Abstract: A plasma processing apparatus including: a monitor device which monitors a process quantity generated at plasma processing; a monitor value estimation unit which has monitor quantity variation models for storing change of a monitor value of the process quantity in accordance with the number of processed specimens and which estimates a monitor value for a process of a next specimen by referring to the monitor quantity variation models; and a control quantity calculation unit which stores a relation between a control quantity for controlling the process quantity of the vacuum processing device and a monitor value and which calculates the control quantity based on a deviation of the estimated monitor value from a target value to thereby control the process quantity for the process of the next specimen.

Abstract: There is provided a method of analyzing data obtained from an etching apparatus for micromachining a wafer using plasma. This method includes the following steps: acquiring the plasma light-emission data indicating light-emission intensities at a plurality of different wavelengths and times, the plasma light-emission data being measured under a plurality of different etching processing conditions, and being obtained at the time of the etching processing, evaluating the relationship between changes in the etching processing conditions and changes in the light-emission intensities at the plurality of different wavelengths and times with respect to the wavelengths and times of the plasma light-emission data, and identifying the wavelength and the time of the plasma light-emission data based on the evaluation result, the wavelength and the time being to be used for the adjustment of the etching processing condition.

Abstract: Based on a model for determining optical emission intensity values Y at wavelengths from actuator values X of an etching apparatus, X is calculated from Y to achieve preferable Run-to-Run control over Y. A relation between X and Y is defined as a control model (matrix model C1, ratio-constraint model C2) based on an algebraical expression with ?X as an input and ?Y as an output. In etching process control, ?X (manipulated volume) is calculated from ?Y (controlled volume) using the control model, based on a non-control optical emission intensity value Y, to set X (S1) for the etching process, during which Y is monitored. Based on an actual value for Y, a non-control optical emission intensity value Y to be used in the next wafer etching process is calculated.

Abstract: Method for carrying out plasma processing on a wafer under Run-to-Run control by using a plasma processing apparatus having a plasma processing chamber, a process monitor which monitors a condition in the plasma processing chamber, and an actuator which controls parameters which are constituent elements of a plasma processing condition. The method includes the steps of making one of the parameters a (N?1)th manipulated variable, calculating a first difference between a process monitor value in the plasma processing obtained by the process monitor and a desired value of the process monitor value in the plasma processing, calculating a correction amount of the (N?1)th manipulated variable on the basis of the first difference and a previously obtained correlation between the process monitor value in the plasma processing and the (N?1)th manipulated variable, wherein N is a natural number equal to or larger than 2.

Abstract: An etching apparatus calculates an emission intensity in the vicinity of each of a plurality of wavelengths, at which a specified element should emit light, from information indicating light emission measured by an optical emission spectroscope during etching processing and, if it is determined that the calculated emission intensity information and emission intensity information stored in a storage unit are similar, extracts a wavelength, corresponding to the calculated emission intensity, with the wavelength associated with the element.

Abstract: A plasma processing apparatus including: a monitor device which monitors a process quantity generated at plasma processing; a monitor value estimation unit which has monitor quantity variation models for storing change of a monitor value of the process quantity in accordance with the number of processed specimens and which estimates a monitor value for a process of a next specimen by referring to the monitor quantity variation models; and a control quantity calculation unit which stores a relation between a control quantity for controlling the process quantity of the vacuum processing device and a monitor value and which calculates the control quantity based on a deviation of the estimated monitor value from a target value to thereby control the process quantity for the process of the next specimen.

Abstract: A plasma processing apparatus includes a plasma processing chamber, a process monitor which monitors a condition in the plasma processing chamber, an actuator which controls a parameter constituting a plasma processing condition, N+1 correction amount calculating units which calculate a correction amount of a manipulated variable on the basis of a difference between a process monitor value monitored by the process monitor and a desired value of the process monitor and a correlation between the process monitor value and a manipulated variable, which is the parameter, the correlation having been acquired in advance, and N manipulated variable adding units that add a manipulated variable having a priority level next to an N-th manipulated variable. The N-th manipulated variable adding unit defines a correction amount calculated by the N+1-th correction amount calculating unit as the correction amount of an N+1-th manipulated variable.

Abstract: A plasma processing apparatus for applying an etching processing to a wafer by using at least two steps of the etching processing which operate with plasma formed within a pressure-reduced processing chamber, the wafer being located within the processing chamber inside a vacuum vessel, and having a mask on a silicon-composed substrate and a film structure, the film structure including processing-target films located under the mask, wherein the plasma processing apparatus is equipped with a function for processing another different wafer in such a manner that a processing condition at a precedent-stage step of the two steps of the etching processing in the processing of the different wafer is adjusted based on a result obtained by detecting a time which has elapsed until termination of a subsequent-stage step of the two steps of the etching processing.

Abstract: A vacuum processing apparatus includes a plurality of vacuum containers; a vacuumized transfer unit connected with the vacuum containers and having a transfer chamber; a plurality of lock chambers connected to the vacuumized transfer unit; a vacuumized transferring section arranged in the transfer chamber to transfer the sample between each of the lock chambers and each of the processing chambers inside the plurality of vacuum containers; an atmospheric transfer container having a space through which the sample is transferred under the atmospheric pressure; an atmospheric transfer unit arranged in the atmospheric transfer container and adapted to transfer the sample from a cassette; and a controller operative on the basis of schedule information of a plurality of operations to adjust the operations, the information including times of stagnation of the plurality of samples and set therefor.

Abstract: Among the multiple OES data wavelengths, an analysis device identifies the wavelength of light emissions from a substance contained in the plasma from among multiple light emission wavelengths within the chamber by way of the steps of: measuring the light emission within the chamber during etching processing of the semiconductor wafer; finding the time-based fluctuation due to changes over time on each wavelength in the measured intensity of the light emissions in the chamber; comparing the time-based fluctuations in the wavelength of the light emitted from the pre-specified substance; and by using the comparison results, identifying the wavelength of the light emitted from the substance caused by light emission within the chamber.

Abstract: Semiconductor manufacturing equipment includes: a controller controlling driving and processes of various parts of the semiconductor manufacturing equipment, and a sensor monitoring each physical amount in the semiconductor manufacturing equipment or a status of each chemical response amount; a database; and an arithmetic section executing: processing of reading out equipment data, calculating a correlation matrix between time points based on a plurality of pieces of signal data to be compared, calculating eigen values and eigen vectors from the correlation matrix, and calculating principal component scores by principal component analysis; processing of comparing magnitudes of the eigen values of the principal components, arranging the eigen values in descending order to display a list thereof; and processing of displaying a scatter diagram where the principal component scores of the respective signals are plotted in a feature space selecting the principal component corresponding to the eigen value having a c

Abstract: A plasma processing apparatus includes a plasma processing chamber, a process monitor which monitors a condition in the plasma processing chamber, an actuator which controls a parameter constituting a plasma processing condition, N+1 correction amount calculating units which calculate a correction amount of a manipulated variable on the basis of a difference between a process monitor value monitored by the process monitor and a desired value of the process monitor and a correlation between the process monitor value and a manipulated variable, which is the parameter, the correlation having been acquired in advance, and N manipulated variable adding units that add a manipulated variable having a priority level next to an N-th manipulated variable. The N-th manipulated variable adding unit defines a correction amount calculated by the N+1-th correction amount calculating unit as the correction amount of an N+1-th manipulated variable.

Abstract: Based on a model for determining optical emission intensity values Y at wavelengths from actuator values X of an etching apparatus, X is calculated from Y to achieve preferable Run-to-Run control over Y. A relation between X and Y is defined as a control model (matrix model C1, ratio-constraint model C2) based on an algebraical expression with ?X as an input and ?Y as an output. In etching process control, ?X (manipulated volume) is calculated from ?Y (controlled volume) using the control model, based on a non-control optical emission intensity value Y, to set X (S1) for the etching process, during which Y is monitored. Based on an actual value for Y, a non-control optical emission intensity value Y to be used in the next wafer etching process is calculated.

Abstract: An etching process state judgment method comprising: a spectral data obtaining step, in which an optical emission spectrum distribution is obtained by monitoring optical emission during an etching process of a plurality of wafers; a peak detection step, in which peaks are detected from the optical emission spectrum distribution at a specific time point during the etching process, to obtain peak characteristics; a common peak identifying step, in which peaks common to the wafers are identified among the peaks detected in the peak detection step; and a state detection step, in which the characteristics are compared regarding the common peaks, to detect a state of each wafer in the etching process. A state (anomaly or normalcy) of an etching process is detected from optical emission spectrum distribution at the time of etching process, by a simple method without assuming substances.

Abstract: A plasma etching apparatus includes a vacuum processing chamber for performing plasma processing on a workpiece, a gas introducer, a high frequency power feeder, a spectroscope, and an arithmetic unit for determining an endpoint of etching of the workpiece. The arithmetic unit includes a regression line computing unit for computing a regression line on the basis of time-sequential data of luminous intensity of a specific wavelength sampled by the spectroscope, a distance computing unit for computing a distance from the time-sequential data to the regression line, a computing unit for calculating a distance in a time-base direction by computing a slope of the regression line, and the distance from the time-sequential data to the regression line, computed by the distance computing unit, and an endpoint determiner for outputting an endpoint determination signal on the basis of the distance in the time-base direction computed by the computing unit.

Abstract: A plasma processing apparatus for applying an etching processing to a wafer by using at least two steps of the etching processing which operate with plasma formed within a pressure-reduced processing chamber, the wafer being located within the processing chamber inside a vacuum vessel, and having a mask on a silicon-composed substrate and a film structure, the film structure including processing-target films located under the mask, wherein the plasma processing apparatus is equipped with a function for processing another different wafer in such a manner that a processing condition at a precedent-stage step of the two steps of the etching processing in the processing of the different wafer is adjusted based on a result obtained by detecting a time which has elapsed until termination of a subsequent-stage step of the two steps of the etching processing.

Abstract: A microscopic change in a luminous intensity occurring near an etching endpoint is accurately detected, whereby the endpoint of etching is quickly determined. An etching endpoint determination method for determining an endpoint of etching processing in a plasma etching apparatus that introduces a processing gas into a vacuum chamber, produces plasma by feeding high-frequency energy to a introduced processing gas, and uses the produced plasma to perform plasma processing on a workpiece stored in the chamber includes: a step of sampling light of a pre-set wavelength from light emitted by the plasma produced in the vacuum chamber, acquiring as time-sequential data the luminous intensity of the sampled light of the specific wavelength, and computing a regression line on the basis of the acquired time-sequential data; and a step of computing distances in a time-base direction between the regression line and the time-sequential data which are obtained at the first step.

Abstract: A plasma processing apparatus including: a monitor device which monitors a process quantity generated at plasma processing; a monitor value estimation unit which has monitor quantity variation models for storing change of a monitor value of the process quantity in accordance with the number of processed specimens and which estimates a monitor value for a process of a next specimen by referring to the monitor quantity variation models; and a control quantity calculation unit which stores a relation between a control quantity for controlling the process quantity of the vacuum processing device and a monitor value and which calculates the control quantity based on a deviation of the estimated monitor value from a target value to thereby control the process quantity for the process of the next specimen.

Abstract: A method for performing a plasma process using a plasma processing apparatus which includes a vacuum process chamber, an exhaust device, a mass flow controller supplying a process gas, a stage electrode which receives and holds a workpiece by adsorption, a transfer device, and a high-frequency electrical source. The method includes a first step of performing the plasma process for the workpiece in the vacuum process chamber by a corresponding recipe of predetermined recipes, a second step of acquiring apparatus parameters showing the condition of the plasma processing apparatus when a specific recipe of the predetermined recipes is executed to diagnose whether the condition of the plasma processing apparatus is good or not based on the acquired apparatus parameters.

Abstract: A plasma processing system includes a processing chamber provided with a plasma generation unit for applying radio-frequency power to supplied processing gas to generate plasma and a stage for holding workpieces, and a control computer for generating plasma in accordance with preset processing conditions to sequentially apply plasma processing to the workpieces and also for sequentially collecting system parameter values each of which represents a state of the plasma processing. The computer is provided with a record unit for storing, in every predetermined period, a frequency that each of the collected system parameter values deviates from a preset reference value, an occurrence rate calculation unit for calculating, based on the frequency, an occurrence rate that the each of the system parameter values deviates from the reference value, and a comparison unit for comparing the occurrence rate with a preset reference value to diagnose a state of the system.