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Photonic crystal fiber injected with Fe3O4 nanofluid for magnetic field detection

We report a magnetic field sensor having advantages of both photonic crystal fiber and optofluidics, combining them on a single platform by infiltrating small amount of Fe3O4 magnetic optofluid/nanofluid in cladding holes of polarization-maintaining photonic crystal fiber. We demonstrated that magne...

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Published in:	Applied physics letters 2011-10, Vol.99 (16)
Main Authors:	Thakur, Harneet V., Nalawade, Sandipan M., Gupta, Swati, Kitture, Rohini, Kale, S. N.
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Language:	English
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creator	Thakur, Harneet V. Nalawade, Sandipan M. Gupta, Swati Kitture, Rohini Kale, S. N.
description	We report a magnetic field sensor having advantages of both photonic crystal fiber and optofluidics, combining them on a single platform by infiltrating small amount of Fe3O4 magnetic optofluid/nanofluid in cladding holes of polarization-maintaining photonic crystal fiber. We demonstrated that magnetic field of few mT can be easily and very well detected with higher sensitivity of 242 pm/mT. The change in the birefringence values has been correlated to the response of nanofluid to applied field.
doi_str_mv	10.1063/1.3651490
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title	Photonic crystal fiber injected with Fe3O4 nanofluid for magnetic field detection
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