposite to each other in a region not inhibiting the charge and discharge of an analytical metal sample so that the sample holder can be arranged in the counter electrode.

Abstract: A method for detecting an etching endpoint and a plasma etching apparatus and a plasma etching system using such a device are disclosed, in which time series data of a signal corresponding to the amount of light of the plasma light generated during the plasma etching process are arithmetically processed, so that the change of light amount is corrected and an etching endpoint is detected from the time series data after the correction.

Abstract: A method for minimizing damage to a substrate while repairing a defect in a phase shifting mask for an integrated circuit comprising locating a bump defect in a phase shifting mask, depositing a first layer of protective coating to an upper surface of the bump defect, depositing a second layer of protective coating to areas of the phase shifting mask adjacent the bump defect, etching the first layer of protective coating and removing the bump defect.

Abstract: An apparatus and method for detecting an endpoint for an etching process utilize a reaction chamber with an ion source and detector placed within the reaction chamber. The ion source directs a primary beam of ions towards a wafer so that the ion beam impacts the top layer of the wafer. A detector detects primary ions reflected from the wafer and secondary ions scattered from the wafer. A value is determined that corresponds to the amount of reflected and scattered ions. A change in the value indicates that the ion beam is impacting a layer beneath the top layer of the wafer, and signifies the reaching of the etch process endpoint.

Abstract: An apparatus and a method for monitoring the ion concentration in an etching chamber of a sputter etch process are described, wherein the DC bias of a pre-clean process for a sputter etch process is acquired. The parameters of the pre-clean process for the sputter etch process are then adjusted according to the value of the monitored DC bias. The DC bias thus varies within a certain range to provide a steady control of the ion concentration and to reduce the defects formed in the wafer.

Abstract: A plasma etching apparatus for a semiconductor wafer generates plasma in a plasma generation space between a susceptor and a showerhead. A shield member is detachably disposed inside the sidewall of a process chamber to prevent reaction products from sticking to the sidewall. A window device is arranged to lead plasma light emitted from plasma out of the process chamber. The window device includes a quartz window plate airtightly attached to the sidewall of the process chamber. The window device also includes an aluminum light guide having a number of capillary through holes for guiding the plasma light to the window plate, and a sapphire cover plate disposed between the window plate and the light guide and covering the openings of the through holes. The light guide and the cover plate are attached to the shield member.

Abstract: A method of calibrating the magnetic coils of a magnetically enhanced reactive ion etcher includes taking magnetic field measurements outside of a closed plasma chamber and correlating such measurements to the magnetic field within the chamber. One or more factors are established which when applied to measurements taken externally yield results representative of measurements taken internally.

Abstract: A plasma apparatus separately measures multiple plasma jets upstream of where the plasma jets converge into a combined plasma stream. The separate plasma jets can be separately adjusted to place the separate jets in a configuration that provides the combined stream with desired properties for a plasma treatment. The system can include an injector for a neutral jet that becomes part of the combined plasma stream. With an injector, the positions of the plasma jets can be measured relative to the injector so that the plasma jets and the neutral jet are properly aligned to form a combine plasma stream having the properties desired.

Abstract: A system for monitoring and/or controlling an etch process associated with a dual damascene process via scatterometry based processing is provided. The system includes one or more light sources, each light source directing light to one or more features and/or gratings on a wafer. Light reflected from the features and/or gratings is collected by a measuring system, which processes the collected light. The collected light is indicative of the etch results achieved at respective portions of the wafer. The measuring system provides etching related data to a processor that determines the desirability of the etching of the respective portions of the wafer. The system also includes one or more etching devices, each such device corresponding to a portion of the wafer and providing for the etching thereof. The processor produces a real time feed forward information to control the etch process, in particular, terminating the etch process when desired end points have been encountered.

Abstract: A grid protects a manometer diaphragm from plasma. A plasma chamber is used to generate a plasma. A manometer is used to measure the pressure in the plasma chamber. A grounded electrically conductive grid is used to screen out ions in the plasma before they reach a diaphragm in the manometer. The grid may be formed in a centering ring. A pipe may be used to connect the manometer to the plasma chamber. The centering ring may be placed in the joint in the pipe, with the centering ring and grid being grounded to the pipe.

Abstract: A method and apparatus for detecting the presence of a plasma. The apparatus comprises an electrically floating contact member that is exposed to a plasma forming region, for example, a semiconductor wafer processing chamber. The floating contact is coupled to a measuring device. When a plasma is present in the plasma forming region, the plasma induces a voltage upon the floating contact which is detected by the measuring device.

Abstract: Disclosed is a method and device for compensating a bias voltage on a wafer disposed over an electrostatic chuck in a processing chamber of a plasma processing system. The plasma processing system includes an electrostatic and RF power supplies that are coupled to the electrostatic chuck. The bias compensation device includes a voltage converter, a storage unit, and a voltage adjusting circuitry. The voltage converter is coupled to the electrostatic chuck for detecting a voltage Vpp of the electrostatic chuck. The voltage converter converts the detected voltage to a lower voltage Vref. The storage unit stores a predetermined slope and a predetermined offset of a calibration curve, which is derived by fitting a plurality of wafer bias voltages as a function of electrostatic chuck voltages.

Abstract: This invention relates to a multi-layer lithographically fabricated device used to produce improved thin-film recording heads. It further relates to a focused particle beam system for milling a recording head pole-tip assembly without irradiating a sensitive structure, e.g. a read head, of the recording head. The invention precisely forms a pole-tip assembly by milling a second structural element without irradiating a first structural element. The invention avoids irradiating the first structural element by placing a first marker element, which can be imaged and/or damaged, in the same layer of a multi-layer lithographically fabricated device as the first structural element. The marker element has a fixed spatial relationship to the first structural element.

Abstract: This invention is directed to a method for plasma etching difficult to etch materials at a high etch rate. The method is particularly useful in plasma etching silicon nitride layers more than five microns thick. The method includes a plasma formed by energy provided from two separate power sources and a gaseous mixture that includes only an etchant gas and a sputtering gas. The power levels from the separate power sources and the ratio between the flow rates of the etchant gas and a sputtering gas can be advantageously adjusted to obtain etch rates of silicon nitride greater than two microns per minute. Additionally, an embodiment of the method of the invention provides a two etch step process which combines a high etch rate process with a low etch rate process to achieve high throughput while minimizing the likelihood of damage to underlying layers. The first etch step of the two-step method provides a high etch rate of about two microns per minute to remove substantially all of a layer to be etched the.

Abstract: The invention generally relates to various aspects of a plasma process, and more specifically the monitoring of such plasma processes. One aspect relates in at least some manner to calibrating or initializing a plasma monitoring assembly. This type of calibration may be used to address wavelength shifts, intensity shifts, or both associated with optical emissions data obtained on a plasma process. A calibration light may be directed at a window through which optical emissions data is being obtained to determine the effect, if any, that the inner surface of the window is having on the optical emissions data being obtained therethrough, the operation of the optical emissions data gathering device, or both. Another aspect relates in at least some manner to various types of evaluations which may be undertaken of a plasma process which was run, and more typically one which is currently being run, within the processing chamber.

Abstract: A recessed coil for a plasma chamber in a semiconductor fabrication system is provided. Recessing the coil reduces deposition of material onto the coil which in turn leads to a reduction in particulate matter shed by the coil onto the workpiece.

Abstract: A plasma treatment system (200) for implantation with a novel susceptor with a silicon coating (203). The system (200) has a variety of elements such as a chamber, which can have a silicon coating formed thereon, in which a plasma is generated in the chamber. The system (200) also has a susceptor disposed in the chamber to support a silicon substrate. The silicon coating reduces non-silicon impurities that may attach to the silicon substrate. In a specific embodiment, the chamber has a plurality of substantially planar rf transparent windows (26) on a surface of the chamber. The system (200) also has an rf generator (66) and at least two rf sources in other embodiments.

Abstract: A process for the vacuum treatment of workpieces, includes loading the workpieces into a treatment facility, surface treating the workpieces in at least one vacuum station of the facility grouped as a station batch and controlling at least the timing of the process by a freely programmable process controller unit. At least two stations operating each on workpiece batches can be grouped as respective station batches and be different with respect to number of workpieces. The workpieces can be transported to and from the grouped stations. An embodiment of vacuum treatment system for such a process includes at least one vacuum treatment station for workpieces grouped as a station batch. A transport system supplies the vacuum station with workpieces. A process controller unit has an output operationally connected to a drive arrangement for the transport system. The unit controls operating timing of the treatment system and is freely programmable.