Abstract: An apparatus includes an upper electrode and a lower electrode for supporting a wafer disposed opposite each other within a process chamber. A first RF power supply configured to apply a first RF power having a relatively higher frequency, and a second RF power supply configured to apply a second RF power having a relatively lower frequency is connected to the lower electrode. A variable DC power supply is connected to the upper electrode. A process gas is supplied into the process chamber to generate plasma of the process gas so as to perform plasma etching.

Abstract: A plasma etching apparatus includes an upper electrode and a lower electrode, between which plasma of a process gas is generated to perform plasma etching on a wafer W. The apparatus further comprises a cooling ring disposed around the wafer, a correction ring disposed around the cooling ring, and a variable DC power supply directly connected to the correction ring, the DC voltage being preset to provide the correction ring with a negative bias, relative to ground potential, for attracting ions in the plasma and to increase temperature of the correction ring to compensate for a decrease in temperature of a space near the edge of the target substrate due to the cooling ring.

Abstract: An apparatus includes an upper electrode and a lower electrode for supporting a wafer disposed opposite each other within a process chamber. A first RF power supply configured to apply a first RF power having a relatively higher frequency, and a second RF power supply configured to apply a second RF power having a relatively lower frequency is connected to the lower electrode. A variable DC power supply is connected to the upper electrode. A process gas is supplied into the process chamber to generate plasma of the process gas so as to perform plasma etching.

Abstract: There is provided a cleaning method for a substrate processing apparatus capable of improving a removing rate of a deposit without increasing a self-bias voltage. The cleaning method includes supplying, to clean the inside of a processing chamber 102 under preset processing conditions, a processing gas including an O2 gas and an inert gas into the processing chamber at a preset flow rate ratio of the processing gas; and generating plasma of the processing gas by applying a high frequency power between a lower electrode 111 and a upper electrode 120. Here, the preset flow rate ratio of the processing gas is set depending on a self-bias voltage of the lower electrode 111 such that a flow rate ratio of the O2 gas is reduced while a flow rate ratio of the Ar gas is increased as an absolute value of the self-bias voltage decreases.

Abstract: Provided is a chamber cleaning method capable of efficiently removing a CF-based shoulder deposit containing Si and Al deposited on an outer periphery of an ESC. A mixed gas of an O2 gas and a F containing gas is supplied toward an outer periphery 24a of an ESC 24 at a pressure ranging from about 400 mTorr to about 800 mTorr; plasma generated from the mixed gas is irradiated onto the outer periphery 24a of the ESC 24; an O2 single gas as a mask gas is supplied to the top surface of ESC 24 except the outer periphery 24a; and the shoulder deposit 50 adhered to the outer periphery 24a is decomposed and removed while preventing the top surface of ESC 24 except the outer periphery 24a from being exposed to a F radical.

Abstract: In a plasma processing apparatus, a first electrode is attached to a grounded evacuable processing chamber via an insulating material or a space and a second electrode disposed in parallel with the first electrode spaced apart therefrom in the processing chamber, the second electrode supporting a target substrate to face the first electrode. A first radio frequency power supply unit applies a first radio frequency power of a first frequency to the second electrode, and a second radio frequency power supply unit applies a second radio frequency power of a second frequency lower than the first frequency to the second electrode. Further, a processing gas supply unit supplies a processing gas to a processing space formed by the first and the second electrode and a sidewall of the processing chamber. Moreover, an inductor electrically is connected between the first electrode and a ground potential.

Abstract: A plasma processing apparatus includes a processing vessel capable of being vacuum evacuated; a first electrode disposed in the processing vessel in a state electrically floating via an insulating member or a space; a second electrode, arranged in the processing vessel to face and be in parallel to the first electrode with a specific interval, supporting a substrate to be processed; a processing gas supply unit for supplying a desired processing gas into a processing space surrounded by the first electrode, the second electrode and a sidewall of the processing vessel; and a first radio frequency power supply unit for applying a first radio frequency power to the second electrode to generate a plasma of the processing gas in the processing space. An electrostatic capacitance between the first electrode and the processing vessel is set such that a desired plasma density distribution is obtained for the generated plasma.

Abstract: A plasma processing apparatus includes a processing vessel capable of being vacuum evacuated; a first electrode installed in the processing vessel to be in a state electrically floating via an insulating member or a space; a second electrode disposed in the processing vessel to be in parallel to the first electrode with a specific interval, for supporting a target substrate thereon to face the first electrode; a processing gas supply unit for supplying a processing gas into a processing space between the first electrode, the second electrode and a sidewall of the processing vessel; and a first radio frequency power supply unit for applying a first radio frequency power to the second electrode to generate a plasma of the processing gas in the processing space. A protrusion projected toward the second electrode is formed at a central portion of the first electrode.

Abstract: A plasma etching apparatus includes an upper electrode and a lower electrode, between which plasma of a process gas is generated to perform plasma etching on a wafer W. The apparatus further comprises a variable DC power supply to apply a DC voltage to the upper electrode, so as to cause the absolute value of a self-bias voltage on the surface thereof to be large enough to obtain a suitable sputtering effect on the surface, and to increase the plasma sheath length on the upper electrode side to generate predetermined pressed plasma.

Abstract: An apparatus includes an upper electrode and a lower electrode for supporting a wafer disposed opposite each other within a process chamber. A first RF power supply configured to apply a first RF power having a relatively higher frequency, and a second RF power supply configured to apply a second RF power having a relatively lower frequency is connected to the lower electrode. A variable DC power supply is connected to the upper electrode. A process gas is supplied into the process chamber to generate plasma of the process gas so as to perform plasma etching.

Abstract: An ATM switching device includes at least one ATM switch element, and a unit for appending a routing tag, which is composed of a single byte or a plurality of bytes and related to an incoming ATM cell, to the head of the ATM cell. The routing tag includes a control information having information concerning a priority level of the ATM cell and a discard level thereof, and includes a routing information defining a single address or a plurality of addresses. The ATM switch element effects a priority control for the ATM cell, and a discard control of an ATM cell or ATM cells depending on a storage quantity of a congestion control memory buffer, according to the control information, and effects a switching of the ATM cell according to an address value or address values defined in the routing information. By the constitution, it is possible to realize a speedy and simple switching of an ATM cell or ATM cells.