Your search keyword '"P. Tchórz"' showing total 15 results

1. Silicon-Boron Alloys as New Ultra-High Temperature Phase-Change Materials: Solid/Liquid State Interaction with the h-BN Composite

Author

Polkowski, Wojciech, Sobczak, Natalia, Bruzda, Grzegorz, Kudyba, Artur, Nowak, Rafal, Polkowska, Adelajda, Krzak, Izabela, Tchórz, Adam, and Giuranno, Donatella

Published

2020

2. Measuring the principal Hugoniot of inertial-confinement-fusion-relevant TMPTA plastic foams

Author

R. W. Paddock, M. W. von der Leyen, R. Aboushelbaya, P. A. Norreys, D. J. Chapman, D. E. Eakins, M. Oliver, R. J. Clarke, M. Notley, C. D. Baird, N. Booth, C. Spindloe, D. Haddock, S. Irving, R. H. H. Scott, J. Pasley, M. Cipriani, F. Consoli, B. Albertazzi, M. Koenig, A. S. Martynenko, L. Wegert, P. Neumayer, P. Tchórz, P. Rączka, P. Mabey, W. Garbett, R. M. N. Goshadze, V. V. Karasiev, and S. X. Hu

Subjects

Plasma Physics, 500 Naturwissenschaften und Mathematik::530 Physik::530 Physik, Equations of state, Inertial confinement fusion, ddc:530

Abstract

Physical review / E 107(2), 025206 (2023). doi:10.1103/PhysRevE.107.025206, Published by APS, Woodbury, NY

Published

2023

3. Target Charging, Strong Electromagnetic Pulse Emission and Proton Acceleration from Thin Foils at 10 TW IPPLM Femtosecond Laser Facility

Author

L. Ryć, D. Terwińska, J. Wolowski, Marcin Rosinski, P. Rączka, Vladimir Tikhonchuk, A. Zaraś-Szydłowska, P. Tchórz, J. Badziak, P. Parys, J. L. Dubois, S. Hulin, and J. Ribolzi

Subjects

Acceleration, Optics, Materials science, Proton, business.industry, law, Femtosecond, General Physics and Astronomy, business, Laser, law.invention, Electromagnetic pulse

Published

2020

4. Strongly magnetized plasma produced by interaction of nanosecond kJ-class laser with snail targets

Author

T Pisarczyk, O Renner, R Dudzak, T Chodukowski, Z Rusiniak, J Dostal, M Krupka, D Klir, J Domański, J Krasa, S Singh, J Cikhardt, D Batani, J Santos, T Burian, M Ehret, P Gajdos, A Zaras-Szydłowska, M Rosinski, P Tchórz, M Kustosz, C Vlachos, V Ospina-Bohórquez, S Jelinek, G Kocourkova, S Agrawal, S Borodziuk, M Krus, and L Juha

Subjects

Nuclear Energy and Engineering, Condensed Matter Physics

Abstract

Magnetized plasma studies are necessary for many applied studies, including laser-driven inertial fusion, modeling astrophysically relevant phenomena, and innovative industrial and medical applications. An interesting method of generating highly magnetized plasma can be based on the interaction of a laser with spiral-shaped cavity (snail-like) targets. A target shaped in this way can represent the central area of a spherical pellet that is not irradiated radially, but rather through an entrance hole allowing the laser beam to almost impact its inner surface tangentially (Pisarczyk et al 2018 Sci. Rep. 8 17 895). In the reported experiment, snail targets of various diameters were irradiated by linearly or circularly polarized radiation of a Prague asterix laser system (PALS) iodine laser delivering ∼500 J, 350 ps and 1.315 μm pulses on targets. Three-frame complex interferometry demonstrated that plasma is generated on the entire inside and outside surfaces of the snail target, starting from the very beginning of the laser–target interaction. The time-resolved records of the magnetic field and the electron density distribution inside and outside the snail target characterize the changes in the structure of the magnetized plasma. Inside the target, the magnetic field survives long after the termination of the laser–matter interaction, namely longer than 10 ns. Compared to a circularly polarized laser pulse, the irradiation of targets with a p-polarized beam increases both the emission of hot electrons (HEs) and the intensity of the magnetic field. The emission of HEs is not isotropic, and their energy distribution cannot be characterized by a single temperature.

Published

2023

5. Influence of the magnetic field on properties of hot electron emission from ablative plasma produced at laser irradiation of a disc-coil target

Author

T Pisarczyk, O Renner, R Dudzak, T Chodukowski, Z Rusiniak, J Domanski, J Badziak, J Dostal, M Krupka, S Singh, D Klir, M Ehret, P Gajdos, A Zaras-Szydłowska, M Rosinski, P Tchórz, M Szymanski, J Krasa, T Burian, M Pfeifer, J Cikhardt, S Jelinek, G Kocourkova, D Batani, K Batani, J Santos, C Vlachos, V Ospina-Bohórquez, L Volpe, S Borodziuk, M Krus, and L Juha

Subjects

Nuclear Energy and Engineering, Condensed Matter Physics

Abstract

Optical generators of strong magnetic fields based on the laser-driven-coil target concept are considered to be useful tools for studies of magnetized plasmas in particular, for the study of implosion of magnetized fusion targets in inertial fusion research and astrophysical applications. This paper presents the results of the research directed at an investigation of the plasma properties in a laser-induced magnetic field. In the experiment carried out on the kilojoule PALS laser facility, a generator of the magnetic field was a disc-coil (DC) target composed of a Cu disk coupled to a single-turn coil irradiated by a 1ω laser beam with an energy of 500 J. The attention was focused on examining the influence of the magnetic field on properties of the hot electron (HE) flux emitted from the front surface of the irradiated target. The three-frame complex interferometry and four-frame x-ray camera combined with the measurements of the HE population and energy using a multi-channel magnetic electron spectrometer and 2D-resolved imaging of the induced Cu Kα line emission were applied to characterize the ablative plasma and the generated particles. Based on the measured angular distributions of the electron energy spectra, 3D simulations have been performed to visualize the effect of the magnetic field on the HE flux and to provide information on space-time distribution of the electron and current density both without and with the presence of an axial magnetic field. The obtained results confirmed the possibility of generating magnetic fields above 5 T using the proposed DC target design as well as the significant impact of these fields on properties of the ablative plasma and the HE emission.

Published

2022

6. Capabilities of Thomson parabola spectrometer in various laser-plasma- and laser-fusion-related experiments

Author

Tchórz, Przemysław, Szymański, Maciej, Rosiński, Marcin, Chodukowski, Tomasz, and Borodziuk, Stefan

Abstract

The Thomson parabola spectrometer (TPS) [1] is a well-known, universal diagnostic tool that is widely used in laser plasma experiments to measure the parameters of accelerated ions. In contrast to other popular ion diagnostics, such as semiconductor detectors or ion collectors, the TPS is not greatly affected by electromagnetic pulses generated during high-power laser interaction with matter and can be tuned to acquire data in various energy ranges of accelerated ions, depending on the goal of the experiment. Despite the many advantages of this diagnostic device, processing the collected data is a difficult task and requires a lot of caution during interpretation of gathered results. In this work, we introduce the basic principles of operation and data analysis based on the numerical tool created specifically for the TPS designed at the Institute of Plasma Physics and Laser Microfusion, present a range of data obtained during various recent experiments in which our TPS was used, and highlight the difficulties in data analysis depending on the purpose of the experiment and the experimental setup.

Published

2023

7. Assessment of hospitalizations of patients after intoxication with organophosphates used in agriculture.

Author

Orzeł, Anna Katarzyna, Flieger, Wojciech, Szlichta, Dominika, Terpiłowska, Barbara, Terpiłowski, Michał, Orzeł, Zbigniew, Tchórz, Michał, and Szponar, Jarosław

Abstract

Introduction. Clinical manifestation of organophosphates toxicity may be differentiate and include cholinergic toxidrome, intermediate syndrome, OP-induced delayed polyneuropathy to chronic OP-induced neuropsychiatric disorder (OPIDN). Patients symptoms, along with decrease in cholinesterase serum level, determines the possible diagnosis of organophosphate poisoning. Objective. The aim of the study was to present the clinical manifestation and cholinesterase level changes in intoxication with organophosphorus compounds in patients. Materials and method. A data base was created by analysis of the hospital documents of 34 patients hospitalized due to organophosphate intoxication. Statistical analysis involved frequency tables with percentage values, the application of non-parametric Chi-square test and parametric t-Student test (with homogeneity of variance Levine test). The level of static significance was set to p=0.05. Results. In fatal hospitalizations (20.6%), cholinesterase level was significantly lower (265.87 U/l) than in other patients (4254.78 U/l; p<0.05). Similarly, levels of cholinesterase were decreased in group of patients with acute respiratory failure (999.79 U/l vs 4943.86 U/l in other patients; p<0.05), patients with multi-organ dysfunction syndrome (244.13 U/l vs 4914.89 U/l in other patients; p<0.05) and those with cardiac arrest (547 U/l vs 4636.25 U/l in other patients). A statistically significant difference was also observed in cholinesterase level of patients who required mechanical ventilation (548.17 U/l vs 5219.71 U/l in other group). The study revealed that 29.4% of poisonings were suicidal. Conclusions. The management of a patient with organophosphate poisoning remains challenging and requires continuous control. A significant step in the diagnostic process is the assessment changes in both the clinical picture and cholinesterase level. [ABSTRACT FROM AUTHOR]

Published

2022

8. Experimental demonstration of an electromagnetic pulse mitigation concept for a laser driven proton source

Author

Jerzy Wolowski, Marcin Rosinski, P. Tchórz, J. Ribolzi, A. Zaraś-Szydłowska, J. L. Dubois, L. Ryć, Vladimir Tikhonchuk, D. Makaruk, S. Hulin, Piotr Parys, P. Rączka, and J. Badziak

Subjects

Physics, Range (particle radiation), Proton, business.industry, Laser, 01 natural sciences, Electromagnetic radiation, 010305 fluids & plasmas, Intensity (physics), law.invention, Optics, law, 0103 physical sciences, Physics::Accelerator Physics, Proton emission, 010306 general physics, business, Instrumentation, Astrophysics::Galaxy Astrophysics, Beam (structure), Electromagnetic pulse

Abstract

The targets that are used to produce high-energy protons with ultra-high intensity lasers generate a strong electromagnetic pulse (EMP). To mitigate that undesired side effect, we developed and tested a concept called the "birdhouse." It consists in confining the EMP field in a finite volume and in dissipating the trapped electromagnetic energy with an electric resistor. A prototype was tested at a 10 TW 50 fs laser facility. The recorded average EMP mitigation ratio is about 20 for frequencies from 100 MHz to 6 GHz. The EMP mitigation ratio attains the level of 50 in the frequency range of 1-2 GHz where microwave emission is maximal. We measured the intensity of proton emission in two directions: along the laser propagation direction and along the edge of the proton beam. We observed that the "birdhouse" induces a two-fold increase of the intensity in the center of the proton beam and a two-fold reduction of the intensity on its edge. We did not observe any modification of the proton beam normalized spectrum.

Published

2018

9. Publisher’s Note: 'Experimental demonstration of an electromagnetic pulse mitigation concept for a laser driven proton source' [Rev. Sci. Instrum. 89, 103301 (2018)]

Author

P. Tchórz, A. Zaraś-Szydłowska, J. L. Dubois, P. Rączka, Marcin Rosinski, J. Ribolzi, J. Badziak, L. Ryć, Jerzy Wolowski, Vladimir Tikhonchuk, S. Hulin, D. Makaruk, and Piotr Parys

Subjects

Physics, Optics, Proton, business.industry, law, business, Laser, Instrumentation, Electromagnetic pulse, law.invention

Published

2019

10. Acceleration of carbon ions to high energies by a multi-PW laser

Author

Maciej Marchwiany, J. Domański, J Badziak, and P Tchórz

Subjects

History, Materials science, Ion beam, Extreme Light Infrastructure, Pulse duration, Laser, Computer Science Applications, Education, law.invention, Pulse (physics), Ion, Acceleration, law, Femtosecond, Atomic physics

Abstract

Extreme Light Infrastructure (ELI) is a large-scale European project, still in the development stage, offering parameters of laser drivers required for multiple applications (femtosecond pulse duration, ultra-relativistic laser intensities ~ 1022 - 1023 W/cm2), however studies of ion acceleration in the given intensity regime are still in the very early stages and require a deeper understanding of the processes occurring during laser-matter interactions to maximize the efficiency of ion acceleration. The purpose of this work is a numerical examination of the properties of carbon ion beams produced during the interaction of an ultra-intense laser beams (of intensities ~ 1021 – 1023 W/cm2 and pulse duration order of femtoseconds, predicted to be available at ELI-NP, Romania) with C12 target. The dependence of ion beam parameters, such as intensity, energy spectrum, maximum and average ion energy and spatial distribution of ion charge density, on laser pulse parameters (mainly intensity) and the target thickness is investigated. The possibility of generation of high intensity, GeV energy ion beams in the foregoing conditions is demonstrated. The obtained results can be useful for research in high energy-density physics, nuclear physics or medical applications of ion beams.

Published

2019

11. Severe carbamates intoxication of 43-year-old farmer - case report.

Author

Klatka, Barbara Zofia, Terpiłowski, Michał, Orzeł, Anna Katarzyna, Janeczko, Dominika, Hołowczuk, Magdalena, Tchórz, Michał, Krajewska, Anna, and Szponar, Jarosław

Abstract

Introduction. Carbamate insecticides are methyl carbamic acid esters and reversible cholinesterase inhibitors. In contrast to the long-term action of organophosphate insecticides, this complex undergoes rapid hydrolysis. Case report. A suicidal poisoning by exposure to carbofuran in a 43-year-old farmer is reported. The patient had a sudden respiratory and cardiac arrest in the mechanism of bradycardia asystole. He was additionally diagnosed with metabolic acidosis and massive aspiration pneumonia. After applied treatment, the patient's general condition improved - alignment of efficiency of both respiratory and circulatory efficiency were reached. Conclusion. Carbofuran is one of the most toxic carbamate insecticides. It is therefore important to react quickly and choose the right treatment. Differentiation between organophosphate and carbamate intoxication is essential [ABSTRACT FROM AUTHOR]

Published

2021

12. Evaluation of knowledge of Polish medical students regarding toxic plants

Author

Fałkowska, Urszula, Radzka, Agnieszka, Dobryniewska, Wanda, Krawiec, Karol, and Tchórz, Michał

Abstract

Introduction. There are approximately 300 species of poisonous plants in Poland. About 50 of them contain toxic substances which pose threat to health when consumed. Accidental poisonings remain the most common cause, but there were also cases correlated to suicidal or criminal purposes. There are only few toxicological departments in Poland keeping the records of plant poisonings, what makes presented data inaccurate. Aim. The authors decided to evaluate knowledge of Polish medical students regarding toxic plants and symptoms of its intoxication. Material and methods. The number of 734 online responses from students enrolled in medical studies at 16 different Polish universities were collected and analyzed to draw a conclusion. Results. As many as 87.6% of all respondents were in favor of introducing obligatory classes covering the issue of toxic plants. They were also asked to identify plants presented in the pictures. When it comes to 53.1% of students, they were familiar with Datura stramonium L. Over half of the participants were able to recognize the mild symptoms of intoxication, when 25.9% linked the poisoning to narcotic sleep. Taxus baccata L. was identified by 86.6% of the respondents and the majority of them possessed knowledge about the related symptoms. Heracleum sosnowskyi Manden. and Caltha palustris L. were recognized by respectively 94% and 64% of the students. As many as 84.1% of participants knew the effects of Heracleum sosnowskyi Manden intoxication. All correct answers related to this poisoning were chosen by 48.3% respondents. The results revealed that the symptoms of Caltha palustris L. are unknown to the majority. Atropa belladonna L. was successfully identified by 93.6%, Galanthus nivalis L. by 55.4% of the students, with a lower percentage of correct responses related to its intoxication. Conclusions. Such differentiated knowledge can be the result of both educational variances and personal experience. Polish medical universities should consider introducing extra classes that would cover the issue of toxic plant intoxications.

Published

2018

13. Neutron production in cavity pressure acceleration of plasma objects

Author

T. Chodukowski, S. Borodziuk, Z. Rusiniak, J. Cikhardt, K. Jach, J. Krasa, M. Rosinski, D. Terwinska, R. Dudzak, T. Pisarczyk, R. Swierczynski, T. Burian, P. Tchorz, J. Dostal, M. Szymanski, M. Pfeifer, J. Skala, S. Singh, M. Krupka, and M. Krus

Subjects

Physics, QC1-999

Abstract

The laser-induced Cavity Pressure Acceleration (CPA) scheme [S. Borodziuk et al., Appl. Phys. Lett. 95, 231501 (2009)] allows for effective transformation of the laser energy into the kinetic energy of plasma streams and dense plasma objects. It has been proven that using long-wavelength laser beams, with relatively low energies (up to 500 J for λ1 = 1.315 µm and FWHM = 350 ps), it is possible to accelerate macroparticles to very high velocities (above 107 cm/s). The study of neutron yield showed the benefit of CPA in delivering ion temperatures and density sufficient to reach the thermonuclear region.

Published

2020

14. Acceleration of carbon ions to high energies by a multi-PW laser.

Author

P Tchórz, J Badziak, J Domański, and M Marchwiany

Published

2019

15. Experimental demonstration of an electromagnetic pulse mitigation concept for a laser driven proton source.

Author

Dubois JL, Rączka P, Hulin S, Rosiński M, Ryć L, Parys P, Zaraś-Szydłowska A, Makaruk D, Tchórz P, Badziak J, Wołowski J, Ribolzi J, and Tikhonchuk V

Abstract

The targets that are used to produce high-energy protons with ultra-high intensity lasers generate a strong electromagnetic pulse (EMP). To mitigate that undesired side effect, we developed and tested a concept called the "birdhouse." It consists in confining the EMP field in a finite volume and in dissipating the trapped electromagnetic energy with an electric resistor. A prototype was tested at a 10 TW 50 fs laser facility. The recorded average EMP mitigation ratio is about 20 for frequencies from 100 MHz to 6 GHz. The EMP mitigation ratio attains the level of 50 in the frequency range of 1-2 GHz where microwave emission is maximal. We measured the intensity of proton emission in two directions: along the laser propagation direction and along the edge of the proton beam. We observed that the "birdhouse" induces a two-fold increase of the intensity in the center of the proton beam and a two-fold reduction of the intensity on its edge. We did not observe any modification of the proton beam normalized spectrum.

Published

2018