Patent Number: 
Section: claims

1. A sample fabricating method including:a first step of irradiating a first ion beam at a surface of a specimen in order to form a first trench relative to the surface of the specimen, the surface of the specimen being set at a predetermined angle that is inclined relative to a right angle between the surface and an optical axis of the first ion beam during the first step of irradiating;a step of rotating the specimen approximately 180 degrees about a rotation axis perpendicular to the surface of the specimen after the first irradiating step while maintaining the specimen at the predetermined angle;a second step of irradiating a second ion beam at the surface of the specimen in order to form a second trench relative to the surface of the specimen, the first and second trenches being formed to converge within the specimen to form a bottom of a sample, the surface of the specimen being set during the second step of irradiating at the same predetermined angle at which the surface of the specimen is set during the first step of irradiating;a step of separating the sample from the specimen;a third step of irradiating a third ion beam at a surface of the specimen in order to form a third trench relative to the surface of the specimen, the surface of the specimen being set at the same predetermined angle before the step of the rotating;a fourth step of irradiating a fourth ion beam at the surface of the specimen in order to from a fourth trench relative to the surface of the specimen, the third and fourth trenches being formed to converge within the specimen to form a bottom of a second sample, the surface of the specimen being set at the same predetermined angle after the step of the rotating; anda step of separating the second sample from the specimen. 2. A sample fabricating method according to claim 1, wherein irradiation of the first ion beam is conducted so as to form the predetermined angle from 30 degrees to 75 degrees between the surface of the specimen and the optical axis of the first ion beam irradiated. 3. A sample fabricating method according to claim 1, wherein the sample separated from the specimen or prepared to be specimen from the specimen is extracted by using a probe. 4. A sample fabricating method according to claim 1, wherein the specimen is a wafer. 5. A sample fabricating method comprising:a step of placing a sample on a specimen stage;a first processing step of processing the sample by irradiating the sample in a first irradiating position with an ion beam deflected relative to a sample placement face of the specimen stage to define an irradiation angle therebetween which is larger than 0° and smaller than 90°;a second processing step of processing the sample by turning the specimen stage by about 180° about an axis perpendicular to the sample placement face without tilting the sample placement face with respect to the axis to bring the sample into a second irradiating position, and irradiating the sample again in the second irradiating position with the deflected ion beam, wherein the irradiation angle is the same for said first and second irradiating positions; anda step of extracting a sample piece obtained by the second processing step,wherein the changing of the optical axis of the ion beam to decrease or increase the irradiation angle is realized by an electric deflecting mechanism. 6. The method of claim 5, wherein the irradiation angle is in a range from 30 degrees to 75 degrees. 7. The method of claim 5, wherein, the sample is a wafer having a diameter of at least 200 mm. 8. The method of claim 5, wherein the method is a method of fabricating a first sample piece in a first region of the sample and a second sample piece in a second region of the sample, a first trench and a third trench are formed in the sample in the first processing step and a second trench and a fourth trench are formed in the sample in the second processing step, a bottom of the first sample piece is formed by the first and third trenches and a bottom of the second sample piece is formed by the second and fourth trenches, and the step of extracting the sample piece is a step of the extracting the first and the second sample pieces. 9. A sample fabricating method including:a first step of irradiating a first ion beam at a surface of a specimen in order to form first and third trenches relative to the surface of the specimen, the surface of the specimen being set at a predetermined angle that is inclined relative to a right angle between the surface and an optical axis of the first ion beam during the first step of irradiating;a step of rotating the specimen approximately 180 degrees about a rotation axis perpendicular to the surface of the specimen after the first irradiating step while maintaining the specimen at the predetermined angle;a second step of irradiating a second ion beam at the surface of the specimen in order to form second and fourth trenches relative to the surface of the specimen, the first and second trenches being formed to converge within a first region of the specimen to form a bottom of a first sample and the third and fourth trenches being formed to converge with a second region of the specimen to form a bottom of a second sample, the surface of the specimen being set during the second step of irradiating at the same predetermined angle at which the surface of the specimen is set during the first step of irradiating; anda step of separating the first and second samples from the specimen. 10. A sample fabricating method according to claim 9, wherein irradiation of the first ion beam is conducted so as to form the predetermined angle from 30 to 75 degrees between the surface of the specimen and the optical axis of the first ion beam irradiated. 11. A sample fabricating method according to claim 9, wherein the first and second samples separated from the specimen is extracted by using a probe. 12. A sample fabricating method according to claim 9, wherein the specimen is a wafer.