A drive device comprises a drive unit, a source, a filter unit, and a determining unit.

A drive device for driving an actuator of an optical system comprises: a switching amplifier for generating an amplified signal depending on a modulation signal; a filter unit connected between the actuator and the switching amplifier and having at least one inductance; a providing unit for providing a supply voltage; and a two-quadrant controller having feedback capability coupled between the providing unit and the switching amplifier.

A facet assembly is a constituent part of a facet mirror for an illumination optical unit for projection lithography. The facet assembly has a facet with a reflection surface for reflecting illumination light. A facet main body of the facet assembly has at least one hollow chamber. A reflection surface chamber wall of the hollow chamber forms at least one portion of the reflection surface. An actuator control apparatus of the facet assembly is operatively connected to the hollow chamber for the controlled deformation of the reflection surface chamber wall. The result is a facet assembly that is usable flexibly as a constituent part of a facet mirror equipped therewith within an illumination optical unit for projection lithography.

An adaptive optical element for microlithography comprises at least one manipulator for changing the shape of an optical surface of the optical element. The manipulator comprises a one-piece dielectric medium which is deformable by applying an electric field, electrodes that are arranged in interconnection with the one-piece dielectric medium, and a voltage generator which is wired to the electrodes and configured to apply to the electrodes, firstly, a control voltage that serves to change a longitudinal extent of the dielectric medium and, secondly, an AC voltage that serves to heat the dielectric medium.

An adaptive optical element for microlithography comprises at least one manipulator for changing the shape of an optical surface of the optical element. The manipulator comprises a dielectric medium which is deformable via an electric field, work electrodes for generating the electric field in the dielectric medium, and a measuring electrode for measuring temperature. The measuring electrode is arranged in a direct assemblage with the dielectric medium. The measuring electrode has a temperature-dependent resistance.

A method for measuring an actuator in a projection exposure apparatus for semiconductor lithography, comprises: driving and deflecting a first actuator with a constant control signal; deflecting a further actuator by way of the mechanical coupling; and determining the capacitance of the further actuator, which was deflected by way of the coupling. A projection exposure apparatus for semiconductor lithography comprises a control device and a measuring device, wherein the measuring device is configured to determine the capacitance of at least one actuator in the projection exposure apparatus.

A method for determining an input to a lens model to determine a setpoint for manipulation of a lens of a lithographic apparatus when addressing at least one of a plurality of fields of a substrate, the method including: receiving parameter data for the at least one field, the parameter data relating to one or more parameters of the substrate within the at least one field, the one or more parameters being at least partially sensitive to manipulation of the lens as part of an exposure performed by the lithographic apparatus; receiving lens model data relating to the lens; and determining the input based on the parameter data and on the lens model data.

An optical system comprises at least one mirror having a mirror body and a mirror surface, and at least one actuator device coupled to the mirror body and serving for deforming the mirror surface. The actuator device comprises at least one electrostrictive actuator element for generating a mechanical stress in the mirror body for deforming the mirror surface depending on an electrical drive voltage, and at least one electrostrictive sensor element for outputting a sensor signal depending on a deformation of the sensor element. The at least one sensor element is arranged directly adjacent to the actuator element and/or is arranged in such a way that it is configured at least partly for transferring the mechanical stress generated by the actuator element to the mirror body.

An optical assembly of a projection exposure apparatus for semiconductor lithography comprises an optical element and an actuator for deforming the optical element. The actuator is subjected to a bias voltage by a controller that is present. A projection exposure apparatus for semiconductor lithography comprises an optical assembly. A method for operating an actuator for deforming an optical element for semiconductor lithography comprises subjecting the actuator to a bias voltage by a controller.

A method for determining a wavefront parameter of a patterning process. The method includes obtaining a reference performance (e.g., a contour, EPE, CD) of a reference apparatus (e.g., a scanner), a lens model for a patterning apparatus configured to convert a wavefront parameter of a wavefront to actuator movement, and a lens fingerprint of a tuning apparatus (e.g., a to-be-matched scanner). Further, the method involves determining the wavefront parameter (e.g., a wavefront parameter such as tilt, offset, etc.) based on the lens fingerprint of the tuning apparatus, the lens model, and a cost function, wherein the cost function is a difference between the reference performance and a tuning apparatus performance.