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Ultrahigh Magnetic Fields Produced by Shearing Carbon Nanotubes

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arxiv 1806.09891 v1 pith:X5DBRDNT submitted 2018-06-26 cond-mat.mtrl-sci

Ultrahigh Magnetic Fields Produced by Shearing Carbon Nanotubes

classification cond-mat.mtrl-sci
keywords magneticcarbonswntstemperatureultrahighfieldsproducedshearing
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In laboratories, ultrahigh magnetic fields are usually produced with very large currents through superconducting, resistive or hybrid magnets, which require extreme conditions, such as low temperature, huge cooling water or tens of megawatts of power. In this work we report that when single walled carbon nanotubes (SWNTs) are cut, there are magnetic moments at the shearing end of SWNTs. The average magnetic moment is found to be 41.5+-9.8uB per carbon atom in the end states with a width of 1 nm at temperature of 300.0K, suggesting ultrahigh magnetic fields can be produced. The dangling sigma and pi bonds of the carbon atoms at the shearing ends play important roles for this unexpectedly high magnetic moments because the oxidation temperature of cut SWNTs is found to be as low as 312 in dry air. Producing ultrahigh magnetic field with SWNTs has the advantage of working at higher working temperature and with low energy consumption, suggesting great potentials of applications.

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