Abstract: The invention provides a plasma processing apparatus capable of minimizing the non-uniformity of potential distribution around wafer circumference, and providing a uniform process across the wafer surface. The apparatus is equipped with a focus ring formed of a dielectric, a conductor or a semiconductor and having RF applied thereto, the design of which is optimized for processing based on a design technique clarifying physical conditions for flattening a sheath-plasma interface above a wafer and the sheath-plasma interface above the focus ring. A surface voltage of the focus ring is determined to be not less than a minimum voltage for preventing reaction products caused by wafer processing from depositing thereon.

Abstract: A method for controlling a plasma processing apparatus which includes a vacuum vessel, a first, second and third RF power supply, a first and second electrode, and a phase control unit for controlling a phase difference between a second RF voltage from the second RF power supply and a third RF voltage from the third RF power supply. The controlling method includes the steps of supplying a predetermined power from the first RF power supply to ignite plasma, after confirming ignition of plasma, supplying a predetermined power respectively from the second RF power supply and the third RF power supply, and when starting power supply from the second RF power supply and the third RF power supply, fixing the phase to a predetermined phase angle using a preset mode without carrying out phase control, and after a matching operation has stabilized, starting the phase control.

Abstract: A plasma processing apparatus has a processing chamber connected to an exhaust system so that the inside pressure can be reduced, a gas feeding unit for supplying gas to the processing chamber, a wafer, and a substrate electrode on which the wafer can be placed. The plasma processing apparatus also has an antenna electrode provided in opposition to the substrate electrode to generate plasma, a plasma generating high-frequency power supply connected to the antenna electrode, and a wafer biasing power supply connected to the substrate electrode. In addition, a coaxial line and a coaxial waveguide are optimized by using a coaxial model, and a voltage measuring circuit is mounted right under the coaxial line.

Abstract: A plasma etching method for a plasma etching apparatus including: a processing chamber for performing plasma etching on an object to be processed; a first gas supply source; a second gas supply source; a first gas inlet for introducing a processing gas into the processing chamber; a second gas inlet for introducing a processing gas into the processing chamber; a flow rate regulator for regulating the flow rate of the processing gas; and a gas shunt for dividing the first processing gas into a plurality of portions, wherein the second processing gas is merged with at least one part between the gas shunt and the first gas inlet and between the gas shunt and the second gas inlet.

Abstract: A method for operating a semiconductor processing apparatus that plasma-processes a semiconductor wafer mounted on a stage placed in a container using a plasma generated therein. The method includes setting a temperature of the semiconductor wafer, and controlling an operation of the semiconductor processing apparatus based on information about the temperature of the semiconductor wafer which is set.

Abstract: A wafer processing method for use with a wafer processing apparatus having a liquid cooling jacket with a built-in coolant liquid circulation path and a ceramic plate as attached onto the liquid cooling jacket and having therein a heater and an electrode for an electrostatic chuck. The method enables performance of wafer processing while letting a wafer be mounted on the ceramic plate by a wafer transport. The method includes causing the wafer transport to transport the wafer onto the ceramic plate, pre-heating the wafer while the wafer is held on the ceramic plate for a predetermined length of time, and mounting the preheated wafer on the ceramic plate.

Abstract: The invention provides a plasma processing apparatus that realizes a most suitable inner environment of a vacuum vessel for each process.

Abstract: In a wafer processing apparatus, wafers are sequentially placed one by one on a ceramic plate of a wafer stage within a vacuum chamber. The pressure of a heat-conductive gas introduced at this time between the wafer and the ceramic plate is adjusted to control the temperature of the wafer, and the wafer is processed by use of plasma. In this case, the user can select any one of a process for regulating the pressure of the heat-conductive gas each time the wafers are sequentially placed on the wafer stage, a process for optimizing aging conditions, and a process for optimizing heater conditions so that the wafer temperature variation within lot can be reduced by performing the selected process. The selected process is performed on the basis of its conditions that are computed to determine by a control-purpose computer of the processing apparatus.

Abstract: A sample processing method for processing a sample by introducing a gas into a vacuum vessel and generating plasma in the vacuum vessel. The sample processing method includes the steps of measuring an intensity of light emitted from a light-emitting diode in the vacuum vessel, at the outside of the vacuum vessel, and monitoring a status of the plasma in accordance with the measured intensity of the light.

Abstract: A method and apparatus for measuring a potential difference for plasma processing with a plasma processing apparatus that processes a sample by introducing a gas into a vacuum chamber and generates plasma. A light-emitting portion is formed on a measurement-use sample of the sample to be processed and a current flows into the light-emitting portion according to a potential difference that has been generated across the light-emitting portion. An intensity of light emitted from the light-emitting portion according to a predetermined light intensity is measured and a potential difference on the measurement-use sample according to a predetermined light intensity is measured.

Abstract: The invention provides a plasma processing apparatus capable of minimizing the non-uniformity of potential distribution around wafer circumference, and providing a uniform process across the wafer surface. The apparatus is equipped with a focus ring formed of a dielectric, a conductor or a semiconductor and having RF applied thereto, the design of which is optimized for processing based on a design technique clarifying physical conditions for flattening a sheath-plasma interface above a wafer and the sheath-plasma interface above the focus ring. A surface voltage of the focus ring is determined to be not less than a minimum voltage for preventing reaction products caused by wafer processing from depositing thereon.

Abstract: A wafer stage for use in a wafer processing apparatus having a liquid cooling jacket with a built-in coolant liquid circulation path and a ceramic plate as attached onto the liquid cooling jacket and having therein a heater and an electrode for an electrostatic chuck. The wafer stage enables performance of wafer processing while letting a wafer be mounted on the ceramic plate. The liquid cooling jacket enables attachment of the ceramic plate through a gap for circulation of a coolant gas as formed over the liquid cooling jacket, and a heat resistant seal material containing therein an elastic body for sealing the coolant gas between the liquid cooling jacket and the ceramic plate.

Abstract: A plasma processing apparatus includes a gas ring forming a portion of a vacuum processing chamber and having a blowing port for a processing gas, a bell jar to define a vacuum processing chamber, an antenna for supplying an RF electric field into the vacuum processing chamber to form plasmas, a sample table, a Faraday shield, and a deposition preventive plate attached detachably at least to the inner surface of the gas ring excluding the blowing port. An area of the inner surface of the gas ring including the deposition preventive plate that can be viewed from the sample surface is set to about ½ or more of the area of the sample. A susceptor made of a dielectric material covers the outer surface and the outer lateral side of the sample table. A metal film is disposed with respect to the susceptor, and an RF voltage is applied to the metal film.

Abstract: A method for operating a semiconductor processing apparatus that plasma-processes a semiconductor wafer mounted on a stage placed in a container using a plasma generated therein. The method includes setting a temperature of the semiconductor wafer, and controlling an operation of the semiconductor processing apparatus based on information about the temperature of the semiconductor wafer which is set.

Abstract: A plasma etching apparatus capable of performing processing with excellent in-plane uniformity on an object to be processed having a large diameter is provided.

Abstract: A plasma is generated by feeding an antenna with radio-frequency electric power generated by a radio-frequency power source, and one end of the antenna is grounded to the earth through a capacitor of variable capacitance. A Faraday shield is electrically isolated from the earth, and the capacitance of the variable capacitor is determined to be such a value that the voltage at the two ends of the antenna may be equal in absolute values and inverted to reduce the partial removal of the wall after the plasma ignition. At the time of igniting the plasma, the capacitance of the capacitor is adjusted to a larger or smaller value than that minimizing the damage of the wall.

Abstract: A film of hardly-etched material formed on a substrate is etched using a mask formed on the film of hardly-etched material and a plasma, wherein the film of hardly-etched material is etched using the mask formed with a side wall angled at 90 degrees or less with respect to the surface of the substrate, thereby forming the etched film with a taper angle to the surface of the substrate equal to or larger than the taper angle of the mask.

Abstract: A plasma processing apparatus includes a vacuum chamber having a structure that surrounds a space where plasma is generated, a sample stage disposed in the chamber on which a sample to be processed is placed and coil antenna providing an electric field to the space. The structure has a non-conductive member surrounding the space and a conductive member covering the non-conductive member, both of which are disposed between the antenna and the space. The conductive member is electrically floated at least when the plasma is generated.

Abstract: A semiconductor processing apparatus that processes a semiconductor wafer disposed in a process chamber of a processing apparatus main unit includes a setting unit for enabling a user to set a temperature of the semiconductor wafer and control unit for controlling a processing of the semiconductor wafer based on the temperature of the semiconductor wafer set by the setting unit.

Abstract: A method and apparatus for measuring a potential difference for plasma processing with a plasma processing apparatus that processes a sample by introducing a gas into a vacuum chamber and generates plasma. A light-emitting portion is formed on a measurement-use sample of the sample to be processed and a current flows into the light-emitting portion according to a potential difference that has been generated across the light-emitting portion. An intensity of light emitted from the light-emitting portion according to a predetermined light intensity is measured and a potential difference on the measurement-use sample according to a predetermined light intensity is measured.