Properties of magnetic photonic crystals in the visible spectral region and their performance limitations

Autor: V. A. Kotov, D. E. Balabanov, Kamal Alameh, Mohammad Nur-E-Alam, Vladimir G. Shavrov, Mikhail Vasiliev
Rok vydání: 2018
Předmět:
Zdroj: Photonics and Nanostructures - Fundamentals and Applications. 28:12-19
ISSN: 1569-4410
DOI: 10.1016/j.photonics.2017.11.003
Popis: We report on the results of computer modelling and performance analysis of the optical and magneto-optical (MO) characteristics of one-dimensional magnetic photonic crystals (MPC) of several classic design types (having either a single structure defect, or a number of these), designed for applications in the visible spectral region. The calculations are performed accounting for the real levels of optical absorption achievable in existing MO materials which currently demonstrate the best MO quality (bismuth-substituted ferrite garnets). We consider Bi 2 Dy 1 Fe 4 Ga 1 O 12 as the base material for use within quarter-wave thick MO layers of MPC; silica is used for the non-magnetic transparent quarter-wave layers. The achieved results can be used to clarify the nature of the differences that exist between the expected practical potential of MPCs in integrated photonics, and the actual attained experimental results. Our results show that in MPCs optimized for light intensity modulation applications, in the red spectral region (near 650 nm), the achievable levels of optical transmission are limited to about 30%. This coincides spectrally with the peaks of Faraday rotation reaching their maxima at about 25°, with further transmission increases possible in the near-infrared region. Larger Faraday rotation angles are only achievable currently in structures or single film layers with reduced transmission.
Databáze: OpenAIRE
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