Optical isolators for 2-micron fibre lasers

Magneto-optical properties of tellurium-arsenic-selenium glass ( T e 20 A s 30 S e 50 ) were measured and analyzed. A Verdet constant of 15.18 rad/T/m at 1950 nm with the figure of merit of more than 8.72 rad/T, which is the highest value reported in glass materials at this wavelength, was measured. Compared to other chalcogenide glasses, such as G e 10 S e 90 and G e 25 A s 15 S 60 , T e 20 A s 30 S e 50 glass exhibits higher Verdet constants, broader mid-infrared transparency window, and longer infrared absorption edge, making it a very promising material to fabricate magneto-optical devices for mid-infrared applications.

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High Verdet constant of Te₂₀As₃₀Se₅₀ glass in the mid-infrared

Mollaee

Lucas

Ari

et al. 2020

Opt. Lett.

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Faraday isolator based on crystalline silicon for 2-µm laser radiation

Snetkov

Yakovlev

2022

Opt. Lett.

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The magneto-optical properties of single-crystal silicon were investigated as a function of wavelength and temperature. A bulk free-space traditional Faraday isolator for the radiation with a wavelength of 1940 nm with maximum admissible power P max =20 W (magnetic field ~2.8 Т) was implemented. The negative value of the piezo-optical anisotropy ratio of the used material allowed developing an Faraday isolator with compensation of thermally induced depolarization without reciprocal rotator with estimated P max =180 W. The potential of single-crystal silicon as a magneto-optical material for Faraday isolators operating at room as well as at cryogenic temperature in a high-power laser radiation was considered. It was shown that single-crystal silicon is highly promising for the development of Faraday devices, including ones for next-generation laser interferometers aimed at detecting gravitational waves.The devices based on the Faraday effect, such as Faraday isolators (FI) and rotators are the essential components of complex laser systems. Faraday isolators reduce the risk of amplifier self-excitation, protect master oscillator against unwanted feedback, and prevent damage of sensitive elements by back reflections. Faraday rotators are used to organize multipass amplifier schemes and schemes with compensation of thermally induced depolarization. Recently, there has been an increased interest in high-power laser radiation in the 1.4-3 µm range. Laser radiation in this range is broadly used in industry (welding, cutting, and drilling of plastics), medicine (surgery, urology), in research (material studies, atmospheric probing, environmental monitoring), and is promising for implementing submarine fiber-optic communication. 1 Also, the ~2 µm wavelength range is regarded to be highly promising for the new generation laser interferometers for gravitational wave detection. 2,3 Whereas FIs providing an isolation ratio of better than 30 dB up to an average power of several kW (clear aperture Ø 30 mm) have been demonstrated for the radiation in the region of 1 µm, 4,5 only a few FIs ensuring high isolation at high average power have been reported in the wavelength range of ~2 µm (official web sites: EOT <30 W, clear aperture Ø4 mm; NewPort <50 W, clear aperture Ø4 mm). This is explained by both a lower availability of radiation sources with a high average power, and a smaller number of known and well-studied magneto-optical materials that are transparent in this wavelength range.

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Optical isolators for 2-micron fibre lasers

Cited by 2 publications

References 10 publications

High Verdet constant of Te₂₀As₃₀Se₅₀ glass in the mid-infrared

High Verdet constant of Te₂₀As₃₀Se₅₀ glass in the mid-infrared

Faraday isolator based on crystalline silicon for 2-µm laser radiation

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Optical isolators for 2-micron fibre lasers

Cited by 2 publications

References 10 publications

High Verdet constant of Te20As30Se50 glass in the mid-infrared

High Verdet constant of Te20As30Se50 glass in the mid-infrared

Faraday isolator based on crystalline silicon for 2-µm laser radiation

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Product

Resources

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High Verdet constant of Te₂₀As₃₀Se₅₀ glass in the mid-infrared

High Verdet constant of Te₂₀As₃₀Se₅₀ glass in the mid-infrared