Patent Number: 
Section: claims

1. A method for correcting an electron energy loss spectral image acquired by a transmission electron microscope having an electron spectroscope, the method comprising steps of:acquiring a two-dimensional standard spectral image with a first axis representing the amount of an energy loss and a second axis representing positional information;comparing a spectrum extracted from the standard spectral image at a standard position with a spectrum extracted from the standard spectral image at each position other than the standard position and calculating correction information at each position based on a difference between the spectrum at the standard position and the spectrum at each position other than the standard position, the difference based on a zero loss spectral image or an electron energy loss spectral image acquired from a sample to be analyzed;acquiring an electron energy spectral image from the sample;correcting the spectrum of the spectral image from the sample at each position based on the correction information. 2. The method according to claim 1, whereinthe standard spectral image is at least one of a zero loss spectral image and an electron energy spectral image acquired from a reference sample made of a single type of composition. 3. The method according to claim 1, further comprising the steps of:storing the calculated correction information in a storage device; andcorrecting a spectrum for each piece of the positional information included in the electron energy loss spectral image based on the stored correction information. 4. A transmission electron microscope comprising:an electron gun for emitting an electron beam;a convergent lens group for causing the electron beam emitted by the electron gun to converge;an imaging lens group for imaging the electron beam after the electron beam passes through a sample;an image detector for detecting an image of the electron beam;a view field restriction slit for selecting an area that is to be observed and is included in the sample;an electron spectroscope for spectrally decomposing the electron beam based on the amount of energy of the electron beam after the electron beam passes through the sample;a spectrum correction system; anda data storage device, wherein:the electron spectroscope outputs a spectral image acquired by setting a focal point of the electron beam focused in a energy dispersion direction on a plane and by setting another focal point of the electron beam focused in a direction perpendicular to the energy dispersion direction on another plane,the spectrum correction system:compares a spectrum extracted from a standard spectral image at a standard position with a spectrum extracted from the standard spectral image at each position other than the standard position,calculates correction information at each position based on a difference between the spectrum at the standard position and the spectrum at each position other than the standard position, the difference based on a zero loss spectral image or an electron energy loss spectral image acquired from a sample to be analyzed, andcorrects the spectrum of the spectral image from the sample at each position based on the correction information, andthe data storage device stores the corrected spectrum therein. 5. The transmission electron microscope according to claim 4, whereinthe standard spectral image is a zero loss spectral image or an electron energy loss spectral image acquired from a reference sample made by a single type of composition. 6. The transmission electron microscope according to claim 4, further comprising a spectrum difference calculation button to cause the spectrum correction system to start to correct a spectrum included in the spectral image acquired from the sample. 7. The transmission electron microscope according to claim 4, further comprising a spectrum area selection tool capable of arbitrarily setting the standard portion of the standard spectral image.