Abstract: A plasma processing apparatus includes a processing chamber; a lower electrode serving as a mounting table for mounting thereon a target object; and an upper electrode or an antenna electrode provided to be opposite to the lower electrode. The apparatus further includes a gas supply source for introducing a gas including a halogen-containing gas and an oxygen gas into the processing chamber and a high frequency power supply for applying a high frequency power for generating plasma to at least one of the upper electrode, the antenna electrode, or the lower electrode. Among inner surfaces of the processing chamber which are exposed to the plasma, at least a part of or all of the surfaces between a mounting position of the target object and the upper electrode, or the antenna electrode; or at least a part of or all of the surfaces of the upper electrode or the antenna electrode are coated with a fluorinated compound.

Abstract: A processing apparatus includes counters each used to measure the length of RF discharge time over which power is applied to a consumable component in correspondence to a specific type of processing executed in a processing chamber, a storage to store wear coefficient information indicating wear coefficients each corresponding to one of the plurality of types of processing, and a control unit that obtains information indicating RF discharge time lengths measured by the counters in correspondence to the individual types of processing, obtains the wear coefficients corresponding to the individual types of processing indicated in the wear coefficient information stored in the storage, calculates a wear index value for the consumable component based upon the RF discharge time lengths and the wear coefficients corresponding to the individual types of processing, and executes consumable component management processing based upon the calculated wear index value.

Abstract: A processing apparatus includes counters each used to measure the length of RF discharge time over which power is applied to a consumable component in correspondence to a specific type of processing executed in a processing chamber, a storage to store wear coefficient information indicating wear coefficients each corresponding to one of the plurality of types of processing, and a control unit that obtains information indicating RF discharge time lengths measured by the counters in correspondence to the individual types of processing, obtains the wear coefficients corresponding to the individual types of processing indicated in the wear coefficient information stored in the storage, calculates a wear index value for the consumable component based upon the RF discharge time lengths and the wear coefficients corresponding to the individual types of processing, and executes consumable component management processing based upon the calculated wear index value.

Abstract: An apparatus and a method for inductively coupled plasma mass spectrometry (ICP-MS) with improved detection limits are disclosed. The ICP-MS includes apparatus for generating an inductively coupled plasma (ICP) in a gas at substantially atmospheric pressure to ionize a sample, a mass analyzer (MS) operable at a low pressure of the order of 10−2-10−4 Pa for detecting at least part of the sample ions, and an interface for transferring the sample ions from the ICP to the MS. The interface is provided with a controller for increasing the pressure in the interface from its normal pressure, for example, to 350-450 Pa. The increased pressure may reduce the sensitivity of the instrument, but can improve detection limits by selective reduction of interfering ions.