Your search keyword '"Kravarik, J"' showing total 8 results

1. Observation of filaments in mega-ampere dense plasma focus within pure deuterium by means of simultaneous schlieren and interferometry diagnostics.

Author

Kubes, P., Paduch, M., Auluck, S., Sadowski, M. J., Cikhardt, J., Klir, D., Kravarik, J., Malir, J., Munzar, V., Novotný, J., Rezac, K., Szymaszek, A., and Tomaszewski, K.

Subjects

DENSE plasmas, PLASMA focus, DEUTERIUM, LASER interferometry, INTERFEROMETRY, LASER beams, PLASMA diagnostics

Abstract

Fifteen-frames interferometric diagnostics at the PF-1000 facility was enhanced by adding four frames of the schlieren diagnostics and by splitting of four channels in the optical delay line. This setup enabled the visualization of gradients in the plasma density perpendicular to the direction of the diagnostic laser beam, and their relationship with larger structures visualized by using laser interferometry. The schlieren pictures showed filamentary structures of submillimeter 200–300 μm diameter in shots performed with pure deuterium filling. Filaments were observed in a thin (millimeter-thick) lateral-boundary layer, in lobules, and in internal fast transforming regions of the dense plasma column. Their high-density gradients and location in the regions of recorded (or inferred) currents indicated local concentrations of the magnetic field and current distribution. Millimeter- and submillimeter-size sources of fast charged particles, which were identified in the recorded ion pinhole pictures, have been conjectured to be a manifestation of high local concentrations of the magnetic energy. [ABSTRACT FROM AUTHOR]

Published

2023

2. Axial compression of plasma structures in a plasma focus discharge.

Author

Kubes, P., Cikhardt, J., Cikhardtova, B., Klir, D., Kravarik, J., Munzar, V., Rezac, K., Paduch, M., Zielinska, E., Szymaszek, A., Sadowski, M. J., Skladnik-Sadowska, E., Zaloga, D., and Tomaszewski, K.

Subjects

PLASMA gases, ELECTRODE reactions, AXIAL flow, SOFT X rays, INTERFEROMETRY

Abstract

The paper describes the behaviour of plasma within a MA plasma-focus with a novel electrode configuration, in which the anode and anti-anode were both equipped with conical tips. This configuration was applied to test the possibility of reducing the pinch axial dimensions during the radial compression of a current sheath. It made it possible to strengthen a dense plasma jet near the anode end, which ejected plasma into a bigger plasmoidal structure formed in the central pinch region. It did not allow forming an opposite anti-anode jet and stopped the axial motion of this structure. In plasma focus discharges with the deuterium filling, the decay of the anode jet and the corresponding plasmoid evolution were accompanied by the fusion-neutron production. Some results obtained with this configuration have also supported the hypothesis of the acceleration of fast electrons and ions at a release of the magnetic energy during magnetic reconnections in the organized dense plasma structures. [ABSTRACT FROM AUTHOR]

Published

2018

3. Interferometry and X-ray diagnostics of pinched helium plasma in a dense plasma focus with an Al-wire on the axis.

Author

Kubes, P., Paduch, M., Cikhardtova, B., Cikhardt, J., Klir, D., Kravarik, J., Rezac, K., Kortanek, J., Zielinska, E., Sadowski, M. J., and Tomaszewski, K.

Subjects

HELIUM plasmas, INTERFEROMETRY, RADIOSCOPIC diagnosis, DENSE plasmas, PLASMA focus, ALUMINUM wire

Abstract

The paper describes the evolution of the ordered dense toroidal- and plasmoidal-like structures in a pinch column and the hard X-ray emission from mega-ampere dense plasma-focus discharges performed at the helium (He) filling. Some shots were carried out with an Al-wire of 270 μm in diameter, which was placed along the z-axis in the front of the anode face. The evolution of the considered structures was investigated by means of a multi-frame laser interferometer system as well as the X-ray diagnostics, and it was compared with their evolution observed earlier at the deuterium (D2) filling. In He-plasma, the ions had a higher mass and Z-number, and at the same initial filling pressure, the velocity of plasma transformations was decreased, but the stability of the investigated structures, as well as the self-generated azimuthal current component and the soft X-ray radiation were increased. The distribution of the plasma electron density (determined from the interferometric images) made it possible to estimate closed currents during the quasi-stationary phases. It was found that the internal toroidal- and plasmoidal-currents reached the level of hundreds of kA. The plasma corona around the Al-wire (penetrating through the internal structures) impeded the formation of a small diameter of the pinch constriction, but it did not prevent the production of fast electron beams with energies above 100 keV, similar to those observed at the D2-filling. [ABSTRACT FROM AUTHOR]

Published

2016

4. Neutron Production and Fast Deuteron Characteristics at the Plasma Focus Discharge.

Author

Kubes, P., Kravarik, J., Klir, D., Rezac, K., Scholz, M., Paduch, M., Ivanova-Stanik, I., Karpinski, L., and Tomaszewski, K.

Subjects

*NEUTRON multiplicity, *DENSE plasma focus, *DEUTERONS, *X-rays, *DEUTERIUM, *INTERFEROMETRY

Abstract

This paper summarized the results of interferometry, X-ray and neutron diagnostics performed at the plasma focus facility filled with deuterium. The fusion processes are produced mainly in the dense and hot spherical structure of 2 cm diameter 5–8 cm in front of the anode. The electron temperature of this structure is about 750 eV and the density 5×1024–5×1025. The neutron energy distribution was calculated using time of flight analysis and showed the dominant direction of the fast deuteron velocity downstream. The deuteron energy distribution was estimated supposing isotropy distribution of the sum of opposite orientation. The total number of fast deuterons in the energy range of 10–400 keV is about 1018 with total energy of 20 kJ. Plasma in the spherical structure is heated dominantly with ion-ion Coulomb collisions of fast deuterons in the energy range below 10 keV. [ABSTRACT FROM AUTHOR]

Published

2009

5. Correlation of x-ray emission with interferometry and neutron diagnostics at tungsten anode face and deuterium filling in plasma-focus discharge.

Author

Kubes, P, Paduch, M, Klir, D, Kravarik, J, Rezac, K, Cikhardt, J, Kortanek, J, Kowalska-Strzeciwilk, E, Zielinska, E, Scholz, M, and Karpinski, L

Subjects

X-ray emission spectroscopy, INTERFEROMETRY, DEUTERIUM, TUNGSTEN ions, DEUTERONS, ATOMIC nucleus

Abstract

In this paper, the influence of the tungsten evaporated from the anode on neutron production and soft x-ray radiation was studied on the base of x-ray, interferometry and neutron diagnostics performed on the plasma-focus PF-1000 device with deuterium as the filling gas at the current of 2 MA and neutron yield above 1010. In the axial center of the anode face the copper circuit plate was substituted with a tungsten one. During the pinch, the tungsten ions evaporated from the anode were transported into the plasma column. The differences in the filters used in the microchannel-plate detector X-frames and PIN detectors enabled separation of the bremsstrahlung emitted by the deuterium plasma from the recombination radiation of the tungsten ions produced in the region of the plasma column near the anode at the time of the evolution of instabilities. In comparison with the copper anode face, the neutron yield decreased to 40% and the energy of deuterons producing neutrons to 80%. [ABSTRACT FROM AUTHOR]

Published

2013

6. Influence of the external magnetic field on pinch evolution and neutron production in plasma-focus discharge.

Author

Paduch, M, Zielinska, E, Kubes, P, Klir, D, Kravarik, J, Rezac, K, Cikhardt, J, Kortanek, J, Scholz, M, and Karpinski, L

Subjects

MAGNETIC fields, NEUTRON multiplicity, INTERFEROMETRY, DEUTERIUM, X-ray emission spectroscopy, SOFT X rays

Abstract

In this paper, the results of the study of the influence of the applied external axial magnetic field on the dynamics of pinch and neutron production are presented, following from measurements using x-ray, interferometry and neutron diagnostics performed on the plasma-focus PF-1000 device with deuterium as the filling gas at the current of 2 MA and neutron yield above 1010. The permanent magnets with a magnetic field of a few hundredths of tesla were used both inside the anode body and in front of the end of the dense column. This magnetic field decreases the neutron yield, depresses the implosion velocity and the velocity of the transformations of internal structures, stabilizes the pinch column, increases its axial symmetry and indirectly confirms the existence of internal closed currents inside the pinch structures. [ABSTRACT FROM AUTHOR]

Published

2013

7. Plastic plasma as a compressor of aluminum plasma at the PALS experiment.

Author

Kasperczuk, A., Pisarczyk, T., Chodukowski, T., Kalinowska, Z., Gus'kov, S.Yu., Demchenko, N.N., Klir, D., Kravarik, J., Kubes, P., Rezac, K., Ullschmied, J., Krousky, E., Pfeifer, M., Rohlena, K., Skala, J., and Pisarczyk, P.

Subjects

PLASMA gases, COMPRESSORS, ALUMINUM, PHYSICS experiments, ATOMIC number, ELECTRON distribution, FREQUENCIES of oscillating systems, INTERFEROMETRY

Abstract

In our earlier papers, we demonstrated that plasma pressure decreases with the growing atomic number of the target material. That experimentally confirmed fact brought about a question whether it would be possible to collimate the Al plasma outflow by using plastic plasma as a compressor. To prove that idea we used in our next experiments a plastic target with an Al cylindrical insert of 400 µm in diameter. The measurements were carried out at the Prague Asterix Laser System iodine laser facility. The laser provided a 250 ps (full width at half maximum (FWHM)) pulse with energy of 130 J at the third harmonic frequency (λ3 = 0.438 µm). The focal spot diameters (ΦL) 800, 1000, and 1200 µm ensured predominance of the plastic plasma amount high enough for the effective Al plasma compression. To study the Al plasma stream propagation and its interaction with plastic plasma a three-frame interferometric system and an X-ray camera were used. The experiment provided a proof that creation of the collimated Al plasma jet by action of outer plastic plasma is feasible. In order to discuss of the experimental results a thorough theoretical analysis was carried out. [ABSTRACT FROM PUBLISHER]

Published

2012

8. Neutron emission generated during wire array Z-pinch implosion onto deuterated fiber.

Author

Klir, D., Kravarik, J., Kubes, P., Rezac, K., Anan'ev, S. S., Bakshaev, Yu. L., Blinov, P. I., Chernenko, A. S., Kazakov, E. D., Korolev, V. D., Meshcherov, B. R., Ustroev, G. I., Juha, L., Krasa, J., and Velyhan, A.

Subjects

*NUCLEAR physics, *SPECTRUM analysis, *QUALITATIVE chemical analysis, *INTERFEROMETRY, *ABSORPTION spectra, *DEUTERIUM

Abstract

The implosion of both cylindrical and conical wire arrays onto a deuterated polyethylene fiber was studied on the S-300 pulsed power generator [A. S. Chernenko et al., Proceedings of the 11th International Conference on High Power Particle Beams (Academy of Science of Czech Republic, Prague, 1996), p. 154]. Neutron measurements were used to obtain information about acceleration of fast deuterons. An average neutron yield approached 109 on the current level of 2 MA. In the case of conical wire arrays, side-on neutron energy spectra peaked at 2.48±0.05 MeV with 450±100 keV full width at half-maximum. In the downstream direction, the peak neutron energy and the width of a neutron spectrum were 2.65±0.10 MeV and 350±100 keV, respectively. The total number of fast deuterons was 1015 and their average kinetic energy was about 150 keV. Most of the deuterons were directed toward the cathode. The broad width of neutron spectra in the side-on direction implied a high radial component of deuteron velocity. With regard to the emission time, neutron pulses temporally correlated with hard x rays and also with measured voltage. The neutron emission lasted on average 30±5 ns and it was observed during the stagnation and at the beginning of the expansion of a plasma column. At this moment, the plasma impedance reached 0.2–0.4 Ω. In the post-stagnation phase, this value was formed significantly by enhanced plasma resistance. Similar experimental results were observed also with cylindrical wire arrays imploding onto a deuterated fiber. [ABSTRACT FROM AUTHOR]

Published

2008