Patent Number: 
Section: claims

1. A charged particle beam adjustment apparatus comprising:a charged particle source;an objective lens for focusing the charged particle beam released from the charged particle source and radiating the focused charged particle beam on a sample;a charged particle optical system for scanning the charged particle beam on the sample;a detector for detecting the secondary signal particles emitted from the sample by scanning the charged particle beam;a tilt deflector for deflecting the charged particle beam out of the axis of the objective lens and tilting the charged particle beam with respect to the optical axis of the objective lens; anda control unit for controlling the charged particle optical system;wherein the control unit stores a signal amount to be applied to the tilt deflector in accordance with a selected tilt angle of the charged particle beam, compares an image acquired in a state in which the charged particle beam is not tilted by the tilt deflector with an image acquired in a state in which the charged particle beam is tilted by the tilt deflector by the selected tilt angle to determine a real tilt angle of the charged particle beam, and corrects the signal amount on the basis of the determined real tilt angle. 2. A charged particle beam adjustment apparatus according to claim 1, wherein the sample is formed in the shape of pyramid. 3. A charged particle beam adjustment apparatus according to claim 2, wherein the control unit detects edges of the two images of the pyramidal sample and compares the two images having the edges to calculate a rotation value and/or an aspect ratio between the two images. 4. A charged particle beam adjustment apparatus according to claim 1, wherein the control unit generates a signal to be applied to the charged particle optical system on the basis of the measured result. 5. A charged particle beam adjustment apparatus according to claim 4, wherein the control unit stores signals to be applied to the charged particle optical system every tilt angle of the charged particle beam. 6. A charged particle beam adjustment apparatus according to claim 4, wherein the control unit stores signals to be applied to the charged particle optical system every tilt direction of the charged particle beam. 7. A charged particle beam adjustment apparatus according to claim 1, wherein the control unit detects edges in the two images and calculates a rotation value and/or an aspect ratio between the two images. 8. A charged particle beam adjustment apparatus according to claim 1, wherein the control unit controls a scanning signal to be applied to a deflector for scanning the charged particle beam on the basis of the measured result. 9. A charged particle beam adjustment method executed in a charged particle beam apparatus, wherein said apparatus comprises: a charged particle source; an objective lens for focusing the charged particle beam released from the charged particle source and radiating the focused charged particle beam on a sample; a charged particle optical system for scanning the charged particle beam on the sample; a detector for detecting the secondary signal particles emitted from the sample by scanning the charged particle beam; a tilt deflector for deflecting the charged particle beam out of the axis of the objective lens and tilting the charged particle beam with respect to the optical axis of the objective lens; and a control unit for controlling the charged particle optical system; and wherein said method comprises the steps of:storing a signal amount to be applied to the tilt deflector in accordance with a selected tilt angle of the charged particle beam;acquiring a first image in a state in which the charged particle beam is not tilted by the tilt deflector;acquiring a second image in a state in which the charged particle beam is tilted by the tilt deflector by the selected tilt angle;comparing the first image with the second image to determine an actual tilt angle of the charged particle beam; andcorrecting the signal amount on the basis of the determined actual tilt angle.