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Paper detail

Disentangling a quantum antiferromagnet with resonant inelastic X-ray scattering

Low-dimensional copper oxide lattices naturally manifest electronic states with strong short range quantum entanglement, which are known to lead to remarkable emergent material properties. However the nanometer scale many-body wavefunction is challenging to measure or manipulate in a simple way. In this study, X-ray induced $dd$ electronic transitions are used to suppress spin entanglement across a single lattice site in the spin-1/2 antiferromagnetic chain compound SrCuO$_2$, revealing a class of cuprate magnetic excitations that result from breaking the spin chain. These measurements are the first to employ two closely spaced X-ray resonances of copper (M$_2$ and M$_3$) as a form of natural 2-slit interferometer to distinguish between different types of electronic transition and resolve how they influence the dynamics of nearby spin-entangled electrons.

preprint2012arXivOpen access
L. Andrew WrayIgnace JarrigeKazuhiko IkeuchiKenji IshiiYuri Shvyd'koYuqi XiaM. Zahid HasanCharles MathyHiroshi EisakiJinsheng WenZhijun XuGenda GuZahid HussainYi-De Chuang
cond-mat.str-el
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L. Andrew WrayIgnace JarrigeKazuhiko IkeuchiKenji IshiiYuri Shvyd'koYuqi XiaM. Zahid HasanCharles MathyHiroshi EisakiJinsheng WenZhijun XuGenda GuZahid HussainYi-De Chuang

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