Methods and scatterometers, lithographic systems, and lithographic processing cells

What is claimed is: 1. A method of determining a focus of a lithographic apparatus used in a lithographic process on a substrate, the method comprising: forming a periodic structure on the substrate, the periodic structure comprising at least one feature having a profile which has an asymmetry, the asymmetry depending on the focus of the lithographic apparatus on the substrate; stopping, using a stop arrangement and an illumination arrangement together, zero order diffracted radiation from contributing to a first image and a second image of the periodic structure; detecting a first image of the periodic structure while illuminating the periodic structure with a first beam of radiation from the illumination arrangement to generate a first measurement, the first image being formed using a first part of non-zero order diffracted radiation while excluding zero order diffracted radiation; detecting a second image of the periodic structure while illuminating the periodic structure with a second beam of radiation from the illumination arrangement to generate a second measurement; the second image being formed using a second part of the non-zero order diffracted radiation which is symmetrically opposite to the first part in a diffraction spectrum; determining the asymmetry in the profile of periodic the structure based on the first and second images detected in the first and second measurements; and providing an indication of the focus on the substrate based on the determined asymmetry and a relationship between the focus and the determined asymmetry. 2. The method according to claim 1 , in which the first and second parts of the non-zero diffraction orders are different ones of at least a portion of each of +1st and −1st orders. 3. The method according to claim 1 , wherein an area of the periodic structure is less than at least one of an area of the first beam of radiation and an area of the second beam of radiation on the substrate. 4. The method according to claim 1 , wherein the first and second symmetrically opposed parts of the non-zero order diffracted radiation comprise +1 and −1 order diffracted radiation. 5. The method according to claim 1 , wherein, in, an optical system used in the first and second measurements, the first, and second beams of radiation have angles of incidence on the periodic structure which are symmetrically off-axis with respect to the optical system, and the first and second images are formed and detected using radiation which is diffracted by the periodic structure into a narrower range of angles centered on an optical axis. 6. The method according to claim 1 , further comprising: repeating the first and second measurements a plurality of times for structures formed by the lithographic apparatus using different focus values, the structures each comprising at least one feature having a profile which has an asymmetry, the asymmetry depending on the focus of the lithographic apparatus on the substrate; and using the images detected in the repeated first and second measurements in determining the relationship between the asymmetry and the focus on the substrate. 7. The method according to claim 1 , wherein the determining comprises: measuring an intensity of selected portions of the first and second, images. 8. The method according to claim 6 , further comprising: determining the relationship between the asymmetry and the focus on the substrate using lithographic simulations. 9. The method according to claim 7 , further comprising: repeating the first and second measurements a plurality of times for structures formed by the lithographic apparatus using different focus values, the structures each comprising at least one feature having a profile which has an asymmetry, the asymmetry depending on the focus of the lithographic apparatus on the substrate; and using the images detected in the repeated first and second measurements in determining a relationship between the intensity of the selected portions of the images and the focus on the substrate. 10. The method according to claim 9 , further comprising: determining the relationship between the intensity of the selected portions and the focus on the substrate using lithographic simulations. 11. An angularly resolved scatterometer configured to determine a focus of a lithographic apparatus used in a lithographic process on a substrate, wherein the lithographic process is used to form a structure on the substrate, the structure comprising at least one feature having a profile which has an asymmetry, the asymmetry depending on the focus of the lithographic apparatus on the substrate, the scatterometer comprising: an illumination arrangement configured to deliver first and second beams of radiation to the substrate for use in first and second measurements; a detection arrangement operable during the first and second measurements to form and detect respective first and second images of the structure using radiation diffracted from the substrate; and a stop arrangement within the detection arrangement, wherein the illumination arrangement and stop arrangement together are effective to stop zero order diffracted radiation contributing to the first and second images, while the first and second images are formed using first and second parts respectively of non-zero order diffracted radiation, the first and second parts being symmetrically opposite one another in a diffraction spectrum of the diffracted radiation; and a computational arrangement configured to determine the asymmetry for the feature from the first and second images and/or to use the determined asymmetry and a relationship between the focus and the asymmetry for each feature to provide an indication of the focus on the substrate. 12. The scatterometer according to claim 11 , in which, when the structure has a certain periodicity, the detection arrangement is configured to measure +1st and −1st orders as the first and second, parts of the diffracted radiation. 13. The scatterometer according to claim 11 , wherein the computational arrangement is configured to compare selected portions of the first and second images, when an area of the structure is less than an area of the substrate represented in the first and second images. 14. The scatterometer according to claim 11 , wherein the first and second symmetrically opposed parts of the non-zero order diffracted radiation comprise substantially +1 and −1 order radiation. 15. The scatterometer according to claim 11 , wherein, in an optical system used in the measurements, the first and second beams of radiation have angles of incidence on the structure which are symmetrically off-axis with respect to the optical system, and the first and second images are formed and detected using radiation which is diffracted by the structure into a narrower range of angles centered on an optical axis. 16. The scatterometer according to claim 11 , wherein the computational arrangement is configured to: select and compare respective portions of the first and second images for each of a plurality of structures formed using different focus values, each structure comprising at least one feature having, a profile which has an asymmetry, the asymmetry depending on the focus of the lithographic apparatus; and use the selected portions of the images in determining a relationship between the asymmetry and the focus on the substrate. 17. The scatterometer according to claim 11 , in which the asymmetry is determined from measuring an intensity of the first and second images of the structure. 18. The