Patent application number | Description | Published |
20090078678 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus for processing a substrate using plasma includes a first electrode configured to mount the substrate, a second electrode disposed to face the first electrode with a predetermined space, a chamber containing the first electrode and the second electrode, the chamber being capable of adjusting an inside atmosphere, a first electric power source device configured to apply a first RF voltage for controlling a self-bias voltage generated on the substrate to the first electrode, the first electric power source device applying a substantially constant width and a substantially constant value in a peak-to-peak voltage of an RF voltage of a first frequency at intervals, and a second electric power source device configured to apply a second RF voltage of a second frequency for generating plasma between the first and second electrodes to one of the first electrode and the second electrode. | 03-26-2009 |
20090194508 | SUBSTRATE PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A substrate plasma processing apparatus includes a substrate holding electrode and a counter electrode which are arranged in a chamber, a high frequency generating device which applies a high frequency of 50 MHZ or higher to the substrate holding electrode, a DC negative pulse generating device which applies a DC negative pulse voltage in a manner of superimposing on the high frequency, and a controller controlling to cause intermittent application of the high frequency and cause intermittent application of the DC negative pulse voltage according to the timing of on or off of the high frequency. | 08-06-2009 |
20100072172 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD - There are provided a substrate processing apparatus and a substrate processing method realizing an effective reduction of a voltage change of a substrate on an electrode to reduce the variation of incident energy of ions entering the substrate. The substrate processing apparatus includes: a first electrode holding a substrate on a main surface of the first electrode; a second electrode facing the first electrode; a RF power source applying to the first electrode a RF voltage whose frequency is equal to or higher than 40 MHz; and a pulse voltage applying unit applying to the first electrode a pulse voltage decreasing in accordance with a lapse of time, by superimposing the pulse voltage on the RF voltage. | 03-25-2010 |
20110223750 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR MANUFACTURING APPARATUS - According to an embodiment, a method for manufacturing a semiconductor device is disclosed. The method includes: arranging a semiconductor substrate on a first electrode out of first and second electrodes arranged to be opposed to each other in a vacuum container; applying negative first pulse voltage and radio-frequency voltage to the first electrode, the negative first pulse voltage being superimposed with the radio-frequency voltage; applying negative second pulse voltage to the second electrode in an off period of the first pulse voltage; and processing the semiconductor substrate or a member on the semiconductor substrate by plasma formed between the first and second electrodes. | 09-15-2011 |
20120080408 | SUBSTRATE PROCESSING METHOD AND SUBSTRATE PROCESSING APPARATUS - A substrate processing method using a substrate processing apparatus includes a first step and a second step. The first step is to apply a negative voltage pulse from a pulsed power supply to be included in the apparatus. The second step is to apply floating potential for an interval of time between the negative voltage pulse and a positive voltage pulse from the pulsed power supply subsequent to the negative voltage pulse. In addition, the apparatus includes a chamber, a first electrode, a second electrode, an RF power supply, and the pulsed power supply. The second electrode is provided so that the second electrode faces the first electrode to hold a substrate. The RF power supply applies an RF voltage having a frequency of 50 MHz or higher to the second electrode. The pulsed power supply repeatedly applies a voltage waveform with the RF voltage to the second electrode. | 04-05-2012 |
20120228263 | SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD - In one embodiment, a substrate processing apparatus, includes: a chamber; a first electrode disposed in the chamber; a second electrode disposed in the chamber to face the first electrode, and to hold a substrate; an RF power supply to apply an RF voltage with a frequency of 50 MHz or more to the second electrode; and a pulse power supply to repeatedly apply a voltage waveform including a negative voltage pulse and a positive voltage pulse of which delay time from the negative voltage pulse is 50 nano-seconds or less to the second electrode while superposing on the RF voltage. | 09-13-2012 |
20130061870 | METHOD OF CLEANING FILM FORMING APPARATUS - In one embodiment, a method of cleaning a film forming apparatus includes: plasmatizing cleaning gas having at least one of the group consisting of chlorine gas, hydrocarbon gas, and chlorinated hydrocarbon gas; and supplying the plasmatized cleaning gas to a heated inner part of the film forming apparatus. | 03-14-2013 |
20140083977 | PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - In one embodiment, a plasma processing apparatus includes: a chamber; an introducing part; a counter electrode; a high-frequency power source; and a plurality of low-frequency power sources. A substrate electrode is disposed in the chamber, a substrate is directly or indirectly placed on the substrate electrode, and the substrate electrode has a plurality of electrode element groups. The introducing part introduces process gas into the chamber. The high-frequency power source outputs a high-frequency voltage for ionizing the process gas to generate plasma. The plurality of low-frequency power sources apply a plurality of low-frequency voltages of 20 MHz or less with mutually different phases for introducing ions from the plasma, to each of the plurality of electrode element groups. | 03-27-2014 |