Optical evidence for a magnetically driven structural transition in the spin web Cu3TeO6
Abstract
Cu3TeO6 is a modest frustrated S=1/2 spin system, which undergoes an anti-ferromagnetic transition at TN61 K. The anti-ferromagnetic spin alignment in Cu3TeO6 below TN is supposed to induce a magneto-elastic strain of the lattice. The complete absorption spectrum of Cu3TeO6 is obtained through Kramers-Kronig transformation of the optical reflectivity, measured from the far-infrared up to the ultraviolet spectral range as a function of temperature (T). Below T* 50 K, we find a new mode at 208 cm-1. The spectral weight associated to this additional mode increases as (T*-T)1/2 with decreasing T below T*. The implication of the optical findings will be discussed in relation to the magnetic phase transition at TN.
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