Patents by Inventor Sander Bas ROOBOL
Sander Bas ROOBOL has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10330606Abstract: Disclosed is an inspection apparatus and associated method for measuring a target structure on a substrate. The inspection apparatus comprises an illumination source for generating measurement radiation; an optical arrangement for focusing the measurement radiation onto said target structure; and a compensatory optical device. The compensatory optical device may comprise an SLM operable to spatially modulate the wavefront of the measurement radiation so as to compensate for a non-uniform manufacturing defect in said optical arrangement. In alternative embodiments, the compensatory optical device may be located in the beam of measurement radiation, or in the beam of pump radiation used to generate high harmonic radiation in a HHG source. Where located in in the beam of pump radiation, the compensatory optical device may be used to correct pointing errors, or impart a desired profile or varying illumination pattern in a beam of the measurement radiation.Type: GrantFiled: August 22, 2017Date of Patent: June 25, 2019Assignee: ASML Netherlands B.V.Inventors: Peter Danny Van Voorst, Nan Lin, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen, Sietse Thijmen Van Der Post
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Publication number: 20190155171Abstract: Disclosed is a method of performing a measurement in an inspection apparatus; and an associated inspection apparatus and HHG source. The method comprises configuring one or more controllable characteristics of at least one driving laser pulse of a high harmonic generation radiation source to control the output emission spectrum of illumination radiation provided by the high harmonic generation radiation source; and illuminating a target structure with said illuminating radiation. The method may comprise configuring the driving laser pulse so that the output emission spectrum comprises a plurality of discrete harmonic peaks. Alternatively the method may comprise using a plurality of driving laser pulses of different wavelengths such that the output emission spectrum is substantially monochromatic.Type: ApplicationFiled: January 23, 2019Publication date: May 23, 2019Applicant: ASML Netherlands B.V.Inventors: Nan LIN, Arie Jeffrey Den Boeff, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen, Niels Geypen
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Patent number: 10267744Abstract: Disclosed is an illumination source for generating measurement radiation for an inspection apparatus. The source generates at least first measurement radiation and second measurement radiation such that the first measurement radiation and the second measurement radiation interfere to form combined measurement radiation modulated with a beat component. The illumination source may be a HHG source. Also disclosed is an inspection apparatus comprising such a source and an associated inspection method.Type: GrantFiled: July 5, 2017Date of Patent: April 23, 2019Assignee: ASML Netherlands B.V.Inventors: Patricius Aloysius Jacobus Tinnemans, Nan Lin, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen
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Patent number: 10248029Abstract: A method involving a radiation intensity distribution for a target measured using an optical component at a gap from the target, the method including: determining a value of a parameter of interest using the measured radiation intensity distribution and a mathematical model describing the target, the model including an effective medium approximation for roughness of a surface of the optical component or a part thereof.Type: GrantFiled: July 5, 2016Date of Patent: April 2, 2019Assignee: ASML Netherlands B.V.Inventors: Sietse Thijmen Van Der Post, Ferry Zijp, Sander Bas Roobol
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Patent number: 10234771Abstract: Disclosed is a method of performing a measurement in an inspection apparatus, and an associated inspection apparatus and HHG source. The method comprises configuring one or more controllable characteristics of at least one driving laser pulse of a high harmonic generation radiation source to control the output emission spectrum of illumination radiation provided by the high harmonic generation radiation source; and illuminating a target structure with said illuminating radiation. The method may comprise configuring the driving laser pulse so that the output emission spectrum comprises a plurality of discrete harmonic peaks. Alternatively the method may comprise using a plurality of driving laser pulses of different wavelengths such that the output emission spectrum is substantially monochromatic.Type: GrantFiled: April 14, 2017Date of Patent: March 19, 2019Assignee: ASML Netherlands B.VInventors: Nan Lin, Arie Jeffrey Den Boef, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen, Niels Geypen
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Publication number: 20190049393Abstract: A detector for detecting diffracted radiation which has been diffracted by a regular structure; said detector comprises: a sensor for sensing at least a portion of said diffracted radiation, said sensor having a first region and a second region; a first coating configured to allow transmission of radiation with wavelengths within a first range of wavelengths; and a second coating configured to allow transmission of radiation with wavelengths within a second range of wavelengths; wherein said first coating coats said first region of said sensor, and said second coating coats said second region of said sensor, and wherein said first and second regions are different regions.Type: ApplicationFiled: July 19, 2018Publication date: February 14, 2019Applicant: ASML Netherlands B.V.Inventors: Sander Bas ROOBOL, Richard Quintanilha
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Publication number: 20190025706Abstract: In a method of determining an edge roughness parameter of a periodic structure, the periodic structure is illuminated (602) in an inspection apparatus. The illumination radiation beam may comprise radiation with a wavelength in the range 1 nm to 100 nm. A scattering signal (604) is obtained from a radiation beam scattered from the periodic structure. The scattering signal comprises a scattering intensity signal that is obtained by detecting an image of a far-field diffraction pattern in the inspection apparatus. An edge roughness parameter, such as Lined Edge Roughness and/or Line Width Roughness is determined (606) based on a distribution of the scattering intensity signal around a non-specular diffraction order. This may be done for example using a peak broadening model.Type: ApplicationFiled: July 6, 2018Publication date: January 24, 2019Applicant: ASML Netherlands B.V.Inventors: Teis Johan COENEN, Sander Bas ROOBOL, Sipke Jacob BIJLSMA
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Publication number: 20190003981Abstract: Disclosed is an inspection apparatus and associated method for measuring a target structure on a substrate. The inspection apparatus comprises an illumination source for generating measurement radiation; an optical arrangement for focusing the measurement radiation onto said target structure; and a compensatory optical device. The compensatory optical device may comprise an SLM operable to spatially modulate the wavefront of the measurement radiation so as to compensate for a non-uniform manufacturing defect in said optical arrangement. In alternative embodiments, the compensatory optical device may be located in the beam of measurement radiation, or in the beam of pump radiation used to generate high harmonic radiation in a HHG source. Where located in the beam of pump radiation, the compensatory optical device may be used to correct pointing errors, or impart a desired profile or varying illumination pattern in a beam of the measurement radiation.Type: ApplicationFiled: August 13, 2018Publication date: January 3, 2019Applicant: ASML Netherlands B.V.Inventors: Peter Danny Van Voorst, Nan Lin, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen, Sietse Thijmen Van Der Post
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Patent number: 10133192Abstract: A structure of interest (T) is irradiated with radiation for example in the x-ray or EUV waveband, and scattered radiation is detected by a detector (19, 274, 908, 1012). A processor (PU) calculates a property such as linewidth (CD) or overlay (OV), for example by simulating (S16) interaction of radiation with a structure and comparing (S17) the simulated interaction with the detected radiation. The method is modified (S14a, S15a, S19a) to take account of changes in the structure which are caused by the inspection radiation. These changes may be for example shrinkage of the material, or changes in its optical characteristics. The changes may be caused by inspection radiation in the current observation or in a previous observation.Type: GrantFiled: April 21, 2017Date of Patent: November 20, 2018Assignee: ASML Netherlands B.V.Inventors: Patricius Aloysius Jacobus Tinnemans, Simon Gijsbert Josephus Mathijssen, Sander Bas Roobol, Nan Lin
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Publication number: 20180267411Abstract: Disclosed is gas delivery system which is suitable for a high harmonic generation (HHG) radiation source which may be used to generate measurement radiation for an inspection apparatus. In such a radiation source, a gas delivery element delivers gas in a first direction. The gas delivery element has an optical input and an optical input, defining an optical path running in a second direction. The first direction is arranged relative to the second direction at an angle that is not perpendicular or parallel. Also disclosed is a gas delivery element having a gas jet shaping device, or a pair of gas delivery elements, one of which delivers a second gas, such that the gas jet shaping device or second gas is operable to modify a flow profile of the gas such that the number density of the gas falls sharply.Type: ApplicationFiled: February 23, 2018Publication date: September 20, 2018Applicant: ASML Netherlands B.V.Inventors: Sudhir SRIVASTAVA, Sander Bas ROOBOL, Simon Gijsbert Josephus MATHIJSSEN, Nan LIN, Sjoerd Nicolaas Lambertus DONDERS, Krijn Frederik BUSTRAAN, Petrus Wilhelmus SMORENBURG, Gerrit Jacobus Hendrik BRUSSAARD
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Publication number: 20180254597Abstract: A radiation source arrangement causes interaction between pump radiation (340) and a gaseous medium (406) to generate EUV or soft x-ray radiation by higher harmonic generation (HHG). The operating condition of the radiation source arrangement is monitored by detecting (420/430) third radiation (422) resulting from an interaction between condition sensing radiation and the medium. The condition sensing radiation (740) may be the same as the first radiation or it may be separately applied. The third radiation may be for example a portion of the condition sensing radiation that is reflected or scattered by a vacuum-gas boundary, or it may be lower harmonics of the HHG process, or fluorescence, or scattered. The sensor may include one or more image detectors so that spatial distribution of intensity and/or the angular distribution of the third radiation may be analyzed. Feedback control based on the determined operating condition stabilizes operation of the HHG source.Type: ApplicationFiled: February 22, 2018Publication date: September 6, 2018Applicant: ASML Netherlands B.V.Inventors: Sietse Thijmen VAN DER POST, Sander Bas ROOBOL, Pavel EVTUSHENKO
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Patent number: 10067068Abstract: A lithographic apparatus is a machine that applies a desired pattern onto a substrate, usually onto a target portion of the substrate. A lithographic apparatus can be used, for example, in the manufacture of integrated circuits (ICs). The lithographic apparatus has an inspection apparatus with an illumination system that utilizes illuminating radiation with a wavelength of 2-40 nm. The illumination system includes an optical element that splits the illuminating radiation into a first and a second illuminating radiation and induces a time delay to the first or the second illuminating radiation. A detector detects the radiation that has been scattered by a target structure. The inspection apparatus has a processing unit operable to control a time delay between the first scattered radiation and the second scattered radiation so as to optimize a property of the combined first and second scattered radiation.Type: GrantFiled: December 22, 2016Date of Patent: September 4, 2018Assignee: ASML Netherlands B.V.Inventors: Arie Jeffrey Den Boef, Simon Gijsbert Josephus Mathijssen, Nan Lin, Sander Bas Roobol
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Publication number: 20180239160Abstract: A method of aligning a diffractive optical system, to be operated with an operating beam, comprises: aligning (558) the diffractive optical system using an alignment beam having a different wavelength range from the operating beam and using a diffractive optical element optimized (552) to diffract the alignment beam and the operating beam in the same (or a predetermined) direction. In an example, the alignment beam comprises infra-red (IR) radiation and the operating beam comprises soft X-ray (SXR) radiation. The diffractive optical element is optimized by providing it with a first periodic structure with a first pitch (pIR) and a second periodic structure with a second pitch (pSXR). After alignment, the vacuum system is pumped down (562) and in operation the SXR operating beam is generated (564) by a high harmonic generation (HHG) optical source pumped by the IR alignment beam’ optical source.Type: ApplicationFiled: February 16, 2018Publication date: August 23, 2018Applicant: ASML Netherlands B.V.Inventors: Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen, Stefan Michael Bruno Bäumer
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Patent number: 10048596Abstract: An method for generating illuminating radiation in an illumination apparatus for use in an inspection apparatus for use in lithographic processes is described. A driving radiation beam is provided that comprises a plurality of radiation pulses. The beam is split into first and second pluralities of driving radiation pulses. Each plurality of driving radiation pulses has a controllable characteristic. The first and second pluralities may be used to generate an illuminating radiation beam with an output wavelength spectrum. The first and second controllable characteristics are controlled so as to control first and second portions respectively of the output wavelength spectrum of the illuminating radiation beam.Type: GrantFiled: May 2, 2017Date of Patent: August 14, 2018Assignee: ASML Netherlands B.V.Inventors: Nan Lin, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen
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Publication number: 20180224753Abstract: Target structures such as overlay gratings (Ta and Tb) are formed on a substrate (W) by a lithographic process. The first target is illuminated with a spot of first radiation (456a, Sa) and simultaneously the second target is illuminated with a spot of second radiation (456b, Sb). A sensor (418) detects at different locations, portions (460x?, 460x+) of said first radiation that have been diffracted in a first direction by features of the first target and portions (460y?, 460y+) of said second radiation that have been diffracted in a second direction by features of the second target. Asymmetry in X and Y directions can be detected simultaneously, reducing the time required for overlay measurements in X and Y. The two spots of radiation at soft x-ray wavelength can be generated simply by exciting two locations (710a, 710b) in a higher harmonic generation (HHG) radiation source or inverse Compton scattering source.Type: ApplicationFiled: January 19, 2018Publication date: August 9, 2018Applicant: ASML Netherlands B.V.Inventors: Simon Gijsbert Josephus MATHIJSSEN, Sander Bas Roobol, Nan Lin, Willem Marie Julia Marcel Coene, ArIe Jeffrey Den Boef
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Publication number: 20180188658Abstract: A method involving a radiation intensity distribution for a target measured using an optical component at a gap from the target, the method including: determining a value of a parameter of interest using the measured radiation intensity distribution and a mathematical model describing the target, the model including an effective medium approximation for roughness of a surface of the optical component or a part thereof.Type: ApplicationFiled: July 5, 2016Publication date: July 5, 2018Applicant: ASML Netherlands B.V.Inventors: Sietse Thijmen VAN DER POST, Ferry ZIJP, Sander Bas ROOBOL
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Publication number: 20180136568Abstract: Disclosed is an illumination source apparatus comprising a high harmonic generation medium, a pump radiation source and a spatial filter. The pump radiation source emits a beam of pump radiation having a profile comprising no pump radiation in a central region of the beam and excites the high harmonic generation medium so as to generate high harmonic radiation. The pump radiation and the generated high harmonic radiation are spatially separated beyond the focal plane of the beam of pump radiation The spatial filter is located beyond a focal plane of the beam of pump radiation, and blocks the pump radiation. Also disclosed is a method of generating high harmonic measurement radiation optimized for filtration of pump radiation therefrom.Type: ApplicationFiled: October 19, 2017Publication date: May 17, 2018Applicant: ASML Netherlands B.V.Inventors: Sander Bas ROOBOL, Simon Gijsbert Josephus MATHIJSSEN
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Publication number: 20180073992Abstract: Disclosed is an inspection apparatus and associated method for measuring a target structure on a substrate. The inspection apparatus comprises an illumination source for generating measurement radiation; an optical arrangement for focusing the measurement radiation onto said target structure; and a compensatory optical device. The compensatory optical device may comprise an SLM operable to spatially modulate the wavefront of the measurement radiation so as to compensate for a non-uniform manufacturing defect in said optical arrangement. In alternative embodiments, the compensatory optical device may be located in the beam of measurement radiation, or in the beam of pump radiation used to generate high harmonic radiation in a HHG source. Where located in in the beam of pump radiation, the compensatory optical device may be used to correct pointing errors, or impart a desired profile or varying illumination pattern in a beam of the measurement radiation.Type: ApplicationFiled: August 22, 2017Publication date: March 15, 2018Applicant: ASML Netherlands B.V.Inventors: Peter Danny VAN VOORST, Nan Lin, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen, Sietse Thijmen Van Der Post
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Publication number: 20180011029Abstract: Disclosed is an illumination source for generating measurement radiation for an inspection apparatus. The source generates at least first measurement radiation and second measurement radiation such that the first measurement radiation and the second measurement radiation interfere to form combined measurement radiation modulated with a beat component. The illumination source may be a HHG source. Also disclosed is an inspection apparatus comprising such a source and an associated inspection method.Type: ApplicationFiled: July 5, 2017Publication date: January 11, 2018Applicant: ASML Netherlands B.V.Inventors: Patricius Aloysius Jacobus TINNEMANS, Nan Lin, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen
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Publication number: 20170322497Abstract: An method for generating illuminating radiation in an illumination apparatus for use in an inspection apparatus for use in lithographic processes is described. A driving radiation beam is provided that comprises a plurality of radiation pulses. The beam is split into first and second pluralities of driving radiation pulses. Each plurality of driving radiation pulses has a controllable characteristic. The first and second pluralities may be used to generate an illuminating radiation beam with an output wavelength spectrum. The first and second controllable characteristics are controlled so as to control first and second portions respectively of the output wavelength spectrum of the illuminating radiation beam.Type: ApplicationFiled: May 2, 2017Publication date: November 9, 2017Applicant: ASML Netherlands B.V.Inventors: Nan LIN, Sander Bas Roobol, Simon Gijsbert Josephus Mathijssen