Patent Number: 062748769
Section: claims

1. A method of measuring a fine dimension of an object sample comprising the steps of: generating a charged particle beam;  irradiating said charged particle beam to an object sample;  detecting secondary charged particles radiated from said object sample;  generating a plurality of first values of characteristic quantity of focusing shift from a plurality of Fourier spectrum of charged particle-beam profiles of a standard sample respectively obtained at different focus shift quantities and a second value of characteristic quantity of focusing shift from a Fourier spectrum of a charged particle-beam profile of said object sample;  storing said charged particle-beam profiles of standard sample respectively corresponding to said first values of characteristic quantity, and said first values of characteristic quantity of focus shift of said standard sample and a second value of characteristic quantity of focus shift of said object sample;  estimating a beam-blur profile of said standard sample which corresponds to said second value of characteristic quantity from charged particle-beam profiles stored in said memory; and  generating a blur-separated image based upon a reduction of said charged particle-beam from said object sample image using a de-convolution operations.  a focusing-shift-evaluator which generates a plurality of first values of characteristic quantity of focusing shift from a plurality of Fourier spectrum of particle-beam profiles of a standard sample respectively obtained at different focus shift quantities, and a second value of characteristic quantity of focusing shift from a Fourier spectrum of a particle-beam profile of said object sample;  a memory for storing said particle-beam profiles of said standard sample respectively corresponding to said first values of characteristic quantity and said first values of characteristic quantities of focus shift of said standard sample and said second value of characteristic quantity of focus shift of said object sample;  a beam-blur-profile generator which estimates a beam-blur profile of said standard sample which corresponds to said second value of characteristic quantity from particle-beam profiles stored in said memory; and  blur-separation means which generates a blur-separated image based upon a reduction of said particle-beam from said object sample image using a de-convolution operation.  a display unit for displaying a set of said object sample image, said particle-beam profile of said object sample and said blur-separated image of said object sample.  performing an adjustment of an astigmatism for said particle beam;  moving an object sample to one of a plurality of inspection points set in advance for said object sample;  evaluating a plurality of first values of characteristic quantity of focusing shift from a plurality of Fourier spectrum of particle-beam profiles of a standard sample respectively obtained at different focus shift quantities and a second value of characteristic quantity of focusing shift from a Fourier spectrum of a particle-beam profile of said object sample;  storing said particle-beam profiles of said standard sample respectively corresponding to said second value of characteristic quantity, and said first values of characteristic quantity of focus shift of standard sample and second value of characteristic quantity of focus shift of said object sample;  estimating beam-blur profiles of said standard sample which correspond to said second value of characteristic quantity from said particle-beam profiles stored in said first memory; and  separating a blur-separated image based upon a reduction of said second focus shift of said object sample using a de-convolution operation.  producing a blur-separated image from a stored sample image and a one dimensional image; and  performing a dimensional measurement for the blur-separated image. 2. The method according to claim 1, wherein said charged particle beam generated in said step of generating a charged particle-beam is an electron beam. 3. An inspection apparatus employing a particle-beam having a sample-image-obtaining means for scanning said particle-beam on an object sample, the apparatus comprising: 4. The inspection apparatus according to claim 3, wherein said first values of characteristic quantity are respective spatial frequencies required from each Fourier-spectrum of said particle-beam profiles. 5. The inspection apparatus according to claim 3, further comprising: 6. An inspection method using a particle beam comprising the steps of: 7. The method according to claim 6, wherein the step of moving the object sample includes a step of detecting a height of the object sample using a Z sensor while the object sample is being moved. 8. The method according to claim 7, wherein the step of moving the object sample also includes a step of performing focus adjustment of the electron lens while the object sample is being moved. 9. The method according to claim 6, wherein the beam blur profiles estimated in said step of estimating said beam blur profiles are one dimensional images. 10. The method according to claim 6, wherein the step of estimating beam blur profiles corresponding to said second value of characteristic quantity estimates by interpolating from said plurality of particle beam profiles of said standard sample. 11. The method according to claim 8, wherein the step of inspecting said object sample includes the steps of: