Abstract: A ceramic susceptor with an embedded metal electrode. The metal electrode has multiple apertures, and the ceramic material is cross-linked through the apertures. An electrical connection to the electrode protects the electrode from the environment in the processing chamber. The ceramic may be aluminum nitride, and the metal electrode may be a mesh of molybdenum wires. To form the electrical connection, the susceptor may be heated until an eutectic forms between a conductive connector and the metal electrode. Alternately, a brazing material may be placed between the metal layer and a conductive connector.

Abstract: Non-bonded ceramic protection is provided for metal surfaces in a plasma processing chamber, particularly heated metal electrode surfaces, in a plasma processing chamber, to prevent or inhibit attack of the heated metal surfaces by chemically aggressive species generated in the plasma during processing of materials, without bonding the ceramic material to the metal surface. In accordance with the invention the ceramic protection material comprises a thin cover material which is fitted closely, but not bonded, to the heated metal. This form of ceramic protection is particularly useful for protecting the surfaces of glow discharge electrodes and gas distribution apparatus in plasma process chambers used for processing semiconductor substrates to form integrated circuit structures.

Abstract: A ceramic susceptor with an embedded metal electrode. The metal electrode has multiple apertures, and the ceramic material is cross-linked through the apertures. An electrical connection to the electrode protects the electrode from the environment in the processing chamber. The ceramic may be aluminum nitride, and the metal electrode may be a mesh of molybdenum wires. To form the electrical connection, the susceptor may be heated until an eutectic forms between a conductive connector and the metal electrode. Alternately, a brazing material may be placed between the metal layer and a conductive connector.

Abstract: A susceptor or other semiconductor wafer processing and/or transfer support platform includes a surface pattern having two or more regions of high and low elevation. The regions of high and low elevations can be rectangular/square dimpled patterns having tops coplanar with one another to support a semiconductor wafer for processing. The high and low regions can also be a wave form appearing to emanate from a point, where each of the wave crests form an imaginary plane on which a wafer to be processed can rest. The combination of high and low regions increases the average spacing between the wafer and the susceptor and reduces or eliminates the capacitive coupling (or sticking force) between processing hardware and a substrate (wafer) created by electrical fields during processing. The dimpled patterns are created by machining and can be created by using chemical and electrochemical etching of the wafer handling surfaces of processing hardware pieces.

Abstract: A slotted conical (non-flat) spring washer with an encircling ring provides improved spring washer performance. A split or slotted conical spring washer is encircled by a retaining ring that prevents the ends of the washer adjacent to the slot from expanding as the washer is compressed. The ends of the washer on both sides of the slot move to prevent the washer material from exceeding its yield strength. The ring restricts the radial movement of said outside diameter of the washer strip away from a center axis of the washer bore. The ring can be a counter bore in a member to be clamped, a retaining washer having an outside annular washer to act as the ring, or can be integral with the spring washer such that the slot appears not to pass completely through the washer strip.This slotted conical spring washer greatly increases the elastic spring travel available during repeated clamping cycles and during movement of clamped members due to differences in rates of thermal expansion and thermal gradients.