Abstract: A method and apparatus for confining a plasma are provided herein. In one embodiment, an apparatus for confining a plasma includes a substrate support and a magnetic field forming device for forming a magnetic field proximate a boundary between a first region disposed at least above the substrate support, where a plasma is to be formed, and a second region, where the plasma is to be selectively restricted. The magnetic field has b-field components perpendicular to a direction of desired plasma confinement that selectively restrict movement of charged species of the plasma from the first region to the second region dependent upon the process conditions used to form the plasma.

Abstract: In a plasma reactor having an electrostatic chuck, wafer voltage is determined from RF measurements at the bias input using previously determined constants based upon transmission line properties of the bias input, and this wafer voltage is used to accurately control the DC wafer clamping voltage.

Abstract: A method for processing a workpiece in a plasma reactor. The method comprises constraining plasma in the chamber away from the floor of the pumping annulus, providing an annular baffle while compensating for asymmetry of gas flow attributable to the pumping port, and providing a gas flow equalizer below the baffle having an eccentrically shaped opening. The method further includes modifying the radial distribution of plasma ion density and providing a magnetic plasma steering field having an edge high plasma ion density distribution tendency. The method further comprises locating the baffle at a sufficient distance below the workpiece to provide an edge low plasma ion density distribution tendency that compensates the edge high plasma ion density distribution tendency of the magnetic plasma steering field.

Abstract: A plasma reactor with plasma confinement and plasma radial distribution capability. The reactor comprises a reactor chamber including a side wall and a workpiece support pedestal in the chamber and defining a pumping annulus between the pedestal and side wall and a pumping port at a bottom of the pumping annulus. The reactor further comprises a means for confining gas flow in an axial direction through the pumping annulus to prevent plasma from flowing to the pumping port. The reactor further comprises a means for compensating for asymmetry of gas flow pattern across the pedestal arising from placement of the pumping port. The reactor further comprises a means for controlling plasma distribution having an inherent tendency to promote edge-high plasma density distribution. The means for confining gas flow is depressed below the workpiece support sufficiently to compensate for the edge-high plasma distribution tendency of the means for controlling plasma distribution.

Abstract: An apparatus configured to confine a plasma within a processing region in a plasma processing chamber. In one embodiment, the apparatus includes a ring that has a baffle having a plurality of slots and a plurality of fingers. Each slot is configured to have a width less than the thickness of a plasma sheath contained in the processing region.

Abstract: Embodiments of a method of calculating the equivalent series resistance of a matching network using variable impedance analysis and matching networks analyzed using the same are provided herein. In one embodiment, a method of calculating the equivalent series resistance of a matching network includes the steps of connecting the matching network to a load; measuring an output of the matching network over a range of load impedances; and calculating the equivalent series resistance of the matching network based upon a relationship between the measured output and the load resistance. The load may be a surrogate load or may be a plasma formed in a process chamber.

Abstract: A plasma reactor has a dual frequency plasma RF bias power supply furnishing RF bias power comprising first and second frequency components, f(1), f(2), respectively, and an RF power path having an input end coupled to the plasma RF bias power supply and an output end coupled to the wafer support pedestal, and sensor circuits providing measurement signals representing first and second frequency components of a measured voltage and first and second frequency components of a measured current near the input end of the RF power path. The reactor further includes a processor for providing first and second frequency components of a wafer voltage signal as, respectively, a first sum of the first frequency components of the measured voltage and measured current multiplied by first and second coefficients respectively, and a second sum of the second frequency components of the measured voltage and measured current multiplied by third and fourth coefficients, respectively. A processor produces a D.C.

Abstract: In one implementation, a method is provided for testing a plasma reactor multi-frequency matching network comprised of multiple matching networks, each of the multiple matching networks having an associated RF power source and being tunable within a tunespace. The method includes providing a multi-frequency dynamic dummy load having a frequency response within the tunespace of each of the multiple matching networks at an operating frequency of its associated RF power source. The method further includes characterizing a performance of the multi-frequency matching network based on a response of the multi-frequency matching network while simultaneously operating at multiple frequencies. In one embodiment, a plasma reactor multi-frequency dynamic dummy load is provided that is adapted for a multi-frequency matching network having multiple matching networks. Each of the multiple matching networks being tunable within a tunespace.

Abstract: Methods for determining characteristics of a plasma are provided. In one embodiment, a method for determining characteristics of a plasma includes obtaining metrics of a plasma at two different frequencies, and determining at least one characteristic of the plasma utilizing the metrics. In another embodiment, a method for determining characteristics of a plasma includes obtaining metrics of current and voltage information for first and second waveforms coupled to a plasma at different frequencies, determining at least one characteristic of the plasma using the metrics obtained from each different frequency waveform. In another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, and determining at least one characteristic of a plasma using model.

Abstract: Methods for determining characteristics of a plasma are provided. In one embodiment, a method for determining characteristics of a plasma includes obtaining metrics of current and voltage information for first and second waveforms coupled to a plasma at different frequencies, determining at least one characteristic of the plasma using the metrics obtained from each different frequency waveform. In another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, and determining at least one characteristic of a plasma using model. In yet another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, measuring current and voltage for waveforms coupled to the plasma and having at least two different frequencies, and determining ion mass of a plasma from model and the measured current and voltage of the waveforms.

Abstract: Methods for determining characteristics of a plasma are provided. In one embodiment, a method for determining characteristics of a plasma includes obtaining metrics of current and voltage information for first and second waveforms coupled to a plasma at different frequencies, determining at least one characteristic of the plasma using the metrics obtained from each different frequency waveform. In another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, and determining at least one characteristic of a plasma using model. In yet another embodiment, the method includes providing a plasma impedance model of a plasma as a function of frequency, measuring current and voltage for waveforms coupled to the plasma and having at least two different frequencies, and determining ion mass of a plasma from model and the measured current and voltage of the waveforms.

Abstract: A method and apparatus for routing harmonic energy within a plasma to ground in a plasma enhanced semiconductor wafer processing reactor. A model of the chamber is used to determine the pathway for RF power and the harmonic energy of that RF power through the chamber. From this model, the placement and design of a harmonic routing circuit is determined to shunt the harmonic energy to ground.

Abstract: An apparatus configured to confine a plasma within a processing region in a plasma processing chamber. In one embodiment, the apparatus includes a ring that has a baffle having a plurality of slots and a plurality of fingers. Each slot is configured to have a width less than the thickness of a plasma sheath contained in the processing region.

Abstract: An inductive antenna of a plasma reactor for processing a semiconductor wafer is connected to a radio frequency (RF) power source, and consists of a conductor arranged in successive loops that wind in opposing directions, adjacent pairs of the successive loops having facing portions in which current flow is parallel, the facing portions being sufficiently close to at least nearly share a common current path, whereby to form transitions across the facing portions between opposing magnetic polarizations.

Abstract: A method and apparatus for routing harmonic energy within a plasma to ground in a plasma enhanced semiconductor wafer processing reactor. A model of the chamber is used to determine the pathway for RF power and the harmonic energy of that RF power through the chamber. From this model, the placement and design of a harmonic routing circuit is determined to shunt the harmonic energy to ground.

Abstract: An inductive antenna of a plasma reactor for processing a semiconductor wafer is connected to a radio frequency (RF) power source, and consists of a conductor arranged in successive loops that wind in opposing directions, adjacent pairs of the successive loops having facing portions in which current flow is parallel, the facing portions being sufficiently close to at least nearly share a common current path, whereby to form transitions across the facing portions between opposing magnetic polarizations.