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An imaging (e.g., lithographic) apparatus for generating an elongated concentrated scan image on an imaging surface of a scan structure (e.g., a drum cylinder) that moves in a process (cross-scan) direction. The apparatus includes a spatial light modulator having a two-dimensional array of light mod

An imaging (e.g., lithographic) apparatus for generating an elongated concentrated scan image on an imaging surface of a scan structure (e.g., a drum cylinder) that moves in a process (cross-scan) direction. The apparatus includes a spatial light modulator having a two-dimensional array of light modulating elements for modulating a two-dimensional light field in response to predetermined scan image data, and an anamorphic optical system is used to anamorphically image and concentrate the modulated light onto an elongated imaging region defined on the imaging surface. To avoid smearing, movement of the imaging surface is synchronized by an image position controller with the modulated states of the light modulating elements such that image features of the scan image are scrolled (moved in the cross-scan direction) at the same rate as the cross-scan movement of the imaging surface, whereby the features remain coincident with the same portion of the imaging surface.

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1. An apparatus for generating an elongated concentrated scan image in response to predetermined scan image data, the apparatus comprising: a spatial light modulator including a plurality of light modulating elements arranged in a two-dimensional array, each light modulating element including a ligh

1. An apparatus for generating an elongated concentrated scan image in response to predetermined scan image data, the apparatus comprising: a spatial light modulator including a plurality of light modulating elements arranged in a two-dimensional array, each light modulating element including a light modulating structure and an associated control cell for storing an associated image data bit value, said each light modulating element being disposed such that said light modulating structure receives an associated light portion of a substantially uniform two-dimensional homogenous light field and is controlled according to the associated image data bit value between a first modulated state and a second modulated state, wherein when the light modulating structure of said each modulating element is in said first modulated state said each modulating element directs said received associated light portion in a corresponding predetermined direction, and when said light modulating structure of said each modulating element is in said second modulated state, said received associated light portion is prevented from passing along said corresponding predetermined direction by said each modulating element;an anamorphic optical system positioned to receive a modulated light field including modulated light portions directed by each of the plurality of light modulating elements disposed in the first modulated state, and configured to generate an associated anamorphically concentrated light field in response to said receive modulated light field;a scan structure having a movable imaging surface and positioned relative to the anamorphic optical system such that the anamorphically converged light field forms said elongated concentrated scan image on an elongated imaging region defined on the imaging surface; andan image position controller including means for synchronizing a cross-scan movement of the imaging surface with the modulated states of said plurality of light modulating elements in accordance with said predetermined scan image data by causing image data bit values to shift between predetermined selected modulating elements of the plurality of light modulating elements such that an image feature of said elongated concentrated scan image scrolls in the cross-scan direction at a same rate as said cross-scan movement of the imaging surface,wherein the anamorphic optical system includes a cross-process optical subsystem including first and second cylindrical or acylindrical focusing lenses arranged to image and project said received light portions onto the elongated imaging region in a cross-process direction, andwherein the anamorphic optical system further comprises a process-direction optical subsystem including a third cylindrical or acylindrical focusing lens arranged to focus said light portions received from the cross-process optical subsystem onto the elongated imaging region in a process direction. 2. The apparatus according to claim 1, wherein the plurality of light modulating elements are arranged in a plurality of rows and a plurality of columns, wherein each said column includes an associated group of said plurality of light modulating elements,wherein the anamorphic optical system is arranged to concentrate modulated light portions received from each associated group of said plurality of light modulating elements of each said column onto an associated scan line portion of said elongated concentrated scan image, andwherein said image position controller includes data control means for writing said image data bit values between each associated group of said plurality of light modulating elements of each said column such that each said image data bit value is sequentially shifted between adjacent light modulating elements of each said associated group. 3. The apparatus according to claim 1, wherein said data shifting means includes means for generating a first data frame including data bits for each of the plurality of light modulating elements, for transmitting the first data frame to the plurality of light modulating elements, for generating a modified data frame by shifting some of said data bit values associated with a first group of the plurality of light modulating elements and incorporating into said modified data frame a new set of data bit values for a second group of the plurality of light modulating elements. 4. The apparatus according to claim 2, wherein said spatial light modulator further comprises at least one shift register circuit including means for shifting a data bit value from the associated control cell of a first modulating element of the plurality of light modulating elements to the associated control cell of a second modulating element of the plurality of light modulating elements when a new data bit value is written by the image position controller to the associated control cell of the first modulating element. 5. The apparatus according to claim 1, wherein the spatial light modulator comprises one of a digital micromirror device, an electro-optic diffractive modulator array, and an array of thermo-optic absorber elements. 6. The apparatus according to claim 1, wherein each of the plurality of light modulating elements of the spatial light modulator comprises a microelectromechanical (MEMs) mirror mechanism disposed on a substrate, andwherein each MEMs mirror mechanism includes a mirror and means for supporting and moving the mirror in accordance with said associated image data bit value between a first tilted position relative to the substrate and a second tilted position relative to the substrate. 7. The apparatus according to claim 6, wherein said spatial light modulator further comprises at least one shift register circuit including means for shifting a data bit value from the associated control cell of a first modulating element of the plurality of light modulating elements to the associated control cell of a second modulating element of the plurality of light modulating elements. 8. The apparatus according to claim 6, wherein the spatial light modulator and the anamorphic optical system are cooperatively positioned such that, when the mirror of each said MEMs mirror mechanism of said spatial light modulator is in the first tilted position, said mirror reflects said associated received light portion to the anamorphic optical system, and when said mirror of each said MEMs mirror mechanism is in the second tilted position, said mirror reflects said associated received light portion away from the anamorphic optical system. 9. The apparatus according to claim 8, further comprising a heat sink fixedly positioned relative to said spatial light modulator such that when said mirror of each said MEMs mirror mechanism is in the second tilted position, said mirror reflects said associated received light portion onto said heat sink. 10. An apparatus comprising: at least one homogenous light source for generating homogenous light,a spatial light modulator including: a plurality of light modulating elements arranged in a two-dimensional array and disposed such that a light modulating structure of each said modulating element receives an associated portion of the homogenous light, andone or more shift register circuits including a plurality of control cells and means for sequentially shifting data bit values between adjacent pairs of the plurality of control cells,wherein each of the plurality of light modulating elements is controlled by a corresponding control cell of the plurality of control cells such that the light modulating structure of said each modulating element is disposed in a first modulated state when said corresponding control cell stores a first data bit value and is disposed in a second modulated state when said corresponding control cell stores a second data bit value, and wherein when the light modulating structure of said each modulating element is in said first modulated state, said each modulating element directs said associated received homogenous light portion in a corresponding predetermined direction, and when said light modulating structure of said each modulating element is in said second modulated state, said associated received light portion is prevented from passing along said corresponding predetermined direction by said each modulating element;an anamorphic optical system positioned to receive a modulated light field including modulated light portions directed by each of the plurality of light modulating elements disposed in the first modulated state, and configured to generate an associated anamorphically concentrated light field in response to said receive modulated light field; anda scan structure having a movable imaging surface and positioned relative to the anamorphic optical system such that the anamorphically converged light field forms an elongated concentrated scan image on an elongated imaging region defined on the imaging surface,wherein the anamorphic optical system includes a cross-process optical subsystem including first and second cylindrical or acylindrical focusing lenses arranged to image and project said received light portions onto the elongated imaging region in a cross-process direction, andwherein the anamorphic optical system further comprises a process-direction optical subsystem including a third cylindrical or acylindrical focusing lens arranged to focus said light portions received from the cross-process optical subsystem onto the elongated imaging region in a process direction. 11. The apparatus of claim 10, further comprising an image position controller including means for synchronizing a cross-scan movement of the imaging surface of the scan structure with the modulated states of said plurality of light modulating elements in accordance with predetermined scan line image data by causing said one or more shift register circuits to shift image data bit values between said adjacent pairs of the plurality of control cells such that an image feature of said elongated concentrated scan image is displaced in the cross-scan direction in synchronization with said cross-scan movement of the imaging surface. 12. The apparatus according to claim 10, wherein the plurality of light modulating elements are arranged in a plurality of rows and a plurality of columns, wherein each said column includes an associated group of said plurality of light modulating elements,wherein the one or more shift register circuits includes a plurality of shift register circuits, each shift register circuit including a group of said control cells corresponding to a corresponding associated group of said plurality of light modulating elements of a corresponding column. 13. The apparatus according to claim 12, further comprising means for writing a frame of said data bit values into said plurality of shift register circuits and for controlling said plurality of shift register circuits in accordance with predetermined scan line image data such that first data bit values are shifted from first control cells of each said shift register into second control cells of each said shift register, and second data bit values of the frame are written into the first control cells of each said shift register. 14. The apparatus according to claim 12, wherein the spatial light modulator comprise one of a digital micromirror device, an electro-optic diffractive modulator array, and an array of thermo-optic absorber elements. 15. The apparatus according to claim 10, wherein each of the plurality of light modulating elements of the spatial light modulator comprises a microelectromechanical (MEMs) mirror mechanism disposed on a substrate, andwherein each MEMs mirror mechanism includes a mirror and means for supporting and moving the mirror in accordance with said associated image data bit value between a first tilted position relative to the substrate and a second tilted position relative to the substrate. 16. An apparatus comprising: at least one homogenous light source for generating homogenous light,a spatial light modulator including: a plurality of light modulating elements arranged in a two-dimensional array, each of the plurality of light modulating elements including a microelectromechanical (MEMs) mirror mechanism disposed on a substrate, wherein each MEMs mirror mechanism includes a mirror and means for movably supporting the mirror, said plurality of light modulating elements being disposed such that said mirror of each said modulating element receives an associated portion of the homogenous light, andone or more shift register circuits including a plurality of control cells and means for sequentially shifting data bit values between adjacent pairs of the plurality of control cells,wherein each of the plurality of light modulating elements is controlled by a corresponding control cell of the plurality of control cells such that the mirror of said each modulating element is disposed in a first modulated position when said corresponding control cell stores a first data bit value and is disposed in a second modulated position when said corresponding control cell stores a second data bit value; andan anamorphic optical system positioned to receive a modulated light field including modulated light portions directed by each of the plurality of light modulating elements disposed in the first modulated position, and configured to generate an associated anamorphically concentrated light field in response to said receive modulated light field,wherein the anamorphic optical system includes a cross-process optical subsystem including first and second cylindrical or acylindrical focusing lenses arranged to image and project said received light portions onto the elongated imaging region in a cross-process direction, andwherein the anamorphic optical system further comprises a process-direction optical subsystem including a third cylindrical or acylindrical focusing lens arranged to focus said light portions received from the cross-process optical subsystem onto the elongated imaging region in a process direction.