Abstract
We propose a magneto-optical diffractive deep neural network (MO-D 2 NN). We simulated several MO-D 2 NNs, each of which consists of five hidden layers made of a magnetic material that contains 100 × 100 magnetic domains with a domain width of 1 µ m and an interlayer distance of 0.7 mm. The networks demonstrate a classification accuracy of > 90% for the MNIST dataset when light intensity is used as the classification measure. Moreover, an accuracy of > 80% is obtained even for a small Faraday rotation angle of π /100 rad when the angle of polarization is used as the classification measure. The MO-D 2 NN allows the hidden layers to be rewritten, which is not possible with previous implementations of D 2 NNs.
Cite
CITATION STYLE
Fujita, T., Sakaguchi, H., Zhang, J., Nonaka, H., Sumi, S., Awano, H., & Ishibashi, T. (2022). Magneto-optical diffractive deep neural network. Optics Express, 30(20), 36889. https://doi.org/10.1364/oe.470513
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