Abstract: An RF plasma source has a resonator with its shorted end joined to the processing chamber ceiling and inductively coupled to two arrays of radial toroidal channels in the ceiling, the resonator having two radial zones and the two arrays of toroidal channels lying in respective ones of the radial zones.

Abstract: Methods and apparatus for plasma processing are provided herein. In some embodiments, a plasma processing apparatus includes a process chamber having an interior processing volume; a first RF coil disposed proximate the process chamber to couple RF energy into the processing volume; and a second RF coil disposed proximate the process chamber to couple RF energy into the processing volume, the second RF coil disposed coaxially with respect to the first RF coil, wherein the first and second RF coils are configured such that RF current flowing through the first RF coil is out of phase with RF current flowing through the RF second coil.

Abstract: An electron beam plasma source is used in a soft plasma surface treatment of semiconductor surfaces containing Ge or group III-V compound semiconductor materials.

Abstract: Apparatus for controlling the thermal uniformity of a substrate are provided. The thermal uniformity of the substrate may be controlled to be more uniform or the thermal uniformity of the substrate may be controlled to be non-uniform in a desired pattern. In some embodiments, an apparatus for controlling the thermal uniformity of a substrate includes: a substrate support having a support surface to support a substrate thereon; and a flow path disposed within the substrate support to flow a heat transfer fluid beneath the support surface, wherein the flow path comprises a first portion and a second portion, each portion having a substantially equivalent axial length, wherein the first portion is spaced about 2 mm to about 10 mm from the second portion, and wherein the first portion provides a flow of heat transfer fluid in a direction opposite a flow of heat transfer fluid of the second portion.

Abstract: An etch process gas is provided to a main process chamber having an electron beam plasma source, and during periodic passivation operations a remote plasma source provides passivation species to the main process chamber while ion energy is limited below an etch ion energy threshold. During periodic etch operations, flow from the remote plasma source is halted and ion energy is set above the etch threshold.

Abstract: Phase angle between opposing electrodes in a plasma reactor is controlled in accordance with a user selected phase angle. Direct digital synthesis of RF waveforms of different phases for the different electrodes is employed. The synthesis is synchronized with a reference clock. The address generator employed for direct digital synthesis is synchronized with an output clock signal that is generated in phase with the reference clock using a phase lock loop. The phase lock loop operates only during a limited initialization period.

Abstract: An etch process gas is provided to a main process chamber having an electron beam plasma source, and during periodic passivation operations a remote plasma source provides passivation species to the main process chamber while ion energy is limited below an etch ion energy threshold. During periodic etch operations, flow from the remote plasma source is halted and ion energy is set above the etch threshold.

Abstract: Atomic layer etching using alternating passivation and etching processes is performed with an electron beam plasma source, in which the ion energy is set to a low level below the etch threshold of the material to be etched during passivation and to a higher level above the etch threshold during etching but below the etch threshold of the unpassivated material.

Abstract: Electron beam-confining electromagnets of an electron beam generator are aligned with an electron beam axis, each of the electromagnets being folded to define a main section and a pair of angled wing sections disposed at respective angles relative to said main section, and a conductor wound around the edge.

Abstract: Apparatus for controlling the thermal uniformity of a substrate. In some embodiments, the thermal uniformity of the substrate is controlled to be more uniform. In some embodiments, the thermal uniformity of the substrate is controlled to be non-uniform in a desired pattern. In some embodiments, an apparatus for controlling thermal uniformity of a substrate includes a substrate support having a support surface to support a substrate thereon. A plurality of flow paths having a substantially equivalent fluid conductance are disposed within the substrate support to flow a heat transfer fluid beneath the support surface.

Abstract: Transistors and their methods of formation are described. Low dielectric constant material (e.g. a void) is placed between an elongated gate and a contact to increase the attainable switching speed of the gate of the device. An elongated structural slab of silicon nitride is temporarily positioned on both sides of the gate. Silicon oxide is formed over the silicon nitride slabs and the gate. Contacts are formed through the silicon oxide. The silicon oxide is selectively etched back to expose the silicon nitride slab. A portion or all the silicon nitride slab is removed and replaced with low-K dielectric or any dielectric with an air-gap to enable higher switching speed of the transistor. The highly-selective silicon nitride etch uses remotely excited fluorine and a very low electron temperature in the substrate processing region.

Abstract: Methods for reducing the line width roughness on a photoresist pattern are provided herein. In some embodiments, a method of processing a patterned photoresist layer disposed atop a substrate includes flowing a process gas into a processing volume of a process chamber having the substrate disposed therein; forming a plasma within the process chamber from the process gas, wherein the plasma has a ion energy of about 1 eV to about 10 eV; and etching the patterned photoresist layer with species from the plasma to at least one of smooth a line width roughness of a sidewall of the patterned photoresist layer or remove debris.

Abstract: Plasma distribution is controlled in a plasma reactor by controlling the phase differences between different RF coil antennas, in accordance with a desired or user-selected phase difference, by a phase-lock feedback control loop.

Abstract: The invention discloses a plasma processing apparatus comprising a chamber lid, a chamber body and a support assembly. The chamber body, defining a processing volume for containing a plasma, for supporting the chamber lid. The chamber body is comprised of a chamber sidewall, a bottom wall and a liner assembly. The chamber sidewall and the bottom wall define a processing volume for containing a plasma. The liner assembly, disposed inside the processing volume, comprises of three or more slots formed thereon for providing an axial symmetric RF current path. The support assembly supports a substrate for processing within the chamber body. With the liner assembly with several symmetric slots, the present invention can prevent electromagnetic fields thereof from being azimuthal asymmetry.

Abstract: A plasma reactor that generates plasma in workpiece processing chamber by a electron beam, has an electron beam source chamber and an array of plasma sources facing the electron beam source chamber for affecting plasma electron density in different portions of the processing chamber. In another embodiment, an array of separately controlled electron beam source chambers is provided.

Abstract: An inductively coupled plasma reactor has three concentric RF coil antennas and a current divider circuit individually controlling currents in each of the three coil antennas by varying only two reactive elements in the current divider circuit.

Abstract: A plasma reactor has an overhead multiple coil inductive plasma source with symmetric and radial RF feeds and cylindrical RF shielding around the symmetric and radial RF feeds. The radial RF feeds are symmetrically fed to the plasma source.

Abstract: An inductively coupled plasma reactor has three concentric coil antennas and a current divider circuit individually controlling currents in each of the three coil antennas by varying two variable impedance elements in the current divider circuit in response to a desired current apportionment among the coil antennas received from a user interface.

Abstract: Electrostatic chucks with variable pixelated magnetic field are described. For example, an electrostatic chuck (ESC) includes a ceramic plate having a front surface and a back surface, the front surface for supporting a wafer or substrate. A base is coupled to the back surface of the ceramic plate. A plurality of electromagnets is disposed in the base, the plurality of electromagnets configured to provide pixelated magnetic field tuning capability for the ESC.

Abstract: An electron beam plasma source is used in a soft plasma surface treatment of semiconductor surfaces containing Ge or group III-V compound semiconductor materials.