Abstract

Optically detected multipulse nuclear quadrupole resonance is used to study trivalent praseodymium in lanthanum trifluoride in zero and weak static magnetic fields. A spin-locking spin-echo rf pulse sequence consisting of a \ensuremath{\pi}/2 preparation pulse, followed by repeated sequence of space t, a \ensuremath{\pi}/2 pulse phase shifted by 90\ifmmode^\circ\else\textdegree\fi{} from the preparation pulse, and a space t. A Raman heterodyne scheme was used for optical detection. The coherence was observed to decay exponentially at a rate of 51 \ensuremath{\mu}sec (6.2 kHz) in zero static magnetic field. For static magnetic fields of 80 G applied along the ${c}_{3}$ axis the decay was described by time constants of 76 \ensuremath{\mu}sec (4.2 kHz) and 372 \ensuremath{\mu}sec (855 Hz). This represents a lengthening of the coherence time from a previously reported (two-pulse spin echo) 16.9 \ensuremath{\mu}sec (18.8 kHz) at zero field and a measured 37.5 \ensuremath{\mu}sec (8.5 kHz) at 80 G.

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