V.S. Bushuev scite author profile

Popular target designs are reviewed. Possible methods of fusion target fabrication are discussed and the equipment and samples are demonstrated. The properties of the uniform and structured~cluster! materials are considered, showing the advantage of cluster material for energy conversion into soft X rays. The target materials with high content of hydrogen isotopes~BeD 2 , LiBeD 3 , or ND 3 BD 3 ! prove to be more effective for high-power drivers in comparison with beryllium or polyimide.

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Study of Production and Quality of Large (1–2 MM) Polystyrene Hollow Microspheres.

Merkuliev

Akunets

Bushuev

et al. 1994

MRS Proc.

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We present a summary of the techniques used to produce hollow plastic microshells from solid polymer granules using drop tower techniques. Unlike solution drop tower techniques, the use of these granules allows one to produce good quality shells with diameters of 1 to 1.5 mm. The reasons for hollow plastic shell diameter limitations are discussed, and based on these studies we present a new drop tower furnace concept we call a ballistic furnace that has been designed to produce large (2 to 3 mm) polystyrene shells. The characteristics of the individual components such as the pellet injector and the fast cooling system are given.

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The Particle Injector for the “Ballistic Furnace”

1995

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V.S. Bushuev

Excitation of promising nuclear fusion reactions in picosecond laser plasmas

Super-high-strength microballoons for hydrogen storage

Motivation and fabrication methods for inertial confinement fusion and inertial fusion energy targets

Study of Production and Quality of Large (1–2 MM) Polystyrene Hollow Microspheres.

The Particle Injector for the “Ballistic Furnace”

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