Patent Number: 
Section: claims

1. A drawing apparatus configured to perform drawing on a substrate with a plurality of charged particle beams, the drawing apparatus comprising:an irradiation optical system including a collimator lens on which a diverging charged particle beam is incident;an aperture array configured to split the charged particle beam from the irradiation optical system into a plurality of charged particle beams;a converging lens array configured to form a plurality of crossovers of the plurality of charged particle beams from the aperture array; anda projection optical system including an element in which a plurality of apertures corresponding to the plurality of crossovers are formed, and a plurality of projection lenses corresponding to the plurality of apertures and configured to project charged particle beams from the plurality of apertures onto the substrate,wherein the converging lens array includes converging lenses disposed such that each of the plurality of crossovers, which are formed by the converging lenses from the charged particle beam incident on the aperture array at incidence angles associated with aberration of the irradiation optical system, is aligned with corresponding one of the plurality of apertures in the element, andthe converging lenses include a converging lens eccentric relative to corresponding one of the plurality of apertures in the element. 2. The drawing apparatus according to claim 1, wherein the eccentric converging lenses is eccentric so as to compensate for the aberration of the irradiation optical system. 3. The drawing apparatus according to claim 1, wherein the collimator lens has a front focal plane located at a position deviating from a position of a crossover from which a charged particle beam diverges and is incident on the collimator lens. 4. The drawing apparatus according to claim 1, wherein the aperture array includes an aperture eccentric relative to corresponding one of the plurality of apertures in the element with the eccentric converging lens. 5. The drawing apparatus according to claim 1, wherein the aperture array is disposed at a front focal plane of the converging lens array, and includes an aperture eccentric relative to corresponding one of the plurality of apertures in the element with the eccentric converging lens by the same amount as the eccentric converging lens. 6. The drawing apparatus according to claim 1, wherein the aperture array is disposed at a position deviating from a front focal plane of the converging lens array, and includes an aperture which is eccentric relative to corresponding one of the plurality of apertures in the element with the eccentric converging lens by an amount different from that by which the eccentric converging lens is eccentric. 7. The drawing apparatus according to claim 1, wherein the drawing apparatus comprises a plurality of groups arranged in parallel, each group including the irradiation optical system, the aperture array, the converging lens array, and the projection optical system. 8. The drawing apparatus according to claim 1, wherein the element includes a blanker array. 9. The drawing apparatus according to claim 1, wherein the element includes a stop aperture array. 10. A drawing apparatus configured to perform drawing on a substrate with a plurality of charged particle beams, the drawing apparatus comprising:an irradiation optical system including a collimator lens on which a diverging charged particle beam is incident;an aperture array configured to split the charged particle beam from the irradiation optical system into a plurality of charged particle beams;a converging lens array configured to form a plurality of crossovers of the plurality of charged particle beams from the aperture array; anda projection optical system including an element in which a plurality of apertures corresponding to the plurality of crossovers are formed, and a plurality of projection lenses corresponding to the plurality of apertures and configured to project charged particle beams from the plurality of apertures onto the substrate,wherein the converging lens array includes a converging lens eccentric relative to corresponding one of the plurality of apertures in the element,wherein the irradiation optical system is configured to adjust an aberration thereof such that each of the plurality of crossovers, which are formed by the converging lenses from the charged particle beam incident on the aperture array at incidence angles associated with the aberration of the irradiation optical system, is aligned with corresponding one of the plurality of apertures in the element. 11. The drawing apparatus according to claim 10, wherein the collimator lens includes a plurality of charged particle lenses, andwherein the irradiation optical system is configured to adjust at least one of a power and position of each of the plurality of charged particle lenses so as to change the aberration with a front focal plane position and a front principal plane position of the collimator lens kept. 12. The drawing apparatus according to claim 10, wherein the irradiation optical system is configured to form an irradiation optical system crossover at a front-side position of the collimator lens, andwherein the irradiation optical system is configured to adjust the aberration by adjusting a focal length of the collimator lens, and adjusts a position of the irradiation optical system crossover in accordance with the adjusted focal length. 13. The drawing apparatus according to claim 12, wherein the irradiation optical system includes a charged particle source, andwherein the irradiation optical system is configured to adjust the position of the irradiation optical system crossover by displacement of the charged particle source. 14. The drawing apparatus according to claim 12, wherein the irradiation optical system includes a crossover adjustment optical system arranged at a front side of the irradiation optical system crossover, andwherein the irradiation optical system is configured to adjust the positions of the irradiation optical system crossover by adjustment of a power of the crossover adjustment optical system. 15. The drawing apparatus according to claim 10, wherein the eccentric converging lens is eccentric so as to compensate for the aberration of the irradiation optical system. 16. The drawing apparatus according to claim 10, wherein the collimator lens has a front focal plane located at a position deviating from a position of a crossover from which a charged particle beam diverges and is incident on the collimator lens. 17. The drawing apparatus according to claim 10, wherein the aperture array includes an aperture eccentric relative to corresponding one of the plurality of apertures in the element with the eccentric converging lens. 18. The drawing apparatus according to claim 10, wherein the aperture array is disposed at a front focal plane of the converging lens array, and includes an aperture eccentric relative to corresponding one of the plurality of apertures in the element with the eccentric converging lens by the same amount as the eccentric converging lens. 19. The drawing apparatus according to claim 10, wherein the aperture array is disposed at a position deviating from a front focal plane of the converging lens array, and includes an aperture which is eccentric relative to corresponding one of the plurality of apertures in the element with the eccentric converging lens by an amount different from that by which the eccentric converging lens is eccentric. 20. The drawing apparatus according to claim 10, wherein the drawing apparatus includes a plurality of groups arranged in parallel, each group including the irradiation optical system, the aperture array, the converging lens array, and the projection optical system. 21. The drawing apparatus according to claim 10, wherein the element includes a blanker array. 22. The drawing apparatus according to claim 10, wherein the element includes a stop aperture array. 23. A method of manufacturing an article, the method comprising:performing drawing on a substrate using a drawing apparatus;developing the substrate on which the drawing has been performed; andprocessing the developed substrate to manufacture the article,wherein the drawing apparatus is configured to perform drawing on the substrate with a plurality of charged particle beams, the drawing apparatus including:an irradiation optical system including a collimator lens on which a diverging charged particle beam is incident;an aperture array configured to split the charged particle beam from the irradiation optical system into a plurality of charged particle beams;a converging lens array configured to form a plurality of crossovers of the plurality of charged particle beams from the aperture array; anda projection optical system including an element in which a plurality of apertures corresponding to the plurality of crossovers are formed, and a plurality of projection lenses corresponding to the plurality of apertures and configured to project charged particle beams from the plurality of apertures onto the substrate,wherein the converging lens array includes converging lenses disposed such that each of the plurality of crossovers, which are formed by the converging lenses from the charged particle beam incident on the aperture array at incidence angles associated with aberration of the irradiation optical system, is aligned with corresponding one of the plurality of apertures in the element, andthe converging lenses includes a converging lens eccentric relative to corresponding one of the plurality of apertures in the element. 24. A method of manufacturing an article, the method comprising:performing drawing on a substrate using a drawing apparatus;developing the substrate on which the drawing has been performed; andprocessing the developed substrate to manufacture the article,wherein the drawing apparatus is configured to perform drawing on the substrate with a plurality of charged particle beams, the drawing apparatus including:an irradiation optical system including a collimator lens on which a diverging charged particle beam is incident;an aperture array configured to split the charged particle beam from the irradiation optical system into a plurality of charged particle beams;a converging lens array configured to form a plurality of crossovers of the plurality of charged particle beams from the aperture array; anda projection optical system including an element in which a plurality of apertures corresponding to the plurality of crossovers are formed, and a plurality of projection lenses corresponding to the plurality of apertures and configured to project charged particle beams from the plurality of apertures onto the substrate,wherein the converging lens array includes a converging lens eccentric relative to corresponding one of the plurality of apertures in the element,wherein the irradiation optical system is configured to adjust an aberration thereof such that each of the plurality of crossovers, which are formed by the converging lenses from the charged particle beam incident on the aperture array at incidence angles associated with the aberration of the irradiation optical system, is aligned with corresponding one of the plurality of apertures in the element.