Abstract: A system having the low frequency RF generator is described. The low frequency RF has an operating frequency range between 10 kilohertz (kHz) and 330 kHz. The low frequency RF generator generates an RF signal. The system further includes an impedance matching circuit coupled to the low frequency RF generator for receiving the RF signal. The impedance matching circuit modifies an impedance of the RF signal to output a modified RF signal. The system includes a plasma chamber coupled to the RF generator for receiving the modified RF signal. The plasma chamber includes a chuck having a dielectric layer and a base metal layer. The dielectric layer is located on top of the base metal layer. The dielectric layer has a bottom surface, and the base metal layer has a top surface. The base metal layer has a porous plug and the bottom surface of the dielectric layer has a portion that is in contact with the porous plug.

Abstract: Methods, systems, apparatuses, and computer programs are presented for controlling plasma discharge uniformity using magnetic fields. A substrate processing apparatus includes a vacuum chamber with a processing zone for processing a substrate. The apparatus further includes a magnetic field sensor to detect a first signal representing an axial magnetic field and a second signal representing a radial magnetic field associated with the vacuum chamber. The apparatus includes at least two magnetic field sources to generate an axial supplemental magnetic field and a radial supplemental magnetic field through the processing zone of the vacuum chamber. The apparatus includes a magnetic field controller coupled to the magnetic field sensor and the at least two magnetic field sources. The magnetic field controller adjusts at least one characteristic of one or more of the axial supplemental magnetic field and the radial supplemental magnetic field based on the first signal and the second signal.

Abstract: An impedance match housing is described. The impedance match housing includes an impedance matching circuit having an input that is coupled to a radio frequency (RF) generator. The impedance matching circuit has an output that is coupled to a first RF strap. The impedance match housing includes a uniformity control circuit coupled in parallel to a portion of the first RF strap to modify uniformity in a processing rate of a substrate when the substrate is processed within a plasma chamber.

Abstract: Systems and methods for controlling a plasma sheath characteristic are described. One of the methods includes determining a first value of the plasma sheath characteristic of a plasma sheath formed within a plasma chamber. The method further includes determining whether the first value of the plasma sheath characteristic is within a predetermined range from a preset value of the plasma sheath characteristic. The method also includes modifying a variable of a radio frequency (RF) generator coupled to the plasma chamber via an impedance matching circuit upon determining that the first value is not within the predetermined range from the preset value. The operation of modifying the variable of the RF generator is performed until it is determined that the first value of the plasma sheath characteristic is within the predetermined range from the preset value.

Abstract: A method for achieving a first uniformity level in a processing rate across a surface of a substrate is described. The method includes receiving the first uniformity level to be achieved across the surface of the substrate and identifying a first plurality of duty cycles associated with a first plurality of states based on the first uniformity level. The first plurality of states are of a variable of a first radio frequency (RF) signal. The method further includes controlling an RF generator to generate the first RF signal having the first plurality of duty cycles.

Abstract: A method of approximating an ion energy distribution function (IEDF) at a substrate surface of a substrate, the substrate being processed in a plasma processing chamber. There is included providing a first voltage value, the first voltage value representing a value of a first voltage that represents a DC potential (VDC) at the substrate surface. There is also included providing a peak low frequency RF voltage value (VLFRF(PEAK)) during plasma processing, the peak low frequency RF voltage (VLFRF(PEAK)) value representing a peak value of a low frequency RF voltage (VLFRF) supplied to the plasma processing chamber.