Abstract

We report ${}^{51}\mathrm{V}$ NMR measurements in ${\ensuremath{\alpha}}^{\ensuremath{'}}$-${\mathrm{NaV}}_{2}{\mathrm{O}}_{5}$, which has been considered as a spin-Peierls (SP) system. Above the transition temperature ${T}_{\mathrm{C}},$ only one set of V sites was observed in the NMR spectra, indicating that all the V sites are in a uniform electronic state with the average oxidation of ${\mathrm{V}}^{4.5+}.$ Below ${T}_{\mathrm{C}},$ there appear two inequivalent sets of V sites assigned to ${\mathrm{V}}^{4+}$ and ${\mathrm{V}}^{5+}$ states. This result indicates that the phase transition in ${\ensuremath{\alpha}}^{\ensuremath{'}}$-${\mathrm{NaV}}_{2}{\mathrm{O}}_{5}$ is not a conventional SP transition but a charge ordering. Below ${T}_{\mathrm{C}},$ 1/${T}_{1}$ at the ${\mathrm{V}}^{4+}$ sites has an activated T dependence, confirming a spin-singlet ground state with the excitation gap $\ensuremath{\sim}108 \mathrm{K}.$