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Create Composite Object Error

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Hello,

I am very new to COMSOL and have had some troubles creating an object to simulate.
I am trying to create an electrode on top of a glass wafer. The electrode is made of two layers, one 5nm thick and one 150nm thick. I have made the wafer 1mm thick, and placed the 5nm followed by the 150nm sections of the electrode on top of the wafer. I have placed all of these inside a testable area of size 1cm by 1cm.

When I try to 'Create Composite Object' I set the formula as:
BLK1-EXT1-EXT2-EXT3-EXT4-EXT5
where EXT1 is the wafer and EXT2 through EXT5 are sections of the electrodes (there are two parts to each layer of the electrode).
However, I keep getting an error that says "internal error in geometry decomposition."

Does anyone know what this error means and how I can fix it? Like I said, I am very new to the COMSOL software, so I apologize for the likely rather simple question.
Thanks very much.

Michael

5 Replies Last Post Nov 18, 2010, 11:26 a.m. EST
Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)

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Posted: 1 decade ago Nov 11, 2010, 8:18 a.m. EST
Hi

I suppose its related to the height/size ratios 5nm versus 1mm is 1:200'000, I never use ratios (for the mesher) largeer than 10'000 or if possible less.

The true question is what do you want to resolve within your 5nm layer? , cannot you replace its presence by a "thin layer" with a bulk equation form ?

Then have you calculated what it represents to have a 1nm (to have let's say 5 meshes across your 5 nm thick layer) sized mesh elements to fill several mm^3, probably you need a nice cluster just to fill one matrix, not to talk about solving

Finite elements are limited by the "finite" size of RAM on ourPC/WS's ;)

--
Good luck
Ivar
Hi I suppose its related to the height/size ratios 5nm versus 1mm is 1:200'000, I never use ratios (for the mesher) largeer than 10'000 or if possible less. The true question is what do you want to resolve within your 5nm layer? , cannot you replace its presence by a "thin layer" with a bulk equation form ? Then have you calculated what it represents to have a 1nm (to have let's say 5 meshes across your 5 nm thick layer) sized mesh elements to fill several mm^3, probably you need a nice cluster just to fill one matrix, not to talk about solving Finite elements are limited by the "finite" size of RAM on ourPC/WS's ;) -- Good luck Ivar

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Posted: 1 decade ago Nov 12, 2010, 12:12 p.m. EST
That's a good point. Thanks very much.

Michael
That's a good point. Thanks very much. Michael

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Posted: 1 decade ago Nov 17, 2010, 3:03 p.m. EST
I have been able to create a composite object by making the box that encapsulates everything smaller. However, I have now had a lot of trouble meshing and getting a solution. I cannot mesh the entire object using Free Mesh even with an extremely coarse setting without running out of memory. If I try to Sweep Mesh the small sections of the model and Free Mesh the rest I often get a 'Singular Matrix' error (which I do not understand). I have been able to mesh the entire object under a few circumstances, but when I then try to solve it I get a 'Empty cavity generated' error.
I assume that this is because the resolution of the mesh is not small enough in the very thin regions. I can perhaps try approximating the thin layer with a 2D sheet but obviously it would be ideal if I could simulate exactly what is happening in the electrodes.

Thanks for any suggestions you might have.

Michael
I have been able to create a composite object by making the box that encapsulates everything smaller. However, I have now had a lot of trouble meshing and getting a solution. I cannot mesh the entire object using Free Mesh even with an extremely coarse setting without running out of memory. If I try to Sweep Mesh the small sections of the model and Free Mesh the rest I often get a 'Singular Matrix' error (which I do not understand). I have been able to mesh the entire object under a few circumstances, but when I then try to solve it I get a 'Empty cavity generated' error. I assume that this is because the resolution of the mesh is not small enough in the very thin regions. I can perhaps try approximating the thin layer with a 2D sheet but obviously it would be ideal if I could simulate exactly what is happening in the electrodes. Thanks for any suggestions you might have. Michael

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

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Posted: 1 decade ago Nov 18, 2010, 5:29 a.m. EST
Hi

yes meshing is an art ;) but are you really sure that the you will have a temperature gradient in the 5nm thickness direction, hence obliging you to use a 3D meshing and not surface physics ?

--
Good luck
Ivar
Hi yes meshing is an art ;) but are you really sure that the you will have a temperature gradient in the 5nm thickness direction, hence obliging you to use a 3D meshing and not surface physics ? -- Good luck Ivar

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Posted: 1 decade ago Nov 18, 2010, 11:26 a.m. EST
That's a good point. I will try to simulate it as a surface rather than a 3D object.

Thanks again.

Michael
That's a good point. I will try to simulate it as a surface rather than a 3D object. Thanks again. Michael

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