Please login with a confirmed email address before reporting spam
Posted:
10 years ago
2014年11月27日 GMT-5 08:16
Dear Huashun,
My suggestions:
First, refine your mesh inside the rib.
Second, temporarily declare the upper Si region with a lower refractive index (for example air n=1). Same thing with the Si substrate.
Run your study computing for 6 modes and using the Si refractive index as the first shoot for the effective refractive index. Look for the computed effective refractive index of the computed mode, as it will be a good "second shoot" for the next step.
Reestablish the correct refractive index for the top layer and the substrate. Now use your "second shoot".
good luck!
Felipe Beltran-Mejia
Dear Huashun,
My suggestions:
First, refine your mesh inside the rib.
Second, temporarily declare the upper Si region with a lower refractive index (for example air n=1). Same thing with the Si substrate.
Run your study computing for 6 modes and using the Si refractive index as the first shoot for the effective refractive index. Look for the computed effective refractive index of the computed mode, as it will be a good "second shoot" for the next step.
Reestablish the correct refractive index for the top layer and the substrate. Now use your "second shoot".
good luck!
Felipe Beltran-Mejia
Please login with a confirmed email address before reporting spam
Posted:
10 years ago
2014年12月1日 GMT-5 13:57
Hi Felipe,
Thanks a lot for your suggestions, they are very helpful.
I'd like to ask another question, how to do the Mode Analysis which is only for the TE polarization light? Thank you.
Best regards,
Huashun Wen
Hi Felipe,
Thanks a lot for your suggestions, they are very helpful.
I'd like to ask another question, how to do the Mode Analysis which is only for the TE polarization light? Thank you.
Best regards,
Huashun Wen
Please login with a confirmed email address before reporting spam
Posted:
10 years ago
2014年12月1日 GMT-5 14:03
Huashun,
I don't know if I really understand your question, but I'll give a shoot:
Compute for various modes. Locate your TE mode and copy the effective refractive index.
Compute again but just for one mode and using the effective refractive index as the value to search around for.
You should get only your TE mode. Now you can start working with it.
Also, if you want to modify any material or geometrical parameter, you shall do it in small steps so you can keep track of the TE mode effective refractive index.
I hope that helps,
Felipe Beltran-Mejia
Huashun,
I don't know if I really understand your question, but I'll give a shoot:
Compute for various modes. Locate your TE mode and copy the effective refractive index.
Compute again but just for one mode and using the effective refractive index as the value to search around for.
You should get only your TE mode. Now you can start working with it.
Also, if you want to modify any material or geometrical parameter, you shall do it in small steps so you can keep track of the TE mode effective refractive index.
I hope that helps,
Felipe Beltran-Mejia
Please login with a confirmed email address before reporting spam
Posted:
10 years ago
2014年12月8日 GMT-5 13:59
Hi Felipe,
Thanks a lot for answering my question.
My question is how to choose TE or TM for mode analysis, as described here
www.comsol.com/community/forums/general/thread/7478
Hope you could help me. Thank you.
Best regards,
Huashun Wen
Hi Felipe,
Thanks a lot for answering my question.
My question is how to choose TE or TM for mode analysis, as described here http://www.comsol.com/community/forums/general/thread/7478
Hope you could help me. Thank you.
Best regards,
Huashun Wen