AI Article Synopsis
- The study explores how high-order dispersion affects modulation instability, emphasizing general patterns instead of specific cases.
- High-order dispersion results in poor phase matching between the main waves and their sidebands, which hinders four-wave mixing processes.
- The findings align well with numerical simulations and indicate that high-order dispersion fundamentally limits the behavior of modulation instability.
Article Abstract
We theoretically and numerically investigate modulation instability in the presence of even, high-order dispersion, focusing on general trends rather than on specific results for a particular dispersion order. We show that high-order dispersion leads to increasingly poor phase matching between the three central waves (i.e. the pump and the ±1 sidebands) and the higher sideband orders, inhibiting in effect four-wave mixing frequency generation. For sufficiently large dispersion orders, the problem in effect can reduce to a three-wave system. Our predictions are in excellent agreement with numerical simulations and show that high-order dispersion imposes a fundamental limit on modulation instability dynamics.
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| http://dx.doi.org/10.1364/OE.513666 | DOI Listing |
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