I G Kononov scite author profile

Characteristics of a room temperature laser on polycrystalline ZnS:Fe2+ subjected to diffuse doping from two sides were investigated. The sample was pumped by a non-chain electrodischarge HF laser with the FWHM duration of the radiation pulse of ~140 ns. The diameter of the pumping radiation spot on the surface of the crystal was 3.8 mm. Further increases in the size of the pumping spot were limited by parasitic generation arising due to a high concentration of Fe ions in the near-surface layer of the sample at a relatively small depth of doping (short length of active medium). The generation energy of 25.5 mJ was obtained at a slope efficiency of 12% with respect to the energy incident on the sample. Characteristics of lasers on polycrystalline ZnS:Fe2+ and ZnSe:Fe2+ have been compared in equal pumping conditions. The slope efficiencies of ZnSe:Fe2+ and ZnS:Fe2+ lasers with respect to the absorbed energy were 34% and 20%, respectively. At equal pumping energy absorbed in the samples, the duration of the ZnSe:Fe2+ laser radiation pulse was longer than that of the ZnS:Fe2+ laser. Possibilities of increasing the efficiency of ZnS:Fe2+ laser operation at room temperature by improving the technology of sample manufacturing and reducing the duration of the pumping pulse are discussed in this letter.

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High-efficiency room-temperature ZnSe:Fe2+ laser with a high pulsed radiation energy

Dormidonov

Firsov

Гаврищук

et al. 2016

Appl. Phys. B

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Scaling of energy characteristics of polycrystalline Fe²⁺:ZnSe laser at room temperature

Гаврищук¹,

Иконников²,

Kazantsev³

et al. 2015

Quantum Electron.

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Increasing the radiation energy of ZnSe : Fe²⁺laser at room temperature

et al. 2014

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Characteristics of the laser on a polycrystalline ZnSe : Fe2+ sample pumped by the radiation of a non-chain electro-discharge HF laser at room temperature are investigated. The radiation spot of the HF laser on a surface of an active element had an elliptical shape with the axes a × b = 2.8 × 3.2 ÷ 8.25 × 9.5 mm. A maximal generation energy E = 192 mJ was obtained at the efficiency with respect to the energy absorbed in the sample ηabs = 23% at the dimensions of the pumping spot a × b = 6.8 × 7.5 mm. In this case, a maximal slope efficiency with respect to the absorbed energy was ηsl = 29%. At the spot dimensions a × b = 2.8 × 3.2 mm the slope efficiency was ηsl = 34%. Possibilities of a further increase of the generation energy of a ZnSe : Fe2+ laser pumped by radiation of the HF laser at room temperature are discussed.

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The influence of vibrational excitation on the burning voltage of a pulsed electric discharge in HF laser working media

et al. 2006

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I G Kononov

High-energy room-temperature Fe²⁺:ZnS laser

High-efficiency room-temperature ZnSe:Fe2+ laser with a high pulsed radiation energy

Scaling of energy characteristics of polycrystalline Fe²⁺:ZnSe laser at room temperature

Increasing the radiation energy of ZnSe : Fe²⁺laser at room temperature

The influence of vibrational excitation on the burning voltage of a pulsed electric discharge in HF laser working media

Contact Info

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I G Kononov

High-energy room-temperature Fe2+:ZnS laser

High-efficiency room-temperature ZnSe:Fe2+ laser with a high pulsed radiation energy

Scaling of energy characteristics of polycrystalline Fe2+:ZnSe laser at room temperature

Increasing the radiation energy of ZnSe : Fe2+laser at room temperature

The influence of vibrational excitation on the burning voltage of a pulsed electric discharge in HF laser working media

Contact Info

Product

Resources

About

High-energy room-temperature Fe²⁺:ZnS laser

Scaling of energy characteristics of polycrystalline Fe²⁺:ZnSe laser at room temperature

Increasing the radiation energy of ZnSe : Fe²⁺laser at room temperature