Discussion Closed This discussion was created more than 6 months ago and has been closed. To start a new discussion with a link back to this one, click here.
Near field/Far Field of scatered light from a nanoparticle
Posted 30 mar 2013, 04:43 GMT-4 9 Replies
Please login with a confirmed email address before reporting spam
In my simulation domain ,2 micrometer by 2 micrometer,the upper portion is air and the lower surface is glass.A nanoparticle of 300 nm is placed at the interface(halfway in my simulation domain).I want to analyse the fields(near and far field) after light been incident from the top surface of my simulation domain and scattered by the particle.
I am using scattered boundary conditions for my simulation domain boundaries (i dont kno if that is correct)
I want to know how to analyse the far field here.I will be looking forward to the detailed steps.I also want to know if my boundary conditions are correct.I am using 2D model
I will be waiting eagerly for the kind reply and the solution
Regards
Please login with a confirmed email address before reporting spam
you must define a far field domain under the emw node. This will make the far field variables available in the post processing.
3D far field post processing is very expensive. A 3D far field plot may take longer to calculate than the solution of the model. 2D plots like typical antenna radiation patterns are fairly fast.
Cheers
Edgar
Please login with a confirmed email address before reporting spam
Please login with a confirmed email address before reporting spam
You should probably add a PML around the scattering boundary.
--
Edgar J. Kaiser
www.emphys.com
Please login with a confirmed email address before reporting spam
The plot for Hz makes sense but not the Far field plot.I assume there is some terrible mistake in my simulation as far as the result is concerned.Kindly Help
Attachments:
Please login with a confirmed email address before reporting spam
Please login with a confirmed email address before reporting spam
Without seeing the model and all the settings it is difficult to say what's wrong.
Cheers
Edgar
--
Edgar J. Kaiser
www.emphys.com
Please login with a confirmed email address before reporting spam
GEOMETRY AND MATERIALS:
In my simulation domain ,4 micrometer by 4 micrometer,the upper portion is air(4micro*1 micro)and the lower portion is glass.A nanoparticle(say polysterene) of 300 nm is placed at the interface(halfway in my simulation domain).The materials have their usual refractive indices 1,2.37 and 2.51
ELECTROMAGNETIC WAVES:
In the EM WAVE section I have taken the In-plane vector wave(want for TM case) and analyzing the total field(there is option of total field/scattered field).
I am using scattering boundary conditions for my simulation domain boundaries (i don't know if that is correct/if something else might be appropriate)the sc1.png takes into account one scattering boundary and sc2.png takes into account the top boundary condition where light is excited.The farfield settings are shown(there might be some mistake here).(farfield.png)
What i have done is I have taken glass as my FAR FIELD DOMAIN SELECTION and taken the lowest boundary in my boundary selection .
The frequency domain analysis is done and computed.
my wavelength is 632 nm
The plots which i have obtained (HZ and Efarnorm) are the same which i have attached in the previous post.
Attachments:
Please login with a confirmed email address before reporting spam
Kindly have a look at this.
I think i am making a mistake which is giving me erroneous results
Thanks
Attachments:
Please login with a confirmed email address before reporting spam
Hi,
I think the far field surface plot doesn't make much sense. You are probably interested in the far field along the bottom or lateral boundaries.
Try a 1D line plot along those boundaries and you will see that it gives reasonable results.
Cheers
Edgar
--
Edgar J. Kaiser
www.emphys.com
Note that while COMSOL employees may participate in the discussion forum, COMSOL® software users who are on-subscription should submit their questions via the Support Center for a more comprehensive response from the Technical Support team.
Suggested Content
- BLOG Producing Safe Drinking Water with a Novel Nanoparticle Biofoam
- BLOG Top Papers and Posters from the COMSOL Conference 2017 Rotterdam
- FORUM LASER light in 2D axisymmetric model
- FORUM How to calculate near Field Enhancement in the Dimer Gap of a silver dimer
- KNOWLEDGE BASE Error: Failed to Find a Solution. Returned Solution is Not Converged