Suggestion for Research Project on Optical Nanoantenna

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Discussion Overview

The discussion revolves around a research project on Optical Nanoantennas, focusing on simulation-based approaches due to limited theoretical knowledge and lack of experimental equipment. Participants explore potential project ideas and the theoretical background needed for effective simulations.

Discussion Character

  • Exploratory
  • Technical explanation
  • Homework-related

Main Points Raised

  • Some participants express a lack of familiarity with the theoretical aspects of Optical Nanoantennas, having only completed junior-level coursework.
  • One participant notes various designs for Optical Nanoantennas, including Dipoles, Dimers, and Bowtie configurations, and identifies a significant challenge in creating diodes that operate at optical THz frequencies.
  • There is uncertainty about whether the diode issue pertains to electronic or optical/photonic diodes, indicating a need for clarification on the topic.
  • Participants suggest exploring the variation of loads in gold/silver dimers or bowtie configurations using novel dielectric materials as a potential project direction.
  • There is a request for study materials and topics to master that would aid in understanding the necessary theory for simulations.
  • One participant recommends searching for "optical rectenna" to find relevant articles that could inform their research direction.

Areas of Agreement / Disagreement

Participants generally agree on the challenges posed by the theoretical aspects of Optical Nanoantennas and the limitations of their current knowledge. However, there is no consensus on the specific theoretical requirements or the best approach to their project.

Contextual Notes

Participants express limitations in their theoretical understanding and the time available for study, which may affect their ability to engage with more complex concepts in the field.

Rio1210
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Hello,
I'm currently a Senior year EE student in a South Asian country. We are planning to do a research project on Optical Nanoantennas. We are still learning and are not very familiar with the theoretical stuff, we only have the knowledge of junior year undergrads (took EM Fields and Wave, that's it). So we're not looking to do anything fancy and more over we don't have the equipments to do experimental research. Mostly we'll perform simulation on CST MWS or Comsol Multiphysics.
Given our condition, it'd very helpful if you guys could help us with some ideas as to how we should proceed from here on. Thanks a lot.
 
Rio1210 said:
Hello,
I'm currently a Senior year EE student in a South Asian country. We are planning to do a research project on Optical Nanoantennas. We are still learning and are not very familiar with the theoretical stuff, we only have the knowledge of junior year undergrads (took EM Fields and Wave, that's it). So we're not looking to do anything fancy and more over we don't have the equipments to do experimental research. Mostly we'll perform simulation on CST MWS or Comsol Multiphysics.
Given our condition, it'd very helpful if you guys could help us with some ideas as to how we should proceed from here on. Thanks a lot.
What have you found so far in your reading? What is the single biggest problem with optical nanoantennas being practical for solar energy conversion? :smile:
 
We have found various designs for Optical Nanoantennas of noble metals Au & Ag, such as Dipoles, Dimers, Bowtie etc. Moreover, it seems like the single biggest problem seems to be creating a diode that operates in the (optical) THz frequencies, for rectifying the AC current the antenna generates(GaTech most probably are working on a solution). But we don't think we'll be working on diodes (doesn't that fall under electronics? or are they talking about optical/photonic diodes? Haven't read much on it.)

Anyway, we're looking to do something relatively simple, may be varying the load between the gold/silver dimers/bowtie/dipole using some novel dielectric material and see what happens.. something like this. But we are only limited to simulations.
Presently our main problem seems to be understanding the underlying theory and identify how much theory we actually require to implement it. We cannot really completely and rigorously go through a graduate level course in our available time frame. So, any suggestion of study materials, or suggestions of topics to master before tackling these simulations will help narrow down our search. Thanks a lot. :)
 
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Rio1210 said:
... the single biggest problem seems to be creating a diode that operates in the (optical) THz frequencies...

This is a very current research area. Try a google search for "optical rectenna" - there are numerous articles available on-line describing things similar to what you are trying to achieve.
 
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Likes   Reactions: berkeman

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