I'm looking for something that will allow me to model the flux of SE emitted from a sample surface as a function of position/distance from the primary beam. If it can also give the energy and/or distinguish between SE-I and SE-II that'd be even better. Can anyone suggest/recommend anything?
Quote from: Mike Matthews on December 18, 2018, 01:47:54 AM
I'm looking for something that will allow me to model the flux of SE emitted from a sample surface as a function of position/distance from the primary beam. If it can also give the energy and/or distinguish between SE-I and SE-II that'd be even better. Can anyone suggest/recommend anything?
Hi Mike,
I'm sure you've already looked at these but Penepma generates a pe-angle-el.dat and pe-anel.dat file with electron probability densities and theta and phi angles. The Penelope documentation says:
QuoteThe files pe-angle-el.dat and pe-angle-ph.dat contain angular distributions p(θ, φ)
of emerging electrons and photons, respectively. Angular distributions, p(θ), depending
only on the polar angle (i.e., integrated over φ), are written in the files pe-anel.dat
and pe-anph.dat.
I assume that is not what you're trying to model because it doesn't include distances?
john
Hi John,
Yes, that would give me the total intensity but not the position information.
Hi Mike,
Not sure if these were the papers you were referencing last week, but the calculations look to be in the following two references :
Factors Affecting Contrast and Resolution in the Scanning Electron Microscope†
T. E. Evekhart , O. O. Wells & C. W. Oatley
Pages 97-111 | Received 21 Jul 1959, Published online: 26 Apr 2007
Download citation
https://doi.org/10.1080/00207215908937191
And
Idealized spatial emission distribution of secondary electrons
Journal of Applied Physics 43, 3707 (1972); https://doi.org/10.1063/1.1661794
T. E. Everhart and M. S. Chung
Not sure what's going on with the Everhart/Evekhart - assume this is a typo from the document scanning.
It's also discussed in this paper to some extent :
H Seiler. (1983) Secondary electron emission in the scanning electron microscope. Journal of Applied Physics 54:11, R1-R18.
Online publication date: 4-Jun-1998.
They say that the primary electron beam excited SE emissions can be estimated as the square root of the squares of the sum of the beam diameter and mean SE escape depth (that works better as an equation than a sentence!).
The BSE generated SE can be estimated as a gaussian function over the BSE emitting area.
Perhaps the mean SE escape depth and BSE emitting area can be extracted from penepma or casino or something?
Penepma does not consider anything with an energy of < 50eV
Also the SE behaviour varies between insulators and metals - they have different escape depths
(https://smf.probesoftware.com/gallery/453_19_12_18_4_55_16.png)
SE attenuation length from Cazaux 2006
Ben
Quote from: JonF on December 19, 2018, 12:56:34 AM
Factors Affecting Contrast and Resolution in the Scanning Electron Microscope†
T. E. Evekhart , O. O. Wells & C. W. Oatley
Pages 97-111 | Received 21 Jul 1959, Published online: 26 Apr 2007
Download citation
https://doi.org/10.1080/00207215908937191
Not sure what's going on with the Everhart/Evekhart - assume this is a typo from the document scanning.
Hi Jon,
It must be a typo of some sort because it's definitely Everhart:
https://en.wikipedia.org/wiki/Thomas_Eugene_Everhart
I'm sure you also know that O. O. Wells was H. G. Wells' grandson:
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S1431927614001731
But I did not know that he was also an underwater cave explorer!
john
Thanks John,
The 1972 Everhart and Chung paper looks especially useful.
Mike
Hi Mike,
I did it this way in my PhD thesis:
- Determine the position and energy of primary and BSE electrons by Monte Carlo (I used NISTMonte, but PENEPMA or Casino will work as well). In all cases you need a lot of electrons for good stats.
- Calculate the SE yield based on Lin, Y. and Joy, D. C. A new examination of secondary electron yield data. Surf. Interface Anal. 37 (2005), pp. 895-900
- Calculate the energy of emitted SE based on Koshikawa, T. and Shimizu, R. A Monte Carlo calculation of low-energy secondary electron emission from metals. J. Phys. D: Appl. Phys. 7 (1974), p. 1303.
Philippe