On the influence of the condensed particles on the absorption properties of plasma created by ablation controlled arc in a capillary

Pashchina, A. S.; Val’yano, G. E.

doi:10.1088/1742-6596/891/1/012299

J. Phys.: Conf. Ser.

2017

DOI: 10.1088/1742-6596/891/1/012299

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On the influence of the condensed particles on the absorption properties of plasma created by ablation controlled arc in a capillary

A. S. Pashchina

G. E. Val’yano

Abstract: Abstr act. The results of experimental studies of the absorption properties of plasma created by ablation controlled arc in a capillary are presented. It is shown that the dominant influence on the plasma absorption properties is exerted by condensed particles formed in relatively lowtemperature zones in the vicinity of the capillary wall and on the periphery of the plasma jet, whereas the plasma bremsstrahlung is optically thin. The nonmonotonic behavior of the plasma optical thickness in the spectral range Δ… Show more

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Hypersonic plasma flows created by a pulse capillary discharge

Pashchina

2019

J. Phys.: Conf. Ser.

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The possibility of producing by a pulsed capillary discharge the quasi-stationary high-speed plasma flows in a wide range of Mach numbers (M=3-20), electron number densities (ne ∼1011-1015 cm-3) and temperatures (Te ∼3-10 eV), rotational and vibrational temperatures (Tr =3800-6000 K and Tv =9000-15000 K), which can be used for setting up plasma aerodynamic experiments on small laboratory facilities, is shown. The most suitable for this purpose is a mode close to supersonic outflow into a vacuum, the transition to which occurs when the total pressure ratio exceeds N = p 0/p ∞ >5·103. This mode permits to obtain wide-aperture flows (D >10 cm) with spatially extended weakly inhomogeneous segments sufficient to accommodate tested bodies of a centimeter scale.

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Hypersonic plasma flows created by a pulse capillary discharge

Pashchina

2019

J. Phys.: Conf. Ser.

View full text Add to dashboard Cite

show abstract

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On the influence of the condensed particles on the absorption properties of plasma created by ablation controlled arc in a capillary

Cited by 1 publication

References 10 publications

Hypersonic plasma flows created by a pulse capillary discharge

Hypersonic plasma flows created by a pulse capillary discharge

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