A method, an apparatus, and a non-transitory computer-readable medium for measuring a height of a sample includes: receiving, by an optical sensor having pixels, an optical grating image of an illuminated optical grating reflected by a surface of the sample; determining, by a processor, a digital grating image by keeping values of first pixels of the optical grating image and resetting values of second pixels of the optical grating image; and determining the height based on a relationship between an integrated intensity of a portion of the digital grating image and the height.

an optical measurement apparatus includes: a probe including a transmissive optical member having a reference surface, the probe being configured to irradiate a sample with light through the reference surface, and receive a first reflected light from the reference surface, a second reflected light from a front side of the sample, and a third reflected light from a back side of the sample; and a calculator configured to calculate a first distance from the reference surface to the front side of the sample with use of a first reflection interference light to be generated by the first reflected light and the second reflected light, and to calculate a thickness of the sample with use of a second reflection interference light to be generated by the second reflected light and the third reflected light.

An optical measurement apparatus includes: a probe including a transmissive optical member having a reference surface, the probe being configured to irradiate a sample with light through the reference surface, and receive a first reflected light from the reference surface, a second reflected light from a front side of the sample, and a third reflected light from a back side of the sample; and a calculator configured to calculate a first distance from the reference surface to the front side of the sample with use of a first reflection interference light to be generated by the first reflected light and the second reflected light, and to calculate a thickness of the sample with use of a second reflection interference light to be generated by the second reflected light and the third reflected light.

A method, an apparatus, and a non-transitory computer-readable medium for measuring a height of a sample includes: receiving, by an optical sensor having pixels, an optical grating image of an illuminated optical grating reflected by a surface of the sample; determining, by a processor, a digital grating image by keeping values of first pixels of the optical grating image and resetting values of second pixels of the optical grating image; and determining the height based on a relationship between an integrated intensity of a portion of the digital grating image and the height.

A shape measuring apparatus of the present invention measures a variation in a thickness of an object to be measured WA based on an A surface reference interference light and an A surface measuring interference light obtained by performing optical heterodyne interference on a first A surface measuring light and a second A surface measuring light and a B surface reference interference light and a B surface measuring interference light obtained by performing the optical heterodyne interference on a first B surface measuring light and a second B surface measuring light. When the optical heterodyne interference is performed, the shape measuring apparatus makes the first A surface measuring light and the second B surface measuring light equal in frequency and makes the first B surface measuring light and the second A surface measuring light equal in frequency.

The present invention provides a measurement method including while driving a measurement target region of a surface of a substrate in a first direction with respect to a measurement unit, obtaining first measurement information indicating a height of the measurement target region in each of a plurality of first measurement lines parallel to the first direction and different from each other by measuring each measurement line by the measurement unit, and while driving the measurement target region with respect to the measurement unit in a second direction crossing all of the plurality of first measurement lines, obtaining second measurement information indicating a height of the measurement target region in one second measurement line parallel to the second direction by measuring the second measurement line by the measurement unit.

An inspection method uses a charged particle microscope to observe a sample and view a defect site or a circuit pattern. A plurality of images is detected by a plurality of detectors and a mixed image is generated by automatically adjusting and mixing weighting factors required when the plurality of images are synthesized with each other. The sample is irradiated and scanned with a charged particle beam so that the plurality of detectors arranged at different positions from the sample detects a secondary electron or a reflected electron generated from the sample. The mixed image is generated by mixing the plurality of images of the sample with each other for each of the plurality of detectors, which are obtained by causing each of the plurality of detectors arranged at the different positions to detect the secondary electron or the reflected electron. The generated mixed image is displayed on a screen.

A scatterometry measurement system includes an objective lens with a central obscuration and an illumination source configured to illuminate a scatterometry target through the objective lens with a first illumination beam at a first illumination angle and a second illumination beam at a second illumination angle in which the scatterometry target includes periodic structures located in at least two layers. The objective lens collects at least one diffracted order from the first illumination beam and at least one diffracted order from the second illumination beam such that the at least one diffracted order from the first illumination beam and the at least one diffracted order from the second illumination beam have a non-overlapping distribution in a portion of an imaging pupil plane not blocked by the central obscuration.

A device for measuring heights and/or thicknesses on a measurement object, includes (i) a first low-coherence interferometer for combining, in one spectrometer, a reference optical beam and a measurement optical beam originating from reflections of the light on interfaces of the measurement object, to produce a grooved spectrum signal with spectral modulation frequencies, (ii) apparatus for measuring an item of position information representative of the relative optical length, (iii) electronic and calculating apparatus arranged for determining at least one spectral modulation frequency representative of an optical path difference between the measurement optical beam and the reference optical beam, and for determining, by exploiting the item of information and the spectral modulation frequency, at least one height and/or thickness on the measurement object, and (iv) second optical apparatus for measuring distance and/or thickness with a second measurement beam incident on the measurement object on a second face opposite the measurement beam.

The present invention provides a measurement method including while driving a measurement target region of a surface of a substrate in a first direction with respect to a measurement unit, obtaining first measurement information indicating a height of the measurement target region in each of a plurality of first measurement lines parallel to the first direction and different from each other by measuring each measurement line by the measurement unit, and while driving the measurement target region with respect to the measurement unit in a second direction crossing all of the plurality of first measurement lines, obtaining second measurement information indicating a height of the measurement target region in one second measurement line parallel to the second direction by measuring the second measurement line by the measurement unit.