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Scattering Cross Section

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Hello All,

I am trying to find the best way to calculate the scattering cross section in COMSOL for a 2-D cylinder. I eventually will move to 3-D spheres and cylinders. What I have is a circle of 30 nm in radius and my circular PML layer drawn 10 Lambda away, where at this boundary (far field) I want to calculate the scattering cross section. I am doing all of this in the RF Module->In Plane Waves->TE Waves->Scattering Harmonic Propagation.

Scattering cross section to me seems to be defined differently depending on what text book you are looking at. The one I see most is:

Csca = (1/|Eincident|^2) Integral (|Escattered|^2) dr

So here are my more specific questions.

1. Would you take Eincident to be E0iz_rfweh or Ez?
2. Is scEZ the Escattered filed I am looking for or do I have to subtract out the incident field?

Any input on your experiences calculating scattering cross sections would be greatly appreciated.

Regards,
Jacob

25 Replies Last Post 2017年7月13日 GMT-4 05:05

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Posted: 2 decades ago 2009年11月3日 GMT-5 15:40
Yevgeniy Davletshin posted a mie scattering model under "model exchange" and you can have a look. I'm tring to figure out that model. Maybe you can ask him but I don't know when he will show up here.
Yevgeniy Davletshin posted a mie scattering model under "model exchange" and you can have a look. I'm tring to figure out that model. Maybe you can ask him but I don't know when he will show up here.

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Posted: 2 decades ago 2009年11月4日 GMT-5 13:52
Scattering cross-section in 3D model can be calculated by Boundary integration (over all domain before PML) of scattered power per incident power.


Scattering cross-section in 3D model can be calculated by Boundary integration (over all domain before PML) of scattered power per incident power.

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Posted: 2 decades ago 2009年11月5日 GMT-5 07:10
Thank you both for the comments. I think before I can start calculating my cross section I need to sure up my model. I am not getting the results that I should be, so I have been searching for the solution.

What I am trying to do first in 2-D (cylinder/circle) and will eventually move to 3-D like Yevgeniy's model. This should be easy I would think in 2-D, but I am missing something.

Here is a breakdown of what I am doing maybe someone on here will see something obvious I am missing. I have actually attached a COMSOL report with the details as well. I have a 30nm Ag cylinder (circle in 2-D) that I am using a Drude model to model the material. I want to have a TM wave incident on the cylinder and measure the far field scattering cross section at a wavelength range from 300-700nm. I know there should be a peak in the Scr at ~340nm and know what the surface plot should look like. I am using RF Module/TM-waves /Harmonic Propagation right now. I tried using Scattered Harmonic Propagation with the same results.

I have a PML, an intermediate ring of just vacuum where I will measure Scr and the Ag cylinder. Just looking at one wave length say 340nm (where I expect my resonance), I get a very strange result. When I plot my surface of the incident Ey wave (Ey_rfweh-scEy_rfweh) my incident field looks very distorted. I think this be my first problem. I attached a screen capture.

Any input would be greatly appreciated. I know I probably haven’t provided enough information as there is a lot that goes into each model. Hopefully some has had similar issues when they first started and can suggest things to check from experience.

Yevgeniy, have you ever done this in 2-D?

Thanks,
Jacob

Thank you both for the comments. I think before I can start calculating my cross section I need to sure up my model. I am not getting the results that I should be, so I have been searching for the solution. What I am trying to do first in 2-D (cylinder/circle) and will eventually move to 3-D like Yevgeniy's model. This should be easy I would think in 2-D, but I am missing something. Here is a breakdown of what I am doing maybe someone on here will see something obvious I am missing. I have actually attached a COMSOL report with the details as well. I have a 30nm Ag cylinder (circle in 2-D) that I am using a Drude model to model the material. I want to have a TM wave incident on the cylinder and measure the far field scattering cross section at a wavelength range from 300-700nm. I know there should be a peak in the Scr at ~340nm and know what the surface plot should look like. I am using RF Module/TM-waves /Harmonic Propagation right now. I tried using Scattered Harmonic Propagation with the same results. I have a PML, an intermediate ring of just vacuum where I will measure Scr and the Ag cylinder. Just looking at one wave length say 340nm (where I expect my resonance), I get a very strange result. When I plot my surface of the incident Ey wave (Ey_rfweh-scEy_rfweh) my incident field looks very distorted. I think this be my first problem. I attached a screen capture. Any input would be greatly appreciated. I know I probably haven’t provided enough information as there is a lot that goes into each model. Hopefully some has had similar issues when they first started and can suggest things to check from experience. Yevgeniy, have you ever done this in 2-D? Thanks, Jacob


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Posted: 2 decades ago 2009年11月5日 GMT-5 09:49
Upload the model.
Upload the model.

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Posted: 2 decades ago 2009年11月5日 GMT-5 10:16
Here it is.

Maybe I am doing this all wrong? Once again, all I am trying to do is to measure the scattering cross section of a 30nm (radius) Ag cylinder. The model I uploaded is only evaluating at 340nm where I expect a resonance, which should be visible in a surface plot of Ey and also Hz. Once the model is correct I will sweep frequencies between 300 and 700nm. I hope to generate a Cscatter plot which looks like my attachment (done with analytical approach in Maple)

Any help would be greatly appreciated.
Here it is. Maybe I am doing this all wrong? Once again, all I am trying to do is to measure the scattering cross section of a 30nm (radius) Ag cylinder. The model I uploaded is only evaluating at 340nm where I expect a resonance, which should be visible in a surface plot of Ey and also Hz. Once the model is correct I will sweep frequencies between 300 and 700nm. I hope to generate a Cscatter plot which looks like my attachment (done with analytical approach in Maple) Any help would be greatly appreciated.


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Posted: 2 decades ago 2009年11月5日 GMT-5 11:45
I never used 2D, so I'm not sure what is that you need to get from the simulation.

But for sure decrease subdomain size, make mesh more fine (34nm for outersubdomains and even less for cylinder). And try other modes. And try to get good results with complex index of refraction for Ag, and then continue to Drude model.
I never used 2D, so I'm not sure what is that you need to get from the simulation. But for sure decrease subdomain size, make mesh more fine (34nm for outersubdomains and even less for cylinder). And try other modes. And try to get good results with complex index of refraction for Ag, and then continue to Drude model.


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Posted: 2 decades ago 2009年11月6日 GMT-5 10:12
Yevgeniy, thank you so much for your help. I ended up making adjustments based on your suggestions and it worked beautifully.

I guess one last question is on the maximum mesh size. Is there a rule of thumb mesh based on geometry and wavelength used for excitation? I have ordered a FEM modeling book, but I am still waiting for it to arrive.

I am going to have a 100nm cylinder with a 10nm "jacket" around it of a different material (metal coated nanowire). I worry in the 10nm shell that my mesh maximum mesh size will need to be <1nm. I don't even know if that sounds feasible or not.

I guess we will see what happens! Thanks again.

Jacob
Yevgeniy, thank you so much for your help. I ended up making adjustments based on your suggestions and it worked beautifully. I guess one last question is on the maximum mesh size. Is there a rule of thumb mesh based on geometry and wavelength used for excitation? I have ordered a FEM modeling book, but I am still waiting for it to arrive. I am going to have a 100nm cylinder with a 10nm "jacket" around it of a different material (metal coated nanowire). I worry in the 10nm shell that my mesh maximum mesh size will need to be

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Posted: 2 decades ago 2009年11月6日 GMT-5 10:32
Rule of thumb,
If you make your mesh finer and your solution changes dramatically then you probably need to further decrease mesh size, if however solution didn't change much, then your mesh probably OK.

Also always look at your solution if you see that it has artifacts then decrease size of the mesh. If it not converging then again decrease size of mesh.

Rule of thumb, If you make your mesh finer and your solution changes dramatically then you probably need to further decrease mesh size, if however solution didn't change much, then your mesh probably OK. Also always look at your solution if you see that it has artifacts then decrease size of the mesh. If it not converging then again decrease size of mesh.

Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)

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Posted: 2 decades ago 2009年11月6日 GMT-5 14:46
Hi

I have got the message to ensure at least 5 nodes per wavelegth period, as a minimum. But it's as usual, ask yourself how fast is your solution modulating, what kind of gradient do you have, you must adapt the mesh to be able to catch correctly the gradients slope, or the slope of your changes, otherwise you might get aliasing and strange results.

In structural, and probably it's rather general, doubling the node numer and expect less than 10% change then you are generally in a good situation.

You have also the mesh refinement option in the solver, you might need to adapt the L2 optimisation function for your case.

Good luck
Ivar
Hi I have got the message to ensure at least 5 nodes per wavelegth period, as a minimum. But it's as usual, ask yourself how fast is your solution modulating, what kind of gradient do you have, you must adapt the mesh to be able to catch correctly the gradients slope, or the slope of your changes, otherwise you might get aliasing and strange results. In structural, and probably it's rather general, doubling the node numer and expect less than 10% change then you are generally in a good situation. You have also the mesh refinement option in the solver, you might need to adapt the L2 optimisation function for your case. Good luck Ivar

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Posted: 2 decades ago 2009年11月9日 GMT-5 08:35
Great advice guys. Thanks so much for the help!

Great advice guys. Thanks so much for the help!

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Posted: 2 decades ago 2009年11月10日 GMT-5 22:35
So I was able to calculate a scattering cross section, but am having trouble producing an extinction cross section or an absorption cross section.

In the end I want a extinction, and if I can calculate an absorption cross section then I can get there.

Cext = Cabs + Csca

Anyone every calculated the absorption or extinction?

So I was able to calculate a scattering cross section, but am having trouble producing an extinction cross section or an absorption cross section. In the end I want a extinction, and if I can calculate an absorption cross section then I can get there. Cext = Cabs + Csca Anyone every calculated the absorption or extinction?

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Posted: 2 decades ago 2009年11月13日 GMT-5 10:40
Check the following paper:
Nanoshells to nanoeggs to nanocups: optical properties of reduced symmetry core/shell nanoparticles beyound the quasy-static limit, by Mark W. Knight and Naomi Halas, in New Journal of Physics...
You will see there that absorption cross section is proportional to integral of resisting heating over your metallic nanoparticles...
Cheers
Srdjan
Check the following paper: Nanoshells to nanoeggs to nanocups: optical properties of reduced symmetry core/shell nanoparticles beyound the quasy-static limit, by Mark W. Knight and Naomi Halas, in New Journal of Physics... You will see there that absorption cross section is proportional to integral of resisting heating over your metallic nanoparticles... Cheers Srdjan

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Posted: 2 decades ago 2009年11月18日 GMT-5 11:00
Thank you for the info Srdjan. The paper proved to be very useful!

Thank you for the info Srdjan. The paper proved to be very useful!

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Posted: 1 decade ago 2010年3月26日 GMT-4 03:34

Rule of thumb,
If you make your mesh finer and your solution changes dramatically then you probably need to further decrease mesh size, if however solution didn't change much, then your mesh probably OK.

Also always look at your solution if you see that it has artifacts then decrease size of the mesh. If it not converging then again decrease size of mesh.


Higher in the thread, someone indicated that you posted a 3D mie scattering model.

I don't find it in the Model Exchange - is it still available?

Thanks,

Lloyd
[QUOTE] Rule of thumb, If you make your mesh finer and your solution changes dramatically then you probably need to further decrease mesh size, if however solution didn't change much, then your mesh probably OK. Also always look at your solution if you see that it has artifacts then decrease size of the mesh. If it not converging then again decrease size of mesh. [/QUOTE] Higher in the thread, someone indicated that you posted a 3D mie scattering model. I don't find it in the Model Exchange - is it still available? Thanks, Lloyd

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Posted: 1 decade ago 2010年3月29日 GMT-4 12:34
It's moved to the Modell Galerie:
www.uk.comsol.com/showroom/gallery/3459/
It's moved to the Modell Galerie: http://www.uk.comsol.com/showroom/gallery/3459/

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Posted: 1 decade ago 2010年8月6日 GMT-4 13:00
Has anyone done this model with 4.0a?

Has anyone done this model with 4.0a?

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Posted: 1 decade ago 2010年8月31日 GMT-4 00:28
nopes.
i had done for silver particle.
nopes. i had done for silver particle.

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Posted: 1 decade ago 2010年11月1日 GMT-4 21:17
Hey can u share ur model of silver particle if you have done with 4.0a?
Hey can u share ur model of silver particle if you have done with 4.0a?

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Posted: 1 decade ago 2011年3月6日 GMT-5 03:18
i wanted to simulate "mie theory" model with comsol 4, but i think, variables are not same in two version, and i couldnt adjust incident field same as comsole 3.5, any body did it, can help me?
i wanted to simulate "mie theory" model with comsol 4, but i think, variables are not same in two version, and i couldnt adjust incident field same as comsole 3.5, any body did it, can help me?

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Posted: 1 decade ago 2011年5月8日 GMT-4 08:25
how to calculate this molde scattering cross-section and Abs cross-section .

very thankful.
how to calculate this molde scattering cross-section and Abs cross-section . very thankful.


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Posted: 1 decade ago 2011年9月26日 GMT-4 05:29
Do you know how to convert this in comsol 4.2?
Do you know how to convert this in comsol 4.2?

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Posted: 1 decade ago 2013年1月22日 GMT-5 12:28
Im currently trying to simulate the same (version 3.5a) and I managed to get the proper shape of the scattering and abs efficiencies with the help of the formulas in the paper "nanoshells to nanoeggs to nanocups" that Srdjan recommended to you.

However, the abs efficiency is on the order of 10^10 and the scattering efficiency on the order of 10^23. So i guess there is someting wrong with the constants in front of the integrals.

Did you applied these formulas straight away? Or did you make any change due to the fact that we are dealing with 2D simulations instead of 3D? (I guess tat the cross sections should have dimensions of m in 2D, instead of m^2 in 3D)

Any help is more than welcome!
Jorge
Im currently trying to simulate the same (version 3.5a) and I managed to get the proper shape of the scattering and abs efficiencies with the help of the formulas in the paper "nanoshells to nanoeggs to nanocups" that Srdjan recommended to you. However, the abs efficiency is on the order of 10^10 and the scattering efficiency on the order of 10^23. So i guess there is someting wrong with the constants in front of the integrals. Did you applied these formulas straight away? Or did you make any change due to the fact that we are dealing with 2D simulations instead of 3D? (I guess tat the cross sections should have dimensions of m in 2D, instead of m^2 in 3D) Any help is more than welcome! Jorge

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Posted: 8 years ago 2017年5月18日 GMT-4 14:51
Did you solve this ?
Did you solve this ?

Walter Frei COMSOL Employee

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Posted: 8 years ago 2017年5月18日 GMT-4 15:01
Hello All,

This thread seems to touch on some very old versions of the software. To address the general question of computing the cross section of an object illuminated by a plane wave we would suggest that you first start with this example:
www.comsol.com/model/computing-the-radar-cross-section-of-a-perfectly-conducting-sphere-10332
This example computes the radar cross section of a perfectly conductive sphere, and compares the computational result to analytic solutions and shows agreement. Most of the older questions in this thread are moot or addressed by this model.
Hello All, This thread seems to touch on some very old versions of the software. To address the general question of computing the cross section of an object illuminated by a plane wave we would suggest that you first start with this example: https://www.comsol.com/model/computing-the-radar-cross-section-of-a-perfectly-conducting-sphere-10332 This example computes the radar cross section of a perfectly conductive sphere, and compares the computational result to analytic solutions and shows agreement. Most of the older questions in this thread are moot or addressed by this model.

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Posted: 7 years ago 2017年7月13日 GMT-4 05:05
but this model with mph is unfortunately not available. can u plz send mph file
but this model with mph is unfortunately not available. can u plz send mph file

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