.CS [MM]: 2.0
[Enter the spherical aberration constant.]
.DEFOCUS (ANGSTROEMS), LAMBDA (ANGSTROEMS): 2000,0.037
[Enter the amount of defocus, in Angstroems. Positive
values correspond to underfocus (the preferred region);
negative values correspond to overfocus. Then, enter the
wavelength of the electrons. The value used in this example
corresponds to 100kV. Other values are listed below:
keV A 100 0.03700 200 0.02501 300 0.01968 400 0.01643 ]
.NUMBER OF SP. FREQU. PTS.: 128
[Enter the dimension of the 2D array. In our example,
each element of the array (K,I) corresponds to a spatial
frequency
Kx = (K-65) * DK
Ky = (I-65) * DK
where DK is defined by the next input.]
.MAXIMUM SPATIAL FREQUENCY [A-1]: 0.15
[Enter the spatial frequency radius corresponding to the
maximum radius ( = 128/2 in our example) of pixels in the
array. From this value, the spatial frequency increment
(DK=0.15/64) is calculated.]
.SOURCE SIZE [A-1], DEFOCUS SPREAD [A]: 0.005,250
[Enter the size of the illumination source in reciprocal
Angstroems. This is the size of the source as it appears in
the back focal plane of the objective lens. A small value
results in high coherence; a large value, low coherence.
Next, enter the estimated magnitude of the defocus variations
corresponding to energy spread and lens current fluctuations.]
.ASTIGMATISM [A], AZIMUTH [DEG]: 400,30
[Enter the defocus variation due to axial astigmatism. The
value given here indicates a defocus range of +/- 400 A around
the nominal value as the azimuth is changed. Then, enter the angle,
in degrees, that characterizes the direction of astigmatism.
The angle defines the origin direction where the astigmatism
has no effect.]
.AMPLITUDE RATIO CONTRAST [0-1], GAUSSIAN ENVELOPE HALFWIDTH: 0.2,0.062
[Enter ACR and GEH (in A^1); see below for definition.]
.SIGN (+1 or -1): -1
[Application of the transfer function results in contrast
reversal if underfocus (DZ positive) is used. To compensate for
this reversal, use sign switch -1.)
The transfer function is then computed in complex form compatible with the Fourier transform format.
NOTES