A framework for 2D thermal metamaterials identifies a two-channel transport mechanism where coherent nonlinear excitations coexist with incoherent modes, sensitive to geometry and nonlinearity.
Kirillov-Reshetikhin crystals $B^{1,s}$ for $\widehat{\mathfrak{sl}}_n$ using Nakajima monomials
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We give a realization of the Kirillov--Reshetikhin crystal $B^{1,s}$ using Nakajima monomials for $\widehat{\mathfrak{sl}}_n$ using the crystal structure given by Kashiwara. We describe the tensor product $\bigotimes_{i=1}^N B^{1,s_i}$ in terms of a shift of indices, allowing us to recover the Kyoto path model. Additionally, we give a model for the KR crystals $B^{r,1}$ using Nakajima monomials.
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Nonlinear Coherent Transport in 2D Thermal Metamaterials: From Solitons and Topological Defects to Quantum Computing
A framework for 2D thermal metamaterials identifies a two-channel transport mechanism where coherent nonlinear excitations coexist with incoherent modes, sensitive to geometry and nonlinearity.