Radiant energy – Photocells; circuits and apparatus – Optical or pre-photocell system
Reexamination Certificate
2001-08-08
2003-12-16
Pyo, Kevin (Department: 2878)
Radiant energy
Photocells; circuits and apparatus
Optical or pre-photocell system
C250S307000, C250S311000
Reexamination Certificate
active
06664532
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a method of precision calibration of magnification of a scanning microscopes with the use of test diffraction grating.
Methods of precision calibration of a magnification of scanning microscopes with the use of test diffraction gratings are known. In the existing methods a test object is positioned and oriented on a microscope stage, and corresponding part of the test objects is scanned, with subsequent processing of the thusly obtained data. It is believed that the to existing methods can be further improved.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide method of precision calibration of magnification of a scanning microscopes with the use of test diffraction grating.
In keeping with these objects and with others which will become apparent hereinafter, one feature of present invention resides, briefly stated, in a method of precision calibration of magnification of a scanning microscope with the use of test diffraction grating, which includes the steps of positioning and orientation of a test object on a stage of microscope so that strips of a test diffraction grating are perpendicular to a direction on which a calibration is performed, scanning of a selected portion of the test object along axes X and Y; measuring values of a signal S versus coordinates X and Y in a plane of scanning and storing said values S(x, y) in a digital form as a two-dimensional digital array; transforming the two-dimensional array of signals S(x, y) into a two-dimensional array S(u, v) by turning of the axes so that a direction of a new axis U is perpendicular to the strips of the grating and a direction of a new axis V coincides with the strips of the grating; line-by-line mathematical processing of the array S(u, v) including: separation from it of a one-dimensional array-line S(u) which, contains a profile of an image of periodically repeating strips of a test-object; multiplication of the line S(u) by shifting of its copy relative to an original by an integer number of periods, adjustment of a value of the shift for example by the method of least squares in accordance with a criterion of the best coincidence of the overlapping portions of the original and the copy of the line S(u), calculation of average values S(u) in the zone of overlapping as a semisum of values of the original and copy S(u) in each point of the zone; transformation of the multiplied array S(u) into an array P(w) in accordance with the formula
P
(
w
)
=
∑
j
=
1
N
/
2
[
S
(
j
)
*
S
(
j
+
w
)
]
where N is a number of members in the multiplied array S(u); determination of coordinates w
1
, w
2
, w
3
, w
4
. . . of successive maximums of the function P(w) wherein w
4
>w
3
>w
2
>w
1
>0; determination of an average period T′ of the test grating in pixels for the selected line S(u) in accordance with the formula
T
′
=
1
n
-
1
∑
i
=
1
n
-
1
(
w
i
+
1
-
w
i
)
where n is a number of maxima in the function P(w); moving to a next line S(u) with a new value of coordinates v and performing for it the same mathematical processing; performing statistic processing of obtained set of values T′ corresponding to various lines v with calculation of an average period T
av
for all lines and calculating a magnification M
u
along the direction u in accordance with the formula
M
u
=
T
av
·
L
T
o
·
N
,
wherein L is width of a medium of the image in direction of calibration, T
0
is an independently attested value of a pitch of the test object, N is a number of pixels on a line along the direction u.
When the method is performed in accordance with the present invention, the method is simpler which requires less expense for corresponding programming and it is more accurate than the existing methods.
The novel features which are considered as characteristic for the present invention are set forth in particular in the appended claims. The invention itself, however, both as to its construction and its method of operation, together with additional objects and advantages thereof, will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings
REFERENCES:
patent: 6573500 (2003-06-01), Yeremin et al.
Nikitin Arkady
Yeremin Dmitriy
General Phosphorix LLC
Pyo Kevin
Zborovsky I.
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