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Faraday isolator based on NTF crystal in critical orientation

É. A. Mironov, Oleg Palashov, А. К. Наумов, R.D. Aglyamov, В. В. Семашко

2021Applied Physics Letters10 citationsDOI

Abstract

The characteristics of a magneto-optical material promising for the development of Faraday isolators for high-power lasers—the Na0.37Tb0.63F2.26 (NTF) solid solution crystal with a negative value of optical anisotropy parameter—were investigated. The value of the optical anisotropy parameter ξNTF = −0.26 ± 0.02 was refined in model experiments on samples with increased absorption, and the value of the thermo-optical constant Q characterizing thermally induced depolarization was measured to be QNTF = (3.44 ± 0.4)·10−6 K−1. The negative value of ξ indicates that the depolarization resulting from stress-induced birefringence in this material is strongly dependent on orientation and ensures the presence of a critical orientation [C], with the use of which the magnitude of thermally induced depolarization in the Faraday isolator may be significantly reduced. The [C] orientation is determined by the parameter ξ; therefore, its accurate measurement is of particular importance. The investigation of Faraday isolators based on NTF crystals cut in [001] and [C] orientations demonstrated a significant advantage of the critical orientation. According to the measurement result, with the use of crystals with normal absorption, it is possible to develop a traditional (single element) Faraday isolator operating at room temperature and ensuring the isolation ratio of about 30 dB at the laser radiation power of ∼7 kW. This makes the NTF crystal one of the most prospective magneto-active media.

Topics & Concepts

Optical isolatorBirefringenceFaraday effectMaterials scienceFaraday cageAnisotropyOpticsLaserAbsorption (acoustics)Crystal (programming language)OptoelectronicsPhysicsMagnetic fieldQuantum mechanicsComputer scienceProgramming languageMagneto-Optical Properties and ApplicationsSolid State Laser TechnologiesGlass properties and applications