Mid-infrared light directly amplifies out-of-plane phonons in few-layer MoS2 by over 80% at room temperature with 300x lower power density than visible light, yielding 0.3 nW/sqrt(Hz) noise-equivalent power for MIR detection.
Inelastic light scattering from correlated electrons
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A universal magnetic energy scale J* emerges at finite doping in the Fermi-Hubbard model, controlling magnetic correlations, bimagnon spectra, pseudogap onset, and the transition to incommensurate spin-density waves.
Uniaxial pressure applied to α-SrCr₂O₄ shifts two-magnon Raman excitations in a manner consistent with decreased or increased magnetic anisotropy under tension or compression.
citing papers explorer
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Mid-infrared Assisted THz Phonon Amplification in a 2D Semiconductor for Room Temperature Detection
Mid-infrared light directly amplifies out-of-plane phonons in few-layer MoS2 by over 80% at room temperature with 300x lower power density than visible light, yielding 0.3 nW/sqrt(Hz) noise-equivalent power for MIR detection.
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Universal magnetic energy scale in the doped Fermi-Hubbard model
A universal magnetic energy scale J* emerges at finite doping in the Fermi-Hubbard model, controlling magnetic correlations, bimagnon spectra, pseudogap onset, and the transition to incommensurate spin-density waves.
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Tuning J$_1$-J$_2$ in Quasi-2D Triangular Lattice Antiferromagnet $\alpha$-SrCr$_2$O$_4$ via Uniaxial Pressure
Uniaxial pressure applied to α-SrCr₂O₄ shifts two-magnon Raman excitations in a manner consistent with decreased or increased magnetic anisotropy under tension or compression.