High-temperature ²⁹Si MAS NMR spectroscopy of anorthite (CaAl₂Si₂O₈) and its P {Mathematical expression}-I {Mathematical expression}structural phase transition

We present ²⁹Si MAS NMR data for a well-ordered natural anorthite, obtained in situ at temperatures of from 25 to 500° C, which follow the changes in the aluminosilicate framework through the P {Mathematical expression}-I {Mathematical expression} structural phase transition. Pairs of peaks due to sites offset by approximately 1/2 [111] converge through the P {Mathematical expression} phase and only four peaks are present above about 241° C. The variation of the peak positions with temperature and correlations based on structural data for the P {Mathematical expression} and I {Mathematical expression} phases allow assignment of all the MAS-NMR peaks to crystallographic sites. A Landau-type analysis gives an expression that relates the separation of pairs of con verging peaks to the local order parameter for the P {Mathematical expression}-I {Mathematical expression} transition, from which we determine its temperature dependence. Data for the best-constrained set of peak positions give for the order parameter critical exponent β = 0.27±0.04, consistent with previous results indicating that the P {Mathematical expression}-I {Mathematical expression} transition in pure anorthite is tricritical. No significant change in the ²⁹Si spin-lattice relaxation rate occurs across the P {Mathematical expression}-I {Mathematical expression} transition.