A metrology system is presented for measuring parameters of a structure. The system comprises: an optical system and a control unit. The optical system is configured for detecting light reflection of incident radiation from the structure and generating measured data indicative of angular phase of th
A metrology system is presented for measuring parameters of a structure. The system comprises: an optical system and a control unit. The optical system is configured for detecting light reflection of incident radiation from the structure and generating measured data indicative of angular phase of the detected light components corresponding to reflections of illuminating light components having different angles of incidence. The control unit is configured for receiving and processing the measured data and generating a corresponding phase map indicative of the phase variation along at least two dimensions, and analyzing the phase map using modeled data for determining one or more parameters of the structure.
대표청구항▼
1. A metrology system for measuring parameters of a structure, the metrology system being configured for performing Optical Critical Dimension (OCD) measurements and comprising: an optical system configured for detecting light reflection of incident radiation from the structure and generating measur
1. A metrology system for measuring parameters of a structure, the metrology system being configured for performing Optical Critical Dimension (OCD) measurements and comprising: an optical system configured for detecting light reflection of incident radiation from the structure and generating measured data indicative of angular phase of the detected light components corresponding to reflections of illuminating light components having different angles of incidence, wherein the optical system comprises imaging and focusing lenses configured to create an image of a pupil of the optical system on a phase detector, thereby providing the measured data indicative of a two-dimensional phase map of the pupil, anda control unit configured for receiving and processing the measured data and generating a corresponding two-dimensional phase map of the pupil indicative of variation of the phase along at least one axis of two dimensions used in the two-dimensional phase map, analyzing the two-dimensional phase map and determining one or more parameters of the structure. 2. A metrology system according to claim 1, wherein said two-dimensional phase map of the pupil comprises angular dependent data along at least one axis. 3. A metrology system according to claim 1, wherein said two-dimensional phase map of the pupil comprises angular dependent data along one axis and spectral data along other axis. 4. A metrology system according to claim 1, wherein the two-dimensional phase map of the pupil comprises position dependent data along the two axes. 5. A metrology system according to claim 4, wherein said optical system is configured and operable for illuminating the structure with one or more wavelengths, and detecting the light reflection for said one or more wavelengths. 6. A metrology system according to claim 1, wherein said optical system is configured and operable for illuminating the structure with one or more wavelengths, and detecting the light reflection for said one or more wavelengths. 7. A metrology system according to claim 6, wherein said optical system is configured and operable for illuminating the structure with multiple wavelengths, either concurrently or sequentially. 8. A metrology system according to claim 1, wherein the optical system is configured for implementing one or more polarization schemes, for illuminating the structure with light of a specific polarization, and detecting reflected light of desired polarization, such that the angular phase in the measured data is a function of polarization. 9. A metrology system according to claim 1, further comprising an imaging channel. 10. A metrology system according to claim 9, wherein said imaging channel comprises at least one of imaging and focusing lenses. 11. A metrology system according to claim 1, wherein the optical system comprises a cylindrical lens. 12. A method for use in Optical Critical Dimension (OCD) measurements of one or more parameters of a structure, the method comprising: performing measurements on the structure, the measurements comprising collecting reflections of illuminating light components having different angles of incidence onto the structure, via a pupil of an optical system, and creating an image of the pupil on a phase detector, thereby providing measured data corresponding to a phase map of the pupil indicative of variation of the phase along at least two dimensions, andanalyzing the phase map and determining one or more parameters of the structure. 13. A method of claim 12, wherein said structure is a multi-layer structure. 14. A method of claim 12, wherein said structure is a semiconductor wafer. 15. A method of claim 14, wherein said one or more parameters of the structure comprise one or more of the following: critical dimensions (CD), side wall angle (SWA), thicknesses, refractive indices. 16. A method of claim 12, wherein said one or more parameters of the structure comprise one or more of the following: critical dimensions (CD), side wall angle (SWA), thicknesses, refractive indices. 17. A method of claim 12, wherein at least one of illuminating the structure with the illuminating light and collecting the reflections of the illuminating light is performed with a specific polarization of the respective light, such that the measured data are a function of polarization. 18. A method of claim 17, wherein said illuminating light comprises one or more wavelengths, and said collecting of the light reflection is performed for said one or more wavelengths. 19. A method of claim 12, wherein said illuminating light comprises one or more wavelengths, and said collecting of the light reflection is performed for said one or more wavelengths. 20. A method of claim 12, wherein said analyzing of the phase map and determining the one or more parameters of the structure include applying a Neural Network Technique.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.