Patent Number: 
Section: claims

1. A lithographic system, comprising:a support structure configured to support a patterning device, the patterning device configured to impart a beam of radiation with a pattern in its cross-section;a substrate holder configured to hold a substrate, the substrate comprising a plurality of target fields;a projection system configured to expose the patterned beam onto at least one of the target fields of the substrate, the at least one exposed target field being exposed in accordance with pre-specified exposure information; anda measurement station configured to measure an attribute of the at least one exposed target field, the at least one exposed target field being measured by the measurement station to assess deformation of the at least one exposed field induced by thermal effects of the exposure; anda controller configured to determine corrective information based on the measured field deformation and to adjust the pre-specified exposure information, based on the corrective information, to compensate for the thermally-induced field deformation,wherein the exposure information includes exposure energy information, or exposure time information, or both. 2. A lithographic system, comprising:a support structure configured to support a patterning device, the patterning device configured to impart a beam of radiation with a pattern in its cross-section;a substrate holder configured to hold a substrate, the substrate comprising a plurality of target fields;a projection system configured to expose the patterned beam onto at least one of the target fields of the substrate, the at least one exposed target field being exposed in accordance with pre-specified exposure information; anda measurement station configured to measure an attribute of the at least one exposed target field, the at least one exposed target field being measured by the measurement station to assess deformation of the at least one exposed field induced by thermal effects of the exposure; anda controller configured to determine corrective information based on the measured field deformation and to adjust the pre-specified exposure information, based on the corrective information, to compensate for the thermally-induced field deformation,wherein the controller comprises a global expansion model to predict thermally-induced field deformation, and is configured to modify the pre-specified exposure information, prior to exposure, based on the predicted thermally-induced field deformation information, andwherein the predicted thermally-induced field deformation information includes predicted deformation effects of selected points within each of the fields based on the global expansion model. 3. The lithographic system of claim 1, wherein the pre-specified exposure information adjustment includes adjustment of the pre-specified exposure field position information based on position offset information determined by the corrective information. 4. The lithographic system of claim 1, further comprising a model to predict thermally-induced field deformation information, and configured to modify the pre-specified exposure information, prior to exposure, based on the predicted thermally-induced field deformation information. 5. The lithographic system of claim 2, wherein the exposure information includes (i) exposure energy information, or (ii) exposure time information, or (iii) exposure field position information, or (iv) exposure field sequencing information, or (v) exposure field deformation information, or (vi) any combination from (i) to (v). 6. The lithographic system of claim 2, wherein the predictive model is based on:                    [        dx        ]            p        =          [                        x                      r            w                          ·                              N            i                                N            tot                          ·                  dx          max                    ]        ;                    and        ⁢                                  [        dy        ]            p        =          [                        y                      r            w                          ·                              N            i                                N            tot                          ·                  dy          max                    ]        ;  wheredxp: represents the predicted deformation along the x axis;dxmax: represents the predicted total deformation of the substrate in the x direction after the last target field has been exposed;x: represents the x coordinate of a point on the substrate;rw: represents the radius of the substrate;Ni: represents the current target field index number;Ntot: represents the total number of target fields;dymax: represents the predicted deformation along the y axis;dymax: represents the predicted total deformation of the substrate in the y direction after the last target field has been exposed; andy: represents the y coordinate of a point on the substrate. 7. The lithographic system of claim 6, wherein the pre-specified exposure information adjustment includes adjustment of the exposure field sequencing information based on the predicted thermally-induced field deformation information. 8. A lithographic system, comprising:a support structure configured to support a patterning device, the patterning device configured to impart a beam of radiation with a pattern in its cross-section;a substrate holder configured to hold a substrate, the substrate comprising a plurality of target fields;a projection system configured to expose the patterned beam onto at least one of the target fields of the substrate, the at least one exposed target field being exposed in accordance with pre-specified exposure information; anda measurement station configured to measure an attribute of the at least one exposed target field, the at least one exposed target field being measured by the measurement station to assess deformation of the at least one exposed field induced by thermal effects of the exposure; anda controller configured to determine corrective information based on the measured field deformation and to adjust the pre-specified exposure information, based on the corrective information, to compensate for the thermally-induced field deformation,wherein the controller comprises a model to predict thermally-induced field deformation, and is configured to modify the pre-specified exposure information, prior to exposure, based on the predicted thermally-induced field deformation information, andwherein the thermally-induced field deformation information includes predicted deformation effects of selected points within each of the fields of the substrate based on a time-decaying characteristic as energy is transported across the substrate. 9. The lithographic system of claim 8, wherein the predictive model is based on:dxp=ΣiTixDix; anddyp=ΣiTiyDiy; wheredxp: represents predicted deformation along the x axis;dyp: represents predicted deformation along the y axis;      T    i    =            ⅇ                        t          -                      t            i                          τ              ⁢          :      represents thermal effects of exposing one of the target fields Ci which will decay in time t as energy is transported across the substrate in either the x or y direction;τ: represents the time sensitivity constant which depends on the thermal properties of the lithographic exposure components;Di=ke−| ri− r|/χ: represents effects induced by a distance ri between the exposed target field Ci and a target field to be currently exposed in either the x or y direction;χ: represents the spatial thermal properties of the lithographic exposure components; andk: represents a proportionality constant which depends on thermal properties of the lithographic exposure components. 10. The lithographic system of claim 9, wherein the pre-specified exposure information adjustment includes adjustment of the exposure field sequencing information based on the predicted thermally-induced field deformation information. 11. A lithographic system, comprising:a support structure configured to support a patterning device, the patterning device configured to impart a beam of radiation with a pattern in its cross-section;a substrate holder configured to hold a substrate, the substrate comprising a plurality of target fields;a projection system configured to expose the patterned beam onto at least one of the target fields of the substrate, the at least one exposed target field being exposed in accordance with pre-specified exposure information; anda measurement station configured to measure an attribute of the at least one exposed target field, the at least one exposed target field being measured by the measurement station to assess deformation of the at least one exposed field induced by thermal effects of the exposure; anda controller configured to determine corrective information based on the measured field deformation and to adjust the pre-specified exposure information, based on the corrective information, to compensate for the thermally-induced field deformation,wherein the measurement station is configured to measure temperature variations on a surface of the substrate prior to exposure, and configured to generate a deformation map based on the measured substrate temperature variations. 12. The lithographic system of claim 11, wherein the controller is further configured to modify the pre-specified exposure information, prior to exposure, based on the deformation map. 13. The lithographic system of claim 11, wherein the temperature variation measurement includes thermographic imaging. 14. The lithographic system of claim 11, wherein the deformation map is characterized by:                                                                                          [                  dx                  ]                                                                                                          p                                            =                              [                                  c                  ⁢                                                                          ⁢                                                            x                      i                                                              r                      w                                                        ⁢                                      1                                          N                      i                                                        ⁢                                                            ∑                      k                                        ⁢                                          (                                                                        T                          k                                                -                                                  T                          nom                                                                    )                                                                      ]                                      ;                    ⁢                                          [          dy          ]                                                          p                    =              [                  c          ⁢                                          ⁢                                    y              i                                      r              w                                ⁢                      1                          N              i                                ⁢                                    ∑              k                        ⁢                          (                                                T                  k                                -                                  T                  nom                                            )                                      ]              ;                  ⁢    where    ⁢        dxp: represents the predicted deformation along the x axis;xi: represents the x coordinate of field i;rw: represents the radius of the substrate;c: represents a proportionality constant (thermal expansion coefficient);Ni: represents the number of fields taken into account in the summation;k: sums over the relevant fields, along the connection line between the substrate center and field i;Tk: represents the measured temperature of field k;Tnom: represents the nominal temperature for which the lithographic system is set up;yi: represents the y coordinate of field i; anddyp: represents the predicted deformation along the y axis. 15. The lithographic system of claim 12, wherein the pre-specified exposure information adjustment includes adjustment of the modified pre-specified exposure information, after the exposure, based on deformation offset information determined by the corrective information.