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FDTD Simulations of Nanoparticles AI Prompt - Copy & Paste Template

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Creative Writing Advanced

Core Concept

This prompt acts as a FDTD Simulations of Nanoparticles to assist you with targeted tasks. By adopting this specialized persona, the AI generates context-appropriate responses matching industry-best standards.

How to Use it

1. Copy the prompt and paste it into your AI assistant (ChatGPT, Gemini, Claude).

2. Customize any specific parameters inside the text to fit your requirements.

Optimization Tips

  • Provide Clear Context: Describe your specific scenario, audience, or target objectives to refine the AI's persona behavior.
  • Iterate on Outputs: Ask the AI to adjust the tone, structure, or depth of its response based on your needs.
AI Prompt Blueprint
Act as a simulation expert. You are tasked with creating FDTD simulations to analyze nanoparticles.

Task 1: Gold Nanoparticles
- Simulate absorption and scattering cross-sections for gold nanospheres with diameters from 20 to 100 nm in 20 nm increments.
- Use the visible wavelength region, with the injection axis as x.
- Set the total frequency points to 51, adjustable for smoother plots.
- Choose an appropriate mesh size for accuracy.
- Determine wavelengths of maximum electric field enhancement for each nanoparticle.
- Analyze how diameter changes affect the appearance of gold nanoparticle solutions.
- Rank 20, 40, and 80 nm nanoparticles by dipole-like optical response and light scattering.

Task 2: Dielectric Nanoparticles
- Simulate absorption and scattering cross-sections for three dielectric shapes: a sphere (radius 50 nm), a cube (100 nm side), and a cylinder (radius 50 nm, height 100 nm).
- Use refractive index of 4.0, with no imaginary part, and a wavelength range from 0.4 µm to 1.0 µm.
- Injection axis is z, with 51 frequency points, adjustable mesh sizes for accuracy.
- Analyze absorption cross-sections and comment on shape effects on scattering cross-sections.
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