E. R. Koresheva scite author profile

In inertial fusion energy (IFE) research, a considerable attention has recently been focused on the issue of large target fabrication for MJ-class laser facilities. The ignition and high-gain target designs require a condensed uniform layer of hydrogen fuel on the inside of a spherical shell. In this report, we discuss the current status and further trends in the area of developing the layering techniques intended to produce ignition, and layering techniques proposed to high repetition rate and mass production of IFE targets.

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An efficient method of fuel ice formation in moving free-standing ICF/IFE targets

Александрова¹,

Bazdenkov²,

Chtcherbakov³

et al. 2004

J. Phys. D: Appl. Phys.

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Currently, research fields related to the elaboration of efficient layering methods for ICF/IFE applications are rapidly expanding. Significant progress has been made in the technology development based on rapid fuel layering inside moving free-standing targets (FST) which is referred to as the FST layering method. This paper presents our new results obtained in this area and describes technologically elegant solutions towards demonstrating a credible pathway for mass production of IFE cryogenic targets.

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Survivability of fuel layers with a different structure under conditions of the environmental effects: Physical concept and modeling results

et al. 2008

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E. R. Koresheva

Ultrafine Fuel Layers for Application to ICF/IFE Targets

Review on high repetition rate and mass production of the cryogenic targets for laser IFE

An efficient method of fuel ice formation in moving free-standing ICF/IFE targets

Survivability of fuel layers with a different structure under conditions of the environmental effects: Physical concept and modeling results

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