Patent Number: 
Section: claims

1. A method of controlling the positioning of an image of a pattern in a particle-beam projection processing apparatus during exposure of a target with said image wherein said pattern is formed in a pattern defining means and is, by means of a beam of electrically charged particles, imaged through a particle-optical projecting system onto said target, said method comprising the following steps:imaging a number of reference marks provided in said pattern defining means through the same projecting system onto a corresponding number of registering means positioned at locations of desired positions of images of the reference marks,detecting images of said reference marks at said registering means generating corresponding signals,processing said signals in a control means and deriving control signals for adjusting the imaging properties of said projecting system and bringing said reference mark images into coincidence with said desired positions,the imaging of said pattern being done by means of at least two consecutive projector stages of said projecting system, namely, at least one non-final projector stage and one final projector stage, the latter producing said image of the pattern,whereinthe detection of reference marks images is done at the location of an intermediary image of a non-final projector stage, the registering means being positioned at locations of nominal positions of an intermediary imaging plane. 2. The method of claim 1, wherein reference beamlets formed by at least one of the reference marks are shifted laterally by deflector means provided in the pattern defining means in dependence of a time-dependent electric voltage applied to said deflector means, resulting in a corresponding time-dependent scanning movement of the respective reference mark image(s). 3. The method of claim 2, wherein the lateral shift of the reference beamlets is generated by at least two sets of electrodes, said sets being positioned in series as seen along the direction of the beamlets. 4. The method of claim 3, wherein electrode multipoles are used as said sets of electrodes. 5. A particle-beam projection processing apparatus adapted to expose a target with an image of a pattern, comprising a pattern defining means to form said pattern and a particle-optical projecting system adapted to image said pattern onto said target by means of a beam of electrically charged particles, the apparatus further comprising a positioning controlling system which comprises a control means and a number of registering means to detect images of a corresponding number of reference marks provided in said pattern defining means when imaged through the same projecting system,said registering means being positioned at locations of desired positions of images of the reference marks, and being adapted to generate signals corresponding to said images,said control means being adapted to processing said signals and deriving control signals for adjusting the imaging properties of said projecting system and bringing said reference mark images into coincidence with said desired positions,said projecting system comprising at least two consecutive projector stages for imaging said pattern, namely, at least one non-final projector stage and one final projector stage, the latter producing said image of the pattern,whereinthe registering means are positioned at locations of nominal positions of an intermediary imaging plane, the positioning controlling system being adapted to perform the detection of reference marks images at the location of an intermediary image of a non-final projector stage. 6. The apparatus of claim 5, comprising deflector means provided in the pattern defining means, said deflector means being adapted to laterally shift reference beamlets formed by at least one of the reference marks in dependence of a time-dependent electric voltage applied to said deflector means, resulting in a corresponding time-dependent scanning movement of the respective reference mark image(s). 7. The apparatus of claim 6, wherein at least two sets of electrodes are provided for generating the lateral shift of the reference beamlets, said sets being positioned in series as seen along the direction of the beamlets. 8. The apparatus of claim 7, wherein said sets of electrodes are realized as electrode multipoles.