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The conductivity of a neodymium‐based artificial honeycomb lattice undergoes dramatic changes upon application of magnetic fields and currents. These changes are attributed to a redistribution of magnetic charges that are formed at the vertices of the honeycomb due to the nonvanishing net flux of magnetization from adjacent magnetic elements. It is suggested that the application of a large magnetic...
In article number 1808298, Giovanni Vignale, Deepak K. Singh, and co‐workers demonstrate a one‐to‐one correspondence between the colossal enhancement in electrical conductivity in applied magnetic field and magnetic charge crystallization of a two‐dimensional magnetic material in the form of a triangular Wigner crystal state (blue triangular structure) in a Nd‐honeycomb lattice. The neutron reflectometry...
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