Abstract: A semiconductor wafer is radiated with an electron beam so that the inelastic scattering takes place in the narrow region, and current flows out from the narrow region; the amount of current is dependent on the substance or substances in the narrow region so that the analyst evaluates the degree of contamination on the basis of the substance or substances specified in the narrow region.

Abstract: A semiconductor wafer is radiated with an electron beam so that the inelastic scattering takes place in the narrow region, and current flows out from the narrow region; the amount of current is dependent on the substance or substances in the narrow region so that the analyst evaluates the degree of contamination on the basis of the substance or substances specified in the narrow region.

Abstract: A semiconductor wafer is radiated with an electron beam so that the inelastic scattering takes place in the narrow region, and current flows out from the narrow region; the amount of current is dependent on the substance or substances in the narrow region so that the analyst evaluates the degree of contamination on the basis of the substance or substances specified in the narrow region.

Abstract: A system and method is disclosed for obtaining information regarding one or more contact and/or via holes on a semiconductor wafer. In one embodiment, the method obtains information regarding one or more holes (for example, via or contact) that are disposed in a semiconductor wafer or disposed in a layer which is disposed on or above the semiconductor wafer. The method of this embodiment comprises irradiating the one or more holes with an electron beam; and determining information relating to a bottom diameter or a bottom circumference of the one or more holes using data which is representative of an amount of substrate current which is generated in response to irradiating the one or more holes with an electron beam.

Abstract: A production managing system for semiconductor devices includes, in a semiconductor producing center C, production devices 11a-11c for producing semiconductor devices, in-line measuring devices 12a-12c for measuring data of a lot, a database 2 storing data of production methods, the measured data, the specifications of the process steps corresponding to the measured data, the estimated yield, the data of lot input date and hour, the data of the scheduled date on which the process step is performed, the data of actual date of completion in every step and the data of the scheduled date of completion of the semiconductor devices of every lot, correspondingly to a lot number data of the semiconductor devices (chips) and a server 1 including an estimated yield operating unit 1a for calculating the estimated yield, which is a final yield, on the basis of the specifications and the measured data, and a production managing unit 1b for performing a production management of semiconductor devices ordered by a user on th

Abstract: A system and method is disclosed for obtaining information regarding one or more contact and/or via holes on a semiconductor wafer. In one embodiment, the method obtains information regarding one or more holes (for example, via or contact) that are disposed in a semiconductor wafer or disposed in a layer which is disposed on or above the semiconductor wafer. The method of this embodiment comprises irradiating the one or more holes with an electron beam; and determining information relating to a bottom diameter or a bottom circumference of the one or more holes using data which is representative of an amount of substrate current which is generated in response to irradiating the one or more holes with an electron beam.

Abstract: An apparatus for measuring the thickness of thin-film cause electron beams of first and second energies to strike thin-film to be measured that is formed on a silicon substrate, and measures the first substrate current value of current flowing in the substrate when it is struck by an electron beam of a first energy and the second substrate current value of current flowing in the substrate when it is struck by an electron beam of a second energy. The thin-film measuring apparatus obtains reference data indicating a relationship between the film thickness and a reference function having as variables the substrate current for the case of an electron beam of the first energy striking a standard sample and the substrate current for the case of an electron beam of the second energy striking the standard sample, and calculates the thickness of the thin-film under measurement based on the first and second substrate current values, giving consideration to the reference data.

Abstract: In one aspect, the present invention is a system and method for obtaining information regarding one or more contact holes and/or vias on a semiconductor wafer. In this regard, in one embodiment, the system comprises an electron gun to irradiate an electron beam, having a variable acceleration voltage, on the one or more contact holes and/or vias. The system further includes a current measuring device, coupled to the semiconductor wafer, may measure a compensation current, wherein the compensation current is generated in response to the electron beam irradiated at a plurality of acceleration voltages on the one or more contact holes. The system also includes a data processor, coupled to the current measuring device, to determine information relating to the one or more contact holes and/or vias using the compensation current measured for the plurality of acceleration voltages of the electron beam.

Abstract: A semiconductor wafer is radiated with an electron beam so that the inelastic scattering takes place in the narrow region, and current flows out from the narrow region; the amount of current is dependent on the substance or substances in the narrow region so that the analyst evaluates the degree of contamination on the basis of the substance or substances specified in the narrow region.

Abstract: In one aspect, the present invention is a system and method for obtaining information regarding one or more contact holes and/or vias on a semiconductor wafer. In this regard, in one embodiment, the system comprises an electron gun to irradiate an electron beam on the one or more contact holes and/or vias wherein the electron beam includes a cross-section which is greater than the one or more contact holes. The system further includes a current measuring device, coupled to the semiconductor wafer, may measure a compensation current, wherein the compensation current is generated in response to the electron beam irradiated on the one or more contact holes. The system also includes a data processor, coupled to the current measuring device, to determine information relating to the one or more contact holes and/or vias using the compensation current.

Abstract: A semiconductor wafer is radiated with an electron beam so that the inelastic scattering takes place in the narrow region, and current flows out from the narrow region; the amount of current is dependent on the substance or substances in the narrow region so that the analyst evaluates the degree of contamination on the basis of the substance or substances specified in the narrow region.

Abstract: An apparatus for measuring the thickness of thin-film cause electron beams of first and second energies to strike thin-film to be measured that is formed on a silicon substrate, and measures the first substrate current value of current flowing in the substrate when it is struck by an electron beam of a first energy and the second substrate current value of current flowing in the substrate when it is struck by an electron beam of a second energy. The thin-film measuring apparatus obtains reference data indicating a relationship between the film thickness and a reference function having as variables the substrate current for the case of an electron beam of the first energy striking a standard sample and the substrate current for the case of an electron beam of the second energy striking the standard sample, and calculates the thickness of the thin-film under measurement based on the first and second substrate current values, giving consideration to the reference data.

Abstract: A production managing system for semiconductor devices includes, in a semiconductor producing center C, production devices 11a-11c for producing semiconductor devices, in-line measuring devices 12a-12c for measuring data of a lot, a database 2 storing data of production methods, the measured data, the specifications of the process steps corresponding to the measured data, the estimated yield, the data of lot input date and hour, the data of the scheduled date on which the process step is performed, the data of actual date of completion in every step and the data of the scheduled date of completion of the semiconductor devices of every lot, correspondingly to a lot number data of the semiconductor devices (chips) and a server 1 including an estimated yield operating unit 1a for calculating the estimated yield, which is a final yield, on the basis of the specifications and the measured data, and a production managing unit 1b for performing a production management of semiconductor devices ordered by a user on th

Abstract: An apparatus for measuring the thickness of thin-film cause electron beams of first and second energies to strike thin-film to be measured that is formed on a silicon substrate, and measures the first substrate current value of current flowing in the substrate when it is struck by an electron beam of a first energy and the second substrate current value of current flowing in the substrate when it is struck by an electron beam of a second energy. The thin-film measuring apparatus obtains reference data indicating a relationship between the film thickness and a reference function having as variables the substrate current for the case of an electron beam of the first energy striking a standard sample and the substrate current for the case of an electron beam of the second energy striking the standard sample, and calculates the thickness of the thin-film under measurement based on the first and second substrate current values, giving consideration to the reference data.

Abstract: A production managing system for semiconductor devices includes, in a semiconductor producing center C, production devices 11a-11c for producing semiconductor devices, in-line measuring devices 12a-12c for measuring data of a lot, a database 2 storing data of production methods, the measured data, the specifications of the process steps corresponding to the measured data, the estimated yield, the data of lot input date and hour, the data of the scheduled date on which the process step is performed, the data of actual date of completion in every step and the data of the scheduled date of completion of the semiconductor devices of every lot, correspondingly to a lot number data of the semiconductor devices (chips) and a server 1 including an estimated yield operating unit 1a for calculating the estimated yield, which is a final yield, on the basis of the specifications and the measured data, and a production managing unit 1b for performing a production management of semiconductor devices ordered by a user on th

Abstract: The semiconductor manufacturing device according to the present invention having a mechanical drive part which is moved in a vacuum device while holding a substrate includes at least one discharge port for introducing an inert gas into the vacuum device, and a flow rate control part for controlling the inert gas which is discharged into the vacuum device from the discharge port at a constant flow rate.

Abstract: In one aspect, the present invention is a system and method for obtaining information regarding one or more contact holes and/or vias on a semiconductor wafer. In this regard, in one embodiment, the system comprises an electron gun to irradiate an electron beam on the one or more contact holes and/or vias wherein the electron beam includes a cross-section which is greater than the one or more contact holes. The system further includes a current measuring device, coupled to the semiconductor wafer, may measure a compensation current, wherein the compensation current is generated in response to the electron beam irradiated on the one or more contact holes. The system also includes a data processor, coupled to the current measuring device, to determine information relating to the one or more contact holes and/or vias using the compensation current.

Abstract: In one aspect, the present invention is a system and method for obtaining information regarding one or more contact holes and/or vias on a semiconductor wafer. In this regard, in one embodiment, the system comprises an electron gun to irradiate an electron beam, having a variable acceleration voltage, on the one or more contact holes and/or vias. The system further includes a current measuring device, coupled to the semiconductor wafer, may measure a compensation current, wherein the compensation current is generated in response to the electron beam irradiated at a plurality of acceleration voltages on the one or more contact holes. The system also includes a data processor, coupled to the current measuring device, to determine information relating to the one or more contact holes and/or vias using the compensation current measured for the plurality of acceleration voltages of the electron beam.

Abstract: A semiconductor wafer is radiated with an electron beam so that the inelastic scattering takes place in the narrow region, and current flows out from the narrow region; the amount of current is dependent on the substance or substances in the narrow region so that the analyst evaluates the degree of contamination on the basis of the substance or substances specified in the narrow region.

Abstract: A production managing system for semiconductor devices includes, in a semiconductor producing center C, production devices 11a-11c for producing semiconductor devices, in-line measuring devices 12a-12c for measuring data of a lot, a database 2 storing data of production methods, the measured data, the specifications of the process steps corresponding to the measured data, the estimated yield, the data of lot input date and hour, the data of the scheduled date on which the process step is performed, the data of actual date of completion in every step and the data of the scheduled date of completion of the semiconductor devices of every lot, correspondingly to a lot number data of the semiconductor devices (chips) and a server 1 including an estimated yield operating unit la for calculating the estimated yield, which is a final yield, on the basis of the specifications and the measured data, and a production managing unit 1b for performing a production management of semiconductor devices ordered by a user on th