Recently in Matter, Wu et al. developed a plasma-assisted rapid annealing (PARA) method to precisely control lattice compressive strain in MoTe1.5S0.5, enhancing electromagnetic absorption. Their approach improves conductive and polarization loss mechanisms, achieving broad absorption bandwidths and paving the way for advanced, strain-engineered TMD-based EM absorbers with potential in communications and stealth technologies.
Straining for success: How squeezing atoms can trap electromagnetic waves
Colombo P.
2025
Abstract
Recently in Matter, Wu et al. developed a plasma-assisted rapid annealing (PARA) method to precisely control lattice compressive strain in MoTe1.5S0.5, enhancing electromagnetic absorption. Their approach improves conductive and polarization loss mechanisms, achieving broad absorption bandwidths and paving the way for advanced, strain-engineered TMD-based EM absorbers with potential in communications and stealth technologies.
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