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On quantum light: Difference between revisions
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In this lattice 'aether' model, would like have a continuous frequency range or would it be quantized? | In this lattice 'aether' model, would like have a continuous frequency range or would it be quantized? | ||
ChatGPT said: | ChatGPT {{ct| chatGPT }} said: | ||
ChatGPT | ChatGPT {{ct| chatGPT }} | ||
In the lattice "aether" model we've been discussing, the question of whether light (or any wave-like phenomenon) would exhibit a continuous frequency range or be quantized hinges on how the discontinuities and vibrational modes of the lattice behave. Here are the key factors to consider: | In the lattice "aether" model we've been discussing, the question of whether light (or any wave-like phenomenon) would exhibit a continuous frequency range or be quantized hinges on how the discontinuities and vibrational modes of the lattice behave. Here are the key factors to consider: | ||
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What frequency precision is required to observe such quantization? | What frequency precision is required to observe such quantization? | ||
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ChatGPT | ChatGPT {{ct| chatGPT }} | ||
To observe the quantization of frequencies in this lattice-based model, the frequency precision required would depend on several factors, including the size of the energy gaps between the quantized states (the spacing between discrete vibrational modes), the scale of the lattice, and the nature of the interactions between discontinuities. Here’s a breakdown of the factors that would influence the required frequency precision: | To observe the quantization of frequencies in this lattice-based model, the frequency precision required would depend on several factors, including the size of the energy gaps between the quantized states (the spacing between discrete vibrational modes), the scale of the lattice, and the nature of the interactions between discontinuities. Here’s a breakdown of the factors that would influence the required frequency precision: | ||
