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Quantum Monte Carlo simulations of a giant {Ni21Gd20} cage with a S?=?91 spin ground state.

ABSTRACT: The detailed analysis of magnetic interactions in a giant molecule is difficult both because the synthesis of such compounds is challenging and the number of energy levels increases exponentially with the magnitude and number of spins. Here, we isolated a {Ni21Gd20} nanocage with a large number of energy levels (?5?×?1030) and used quantum Monte Carlo (QMC) simulations to perform a detailed analysis of magnetic interactions. Based on magnetization measurements above 2?K, the QMC simulations predicted very weak ferromagnetic interactions that would give a record S?=?91 spin ground state. Low-temperature measurements confirm the spin ground state but suggest a more complex picture due to the single ion anisotropy; this has also been modeled using the QMC approach. The high spin and large number of low-lying states lead to a large low-field magnetic entropy (14.1?J?kg-1?K-1 for ?H?=?1?T at 1.1?K) for this material.

SUBMITTER: Chen WP 

PROVIDER: S-EPMC5974011 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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Quantum Monte Carlo simulations of a giant {Ni<sub>21</sub>Gd<sub>20</sub>} cage with a S = 91 spin ground state.

Chen Wei-Peng WP   Singleton Jared J   Qin Lei L   Camón Agustín A   Engelhardt Larry L   Luis Fernando F   Winpenny Richard E P REP   Zheng Yan-Zhen YZ  

Nature communications 20180529 1

The detailed analysis of magnetic interactions in a giant molecule is difficult both because the synthesis of such compounds is challenging and the number of energy levels increases exponentially with the magnitude and number of spins. Here, we isolated a {Ni<sub>21</sub>Gd<sub>20</sub>} nanocage with a large number of energy levels (≈5 × 10<sup>30</sup>) and used quantum Monte Carlo (QMC) simulations to perform a detailed analysis of magnetic interactions. Based on magnetization measurements ab  ...[more]

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