Crystal field states in a Quantum Spin Ice]Crystal field states of Pr3+ in the candidate quantum spin ice Pr2Sn2O7

Abstract

Neutron time-of-flight spectroscopy has been employed to study the crystal-field splitting of Pr3+ in the pyrochlore stannate Pr2Sn2O7. The crystal field has been parameterized from a profile fit to the observed neutron spectrum. The single-ion ground state is a well isolated non-Kramers doublet of 3+ symmetry with a large Ising-like anisotropy, zz / ≈ 60 at 10 K, but with a significant admixture of terms | MJ ≠ J > which can give rise to quantum zero-point fluctuations. This magnetic state satisfies the requirements for quantum spin ice behavior.