Your search keyword '"I. Klimek"' showing total 33 results

1. Validation of neutron emission and neutron energy spectrum calculations on a Mega Ampere Spherical Tokamak with directional relativistic spectrum simulator

Author

A. Sperduti, I. Klimek, M. Gorelenkova, Antti Snicker, Marco Cecconello, Sean Conroy, Uppsala University, Princeton Plasma Physics Laboratory, Department of Applied Physics, Aalto-yliopisto, and Aalto University

Subjects

Physics, Thesaurus (information retrieval), Mega Ampere Spherical Tokamak, Neutron emission, Astrophysics::High Energy Astrophysical Phenomena, Spectrum (functional analysis), Condensed Matter Physics, Neutron energy spectrum, 01 natural sciences, 7. Clean energy, 010305 fluids & plasmas, Computational physics, Nuclear Energy and Engineering, Physics::Plasma Physics, 0103 physical sciences, 010306 general physics

Abstract

openaire: EC/H2020/633053/EU//EUROfusion The recently developed directional relativistic spectrum simulator (DRESS) code has been validated for the first time against numerical calculations and experimental measurements performed on the Mega Ampere Spherical Tokamak . In this validation, the neutron emissivities and rates computed by DRESS are benchmarked against TRANSP/NUBEAM predictions while the neutron energy spectra provided by DRESS taking as input TRANSP/NUBEAM and ASCOT/BBNBI in Gyro-Orbit mode fast ion distributions are validated against proton pulse height spectra measured by the neutron flux monitor. Excellent agreement was found between DRESS and TRANSP/NUBEAM predictions of local and total neutron emission.

Published

2021

2. Overview of new MAST physics in anticipation of first results from MAST Upgrade

Author

O. Marshall, R. V. Perez, D. Robb, Ben F. McMillan, Michael Barnes, K. J. Gibson, C. Ham, R. J. Akers, J. Lovell, Fabio Riva, L. Piron, J. S. Allcock, Sandra C. Chapman, S.W.A. Irvine, Kurt Flesch, Junchao Huang, I. Klimek, C. D. Challis, S. A. Silburn, A. Kirk, A. Meakins, S. F. Smith, I. Waters, Sean Conroy, G. Naylor, L. Pangione, I. Katramados, Greg Colyer, S. Saarelma, S. Gadgil, Edmund Hood Highcock, Michael Fitzgerald, D. S. Gahle, J. Leland, Paul M. Bryant, S. Hall, Philippa Browning, T. Farley, Saskia Mordijck, L. Appel, T. O'Gorman, Joe Oliver Allen, F. van Wyk, R. O. Dendy, S. S. Henderson, I. T. Chapman, Michael F. J. Fox, H. F. Meyer, Heinke Frerichs, Young-chul Ghim, G. Fishpool, Peter Naylor, Benjamin Daniel Dudson, S. Scannell, R. Stephen, J. Milnes, B. Lloyd, N. Ben Ayed, John Howard, S. Murphy-Sugrue, M. G. O'Mullane, Felix I. Parra, H. R. Wilson, A. W. Morris, S. Gibson, D. A. Ryan, B. Madsen, W. Boeglin, A.J. Thornton, Matthew Carr, K. G. McClements, M. Cox, Ray M. Sharples, S. Allan, K. Mukhi, William Dorland, Oliver Schmitz, G. Cunningham, N. Thomas-Davies, C. Bowman, D. Muir, Colin Roach, O. Myatra, Stanislas Pamela, Mirko Salewski, M. Turnyanskiy, James W. Bradley, Alexander Schekochihin, S. Orchard, Nick Walkden, David Moulton, L. Garzotti, N. J. Conway, R. G. L. Vann, Bruce Lipschultz, M. Price, A. S. Jacobsen, N. Heiberg, G. McArdle, F. Militello, John Omotani, Luke Easy, A. Fil, X. Feng, S. E. Sharapov, L. A. Kogan, Sarah Newton, J. R. Harrison, Bogdan Hnat, A. Sperduti, O. M. Jones, Romualdo Martín, S. Elmore, D. L. Keeling, Matthew Reinke, M. Valovic, Marco Cecconello, A. R. Field, MAST-U Team, and EUROfusion MST1 Team

Subjects

Physics, Nuclear and High Energy Physics, Tokamak, Field line, Divertor, MAST, Plasma, Collisionality, Spherical tokamak, Condensed Matter Physics, 01 natural sciences, Resonant magnetic perturbations, 010305 fluids & plasmas, law.invention, Computational physics, Physics::Plasma Physics, law, 0103 physical sciences, 010306 general physics, Neutral particle, Mast upgrade

Abstract

The mega amp spherical tokamak (MAST) was a low aspect ratio device (R/a = 0.85/0.65 ~ 1.3) with similar poloidal cross-section to other medium-size tokamaks. The physics programme concentrates on addressing key physics issues for the operation of ITER, design of DEMO and future spherical tokamaks by utilising high resolution diagnostic measurements closely coupled with theory and modelling to significantly advance our understanding. An empirical scaling of the energy confinement time that favours higher power, lower collisionality devices is consistent with gyrokinetic modelling of electron scale turbulence. Measurements of ion scale turbulence with beam emission spectroscopy and gyrokinetic modelling in up-down symmetric plasmas find that the symmetry of the turbulence is broken by flow shear. Near the non-linear stability threshold, flow shear tilts the density fluctuation correlation function and skews the fluctuation amplitude distribution. Results from fast particle physics studies include the observation that sawteeth are found to redistribute passing and trapped fast particles injected from neutral beam injectors in equal measure, suggesting that resonances between the m = 1 perturbation and the fast ion orbits may be playing a dominant role in the fast ion transport. Measured D–D fusion products from a neutron camera and a charged fusion product detector are 40% lower than predictions from TRANSP/NUBEAM, highlighting possible deficiencies in the guiding centre approximation. Modelling of fast ion losses in the presence of resonant magnetic perturbations (RMPs) can reproduce trends observed in experiments when the plasma response and charge-exchange losses are accounted for. Measurements with a neutral particle analyser during merging-compression start-up indicate the acceleration of ions and electrons. Transport at the plasma edge has been improved through reciprocating probe measurements that have characterised a geodesic acoustic mode at the edge of an ohmic L-mode plasma and particle-in-cell modelling has improved the interpretation of plasma potential estimates from ball-pen probes. The application of RMPs leads to a reduction in particle confinement in L-mode and H-mode and an increase in the core ionization source. The ejection of secondary filaments following type-I ELMs correlates with interactions with surfaces near the X-point. Simulations of the interaction between pairs of filaments in the scrape-off layer suggest this results in modest changes to their velocity, and in most cases can be treated as moving independently. A stochastic model of scrape-off layer profile formation based on the superposition of non-interacting filaments is in good agreement with measured time-average profiles. Transport in the divertor has been improved through fast camera imaging, indicating the presence of a quiescent region devoid of filament near the X-point, extending from the separatrix to ψ n ~ 1.02. Simulations of turbulent transport in the divertor show that the angle between the divertor leg on the curvature vector strongly influences transport into the private flux region via the interchange mechanism. Coherence imaging measurements show counter-streaming flows of impurities due to gas puffing increasing the pressure on field lines where the gas is ionised. MAST Upgrade is based on the original MAST device, with substantially improved capabilities to operate with a Super-X divertor to test extended divertor leg concepts. SOLPS-ITER modelling predicts the detachment threshold will be reduced by more than a factor of 2, in terms of upstream density, in the Super-X compared with a conventional configuration and that the radiation front movement is passively stabilised before it reaches the X-point. 1D fluid modelling reveals the key role of momentum and power loss mechanisms in governing detachment onset and evolution. Analytic modelling indicates that long legs placed at large major radius, or equivalently low at the target compared with the X-point are more amenable to external control. With MAST Upgrade experiments expected in 2019, a thorough characterisation of the sources of the intrinsic error field has been carried out and a mitigation strategy developed.

Published

2019

3. Overview of recent physics results from MAST

Author

A. Kirk, J. Horacek, C. D. Challis, I. Klimek, W. A. Peebles, K. Imada, W. A. Gracias, H. R. Wilson, A. W. Morris, L. Piron, K Tani, M. Wischmeier, Sean Conroy, D. A. Ryan, M. O’Brien, F. Arese Lucini, Fabio Riva, Ryota Imazawa, Sandra C. Chapman, Anders Nielsen, P. Cahyna, Nick Walkden, Michael Barnes, I. Fitzgerald, C. Gurl, G. Fishpool, A. Patel, Takuma Yamada, M. Cecconello, M. Turnyanskiy, Ben F. McMillan, A. R. Field, G. Cunningham, Y. Liu, T.R. Barrett, F. J. Casson, Michael F. J. Fox, M. Cox, G. Naylor, A.J. Thornton, Matthew Carr, Nicolas Fedorczak, R. Scannell, L. Pangione, L. Garzotti, N. C. Hawkes, Hiroshi Tanabe, T. Farley, Yasushi Ono, M. Evans, Gen Motojima, Daniel Dunai, T. O'Gorman, S. Saarelma, William Dorland, H. F. Meyer, G. McArdle, B. Huang, E. Havlickova, T. Watanabe, Michiaki Inomoto, R. O. Dendy, Paolo Ricci, Edmund Highcock, F. van Wyk, H. Leggate, Matthias Komm, Jens Madsen, Alexander Schekochihin, S. A. Silburn, I. T. Chapman, S.M. Kaye, Hajime Tanaka, Jeppe Olsen, F. Militello, S. D. Pinches, R. V. Perez, D. Harting, K. G. McClements, Jarrod Leddy, C. M. Roach, Roddy G. L. Vann, Luke Easy, Walter Guttenfelder, Patrick Tamain, Benjamin Daniel Dudson, M. G. O'Mullane, John Omotani, W. A. Cooper, B. Lloyd, Felix I. Parra, K. J. Gibson, EUROfusion Mst Team, S. Cardnell, N. J. Conway, O. M. Jones, W. Lai, J. Young, S. S. Henderson, Brendan M. Crowley, Romualdo Martín, Neal Crocker, A. Meakins, A. V. Danilov, Ray M. Sharples, D. L. Keeling, M. Gorelenkova, J. Simpson, J. Hollocombe, J. Adamek, Bogdan Hnat, N. Ben Ayed, L Kogan, Matthew Reinke, M. Valovic, J. R. Harrison, Bruce Lipschultz, Vladimir Shevchenko, Clive Michael, J. Storrs, M. Romanelli, M. Price, S. E. Sharapov, John Howard, J. Mailloux, N. Thomas-Davies, D. Muir, Stanislas Pamela, David Dickinson, James W. Bradley, M. Kocan, J. Chorley, Philippa Browning, H. P. Summers, Yuichi Takase, Vyacheslav S. Lukin, G. P. Maddison, J. Milnes, Keii Gi, L. Appel, Adam Stanier, Daniel Thomas, S. Allan, Ivan Lupelli, Young-chul Ghim, D. F. Howell, J. C. Hillesheim, S.W. Lisgo, A. N. Saveliev, David Taylor, W. Boeglin, Kazutake Kadowaki, J. Brunner, C. Ham, R. J. Akers, D. S. Darrow, B. Lomanowski, T. C. Hender, S. Elmore, Mast Team, Simon Freethy, S. Zoletnik, Kouji Shinohara, MAST Team, and EUROfusion MST1 Team

Subjects

Physics, Nuclear and High Energy Physics, Toroid, Turbulence, Divertor, FOS: Physical sciences, Electron, Plasma, Condensed Matter Physics, 7. Clean energy, 01 natural sciences, Resonant magnetic perturbations, Physics - Plasma Physics, 010305 fluids & plasmas, Computational physics, Plasma Physics (physics.plasm-ph), Pedestal, Physics::Plasma Physics, 0103 physical sciences, Electron temperature, 010306 general physics

Abstract

New results from MAST are presented that focus on validating models in order to extrapolate to future devices. Measurements during start-up experiments have shown how the bulk ion temperature rise scales with the square of the reconnecting field. During the current ramp up models are not able to correctly predict the current diffusion. Experiments have been performed looking at edge and core turbulence. At the edge detailed studies have revealed how filament characteristic are responsible for determining the near and far SOL density profiles. In the core the intrinsic rotation and electron scale turbulence have been measured. The role that the fast ion gradient has on redistributing fast ions through fishbone modes has led to a redesign of the neutral beam injector on MAST Upgrade. In H-mode the turbulence at the pedestal top has been shown to be consistent with being due to electron temperature gradient modes. A reconnection process appears to occur during ELMs and the number of filaments released determines the power profile at the divertor. Resonant magnetic perturbations can mitigate ELMs provided the edge peeling response is maximised and the core kink response minimised. The mitigation of intrinsic error fields with toroidal mode number n>1 has been shown to be important for plasma performance., 34 pages, 10 figures. This is an author-created, un-copyedited version of an article submitted for publication in Nuclear Fusion. IoP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it

Published

2016

4. Discrepancy between estimated and measured fusion product rates on MAST using TRANSP/NUBEAM

Author

R. V. Perez, W. Boeglin, D. L. Keeling, I. Klimek, Sean Conroy, and Marco Cecconello

Subjects

Nuclear and High Energy Physics, Fusion, Materials science, Nuclear Theory, Spherical tokamak, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Mast (sailing), Nuclear physics, Physics::Plasma Physics, 0103 physical sciences, Neutron, Nuclear Experiment, 010306 general physics

Abstract

Experimental evidence is presented of a discrepancy between the predicted and measured D-D fusion product rates on MAST Both the neutron and proton production rates, measured independently with a n ...

Published

2018

5. Erratum: The effects of resonant magnetic perturbations on fast ion confinement in the mega amp spherical tokamak (2015 Plasma Phys. Control. Fusion 57 075003)

Author

R. J. Akers, A. Kirk, K. G. McClements, I. Klimek, D. L. Keeling, Kouji Shinohara, W. Boeglin, Marco Cecconello, K Tani, R. V. Perez, and O. M. Jones

Subjects

Physics, Fusion, Nuclear Energy and Engineering, Magnetic confinement fusion, Plasma, Atomic physics, Spherical tokamak, Condensed Matter Physics, Mega, Resonant magnetic perturbations, Ion

Published

2015

6. Impurity transport driven by fishbones in MAST

Author

S. S. Henderson, I. Klimek, L. Garzotti, S. E. Sharapov, M. Carr, O. M. Jones, K. G. McClements, and Marco Cecconello

Subjects

Physics, Nuclear and High Energy Physics, education.field_of_study, Toroid, Astrophysics::High Energy Astrophysical Phenomena, Population, Perturbation (astronomy), Condensed Matter Physics, Ion, Bursting, Amplitude, Physics::Plasma Physics, Impurity, Astrophysics::Solar and Stellar Astrophysics, Atomic physics, education, Maximum amplitude

Abstract

In MAST, bursting toroidal Alfven eigenmodes and fishbones are observed to give rise to an asymmetric perturbation to the soft x-ray (SXR) emission close to the magnetic axis which grows and decays on the time scale of the fishbone evolution. As the fishbone nears its maximum amplitude, the SXR emission starts to increase (decrease) at radial positions smaller (larger) than the radial position of the magnetic axis. This trend in the SXR emission persists for a few milliseconds, until the fishbone starts to decay in amplitude and the slower overall trend of the SXR emission once again becomes dominant. A preliminary analysis suggests that the change in the SXR emission is due to the localized accumulation of high-Z impurities, sustained against parallel transport by the effects of fishbones on the fast ion population.

Published

2015

7. Overview of MAST results

Author

M.R. O'Brien, K. Imada, I. Klimek, S. Saarelma, A.J. Thornton, Matthew Carr, John Caughman, A. R. Field, L. V. Wyk, N. Thomas-Davies, M. Cox, D. Muir, Stanislas Pamela, E.D. Fredrickson, David Dickinson, James W. Bradley, J. R. Harrison, S. Lisgo, Vladimir Shevchenko, J. Chorley, B. Huang, R. O. Dendy, A. W. Morris, G. Naylor, Stanley Kaye, M. Kocan, M. Romanelli, J. Brunner, K. G. McClements, T.S. Bigelow, Alexander Schekochihin, Simon Freethy, Clive Michael, C. M. Roach, N. J. Conway, W. A. Peebles, E. Havlickova, Bogdan Hnat, S. S. Henderson, William Dorland, Takuma Yamada, Volker Naulin, C. Gurl, M. Peng, R. V. Perez, Benjamin Daniel Dudson, J. Storrs, S. Zoletnik, Mario Podesta, V. A. Rozhansky, P. Cahyna, W. Guttenfelder, C. Ham, Gen Motojima, Yuichi Takase, S. A. Silburn, G. Taylor, R. J. Akers, H. Leggate, Hajime Tanaka, K. J. Gibson, Bruce Lipschultz, N. Ben Ayed, O. M. Jones, J. Horacek, Romualdo Martín, Neal Crocker, A. V. Danilov, R. Scannell, D. L. Keeling, Eric Nardon, C. D. Challis, Matthew Lilley, S. D. Pinches, M. Price, L. Appel, John Howard, Daniel Thomas, J. Hawke, A. Kirk, Otto Asunta, T. O'Gorman, S. Allan, Brendan M. Crowley, Matthew Reinke, S. Sangaroon, H. R. Wilson, G. P. Maddison, J. Milnes, M. Valovic, H. F. Meyer, Ivan Lupelli, Ray M. Sharples, T. C. Hender, Marco Cecconello, Yang Liu, L. Piron, D. Harting, S. J. Diem, Jonathan Graves, H. J. C. Oliver, Greg Colyer, J. C. Hillesheim, Nick Walkden, J. Simpson, J. Adamek, S. E. Sharapov, G. Fishpool, A. Patel, Sandra C. Chapman, M. Turnyanskiy, Anders Nielsen, S. Elmore, N. C. Hawkes, D. S. Darrow, B. Lomanowski, L. Garzotti, Edmund Highcock, D. Dunai, R. G. L. Vann, Luke Easy, Young-chul Ghim, Fulvio Militello, Y. Ren, A. N. Saveliev, David Taylor, W. Boeglin, J. R. Robinson, L. Pangione, Yasushi Ono, I. T. Chapman, Michael Barnes, W. A. Cooper, B. Lloyd, Felix I. Parra, J. Holgate, Michael F. J. Fox, A. Meakins, Ahmed Diallo, Ben F. McMillan, G. Cunningham, Hiroshi Tanabe, G.J. McArdle, and J. Mailloux

Subjects

Physics, Nuclear and High Energy Physics, Mega Ampere Spherical Tokamak, Divertor, Magnetic confinement fusion, Plasma, Collisionality, Condensed Matter Physics, 7. Clean energy, Resonant magnetic perturbations, symbols.namesake, Heat flux, Physics::Plasma Physics, symbols, Langmuir probe, Atomic physics

Abstract

The Mega Ampère Spherical Tokamak (MAST) programme is strongly focused on addressing key physics issues in preparation for operation of ITER as well as providing solutions for DEMO design choices. In this regard, MAST has provided key results in understanding and optimizing H-mode confinement, operating with smaller edge localized modes (ELMs), predicting and handling plasma exhaust and tailoring auxiliary current drive. In all cases, the high-resolution diagnostic capability on MAST is complemented by sophisticated numerical modelling to facilitate a deeper understanding. Mitigation of ELMs with resonant magnetic perturbations (RMPs) with toroidal mode number n RMP = 2, 3, 4, 6 has been demonstrated: at high and low collisionality; for the first ELM following the transition to high confinement operation; during the current ramp-up; and with rotating n RMP = 3 RMPs. n RMP = 4, 6 fields cause less rotation braking whilst the power to access H-mode is less with n RMP = 4 than n RMP = 3, 6. Refuelling with gas or pellets gives plasmas with mitigated ELMs and reduced peak heat flux at the same time as achieving good confinement. A synergy exists between pellet fuelling and RMPs, since mitigated ELMs remove fewer particles. Inter-ELM instabilities observed with Doppler backscattering are consistent with gyrokinetic simulations of micro-tearing modes in the pedestal. Meanwhile, ELM precursors have been strikingly observed with beam emission spectroscopy (BES) measurements. A scan in beta at the L–H transition shows that pedestal height scales strongly with core pressure. Gyro-Bohm normalized turbulent ion heat flux (as estimated from the BES data) is observed to decrease with increasing tilt of the turbulent eddies. Fast ion redistribution by energetic particle modes depends on density, and access to a quiescent domain with ‘classical’ fast ion transport is found above a critical density. Highly efficient electron Bernstein wave current drive (1 A W−1) has been achieved in solenoid-free start-up. A new proton detector has characterized escaping fusion products. Langmuir probes and a high-speed camera suggest filaments play a role in particle transport in the private flux region whilst coherence imaging has measured scrape-off layer (SOL) flows. BOUT++ simulations show that fluxes due to filaments are strongly dependent on resistivity and magnetic geometry of the SOL, with higher radial fluxes at higher resistivity. Finally, MAST Upgrade is due to begin operation in 2016 to support ITER preparation and importantly to operate with a Super-X divertor to test extended leg concepts for particle and power exhaust.

Published

2015

8. Investigating fusion plasma instabilities in the Mega Amp Spherical Tokamak using mega electron volt proton emissions (invited)

Author

O. Leon, I. Klimek, R. V. Perez, M. Turnyanskiy, Clive Michael, K. G. McClements, D. L. Keeling, Marco Cecconello, P. Avila, A. Angulo, S. Allan, W. Boeglin, C. Lopez, R. J. Akers, D. S. Darrow, N. J. Conway, R. Scannell, and O. M. Jones

Subjects

Physics, Proton, Plasma, Spherical tokamak, Collimated light, Neutral beam injection, Nuclear physics, Physics::Plasma Physics, Physics::Space Physics, Physics::Accelerator Physics, Nuclear fusion, Neutron, Atomic physics, Proton emission, Nuclear Experiment, Instrumentation

Abstract

The proton detector (PD) measures 3 MeV proton yield distributions from deuterium-deuterium fusion reactions within the Mega Amp Spherical Tokamak (MAST). The PD’s compact four-channel system of collimated and individually oriented silicon detectors probes different regions of the plasma, detecting protons (with gyro radii large enough to be unconfined) leaving the plasma on curved trajectories during neutral beam injection. From first PD data obtained during plasma operation in 2013, proton production rates (up to several hundred kHz and 1 ms time resolution) during sawtooth events were compared to the corresponding MAST neutron camera data. Fitted proton emission profiles in the poloidal plane demonstrate the capabilities of this new system.

Published

2014

9. Determination of hydrogen/deuterium ratio with neutron measurements on MAST

Author

J. Harrison, I. Klimek, Marco Cecconello, S. E. Sharapov, and Göran Ericsson

Subjects

Materials science, Hydrogen, chemistry, Isotope, Deuterium, Neutron emission, Stable isotope ratio, chemistry.chemical_element, Neutron, Plasma diagnostics, Plasma, Atomic physics, Instrumentation

Abstract

On MAST, compressional Alfven eigenmodes can be destabilized by the presence of a sufficiently large population of energetic particles in the plasma. This dependence was studied in a series of very similar discharges in which increasing amounts of hydrogen were puffed into a deuterium plasma. A simple method to estimate the isotopic ratio nH/nD using neutron emission measurements is here described. The inferred isotopic ratio ranged from 0.0 to 0.6 and no experimental indication of changes in radial profile of nH/nD were observed. These findings are confirmed by TRANSP/NUBEAM simulations of the neutron emission.

Published

2014

10. Cloud-centric application tracing and user monitoring intrusion prevention system

Author

M. Tomasek, M. Cajkovsky, and I. Klimek

Subjects

business.industry, Computer science, Cloud computing, Intrusion detection system, Tracing, computer.software_genre, Computer security, User interface design, Host-based intrusion detection system, Software, Malware, User interface, business, computer

Abstract

This paper presents first theoretical model of IDPS which combines application tracing and user decisions for building user profiles. This novel idea is based on fact that we have seen nearly all kind of malware since Intrusion Detection System was widely deployed. Our solution presents “deny any” policy as default action. Thus all behavior that we have not seen before is considered as malicious. This paper presents several novel approaches, such as building four various databases used for software description and one profile database for describing user behavior, opposite existing solutions which mainly uses just one database for specifying malware. Presented architecture of this approach outlines predispositions to use this solution with crowd sourcing.

Published

2013

11. Measurements and modelling of fast-ion redistribution due to resonant MHD instabilities in MAST

Author

O. M. Jones, R. J. Akers, K. G. McClements, R. V. Perez, I. Klimek, A. Meakins, W. Boeglin, S. E. Sharapov, D. L. Keeling, Marco Cecconello, and M. Turnyanskiy

Subjects

Physics, education.field_of_study, Spectrometer, Anomalous diffusion, Population, FOS: Physical sciences, Plasma, Condensed Matter Physics, Physics - Plasma Physics, Collimated light, Computational physics, Ion, Plasma Physics (physics.plasm-ph), Nuclear Energy and Engineering, Deuterium, Physics::Plasma Physics, Magnetohydrodynamics, education

Abstract

The results of a comprehensive investigation into the effects of toroidicity-induced Alfv\'{e}n eigenmodes (TAE) and energetic particle modes on the NBI-generated fast-ion population in MAST plasmas are reported. Fast-ion redistribution due to frequency-chirping TAE in the range 50 kHz to 100 kHz, and frequency-chirping energetic particle modes known as fishbones in the range 20 kHz to 50 kHz, is observed. TAE and fishbones are also observed to cause losses of fast ions from the plasma. The spatial and temporal evolution of the fast-ion distribution is determined using a fission chamber, a radially-scanning collimated neutron flux monitor, a fast-ion deuterium alpha spectrometer and a charged fusion product detector. Modelling using the global transport analysis code TRANSP, with ad hoc anomalous diffusion and fishbone loss models introduced, reproduces the coarsest features of the affected fast-ion distribution in the presence of energetic-particle-driven modes. The spectrally and spatially resolved measurements show however that these models do not fully capture the effects of chirping modes on the fast-ion distribution., Comment: 32 pages, 23 figures, submitted to Plasma Physics and Controlled Fusion

Published

2015

12. The effects of resonant magnetic perturbations on fast ion confinement in the Mega Amp Spherical Tokamak

Author

O. M. Jones, K. G. McClements, W. Boeglin, D. L. Keeling, R. V. Perez, R. J. Akers, Marco Cecconello, I. Klimek, Kouji Shinohara, A. Kirk, and K Tani

Subjects

Physics, Toroid, Proton, Plasma, Spherical tokamak, Condensed Matter Physics, 7. Clean energy, Resonant magnetic perturbations, Ion, Nuclear Energy and Engineering, Physics::Plasma Physics, Neutron, Light emission, Atomic physics

Abstract

The effects of resonant magnetic perturbations (RMPs) on the confinement of energetic (neutral beam) ions in the Mega Amp Spherical Tokamak (MAST) are assessed experimentally using measurements of neutrons, fusion protons and fast ion Dα (FIDA) light emission. In single null-diverted (SND) MAST pulses with relatively low plasma current (400 kA), the total neutron emission dropped by approximately a factor of two when RMPs with toroidal mode number n = 3 were applied. The measured neutron rate during RMPs was much lower than that calculated using the TRANSP plasma simulation code, even when non-classical (but axisymmetric) ad hoc fast ion transport was taken into account in the latter. Sharp drops in spatially-resolved neutron rates, fusion proton rates and FIDA emission were also observed. First principles-based simulations of RMP-induced fast ion transport in MAST, using the F3D-OFMC code, show similar losses for two alternative representations of the MAST first wall, with and without full orbit effects taken into account; for n = 6 RMPs in a 600 kA plasma, the additional loss of beam power due to the RMPs was found in the simulations to be approximately 11%.

Published

2015

13. Energetic ion behaviour in MAST

Author

S. Allan, R. V. Perez, I. Klimek, R. J. Akers, N. J. Conway, R. Scannell, D. L. Keeling, W. Boeglin, M. Turnyanskiy, D. S. Darrow, Marco Cecconello, K. G. McClements, S. E. Sharapov, Clive Michael, O. M. Jones, Michael Fitzgerald, and Göran Ericsson

Subjects

Physics, Fusion, Toroid, Neutron flux monitor, Condensed Matter Physics, 01 natural sciences, Collimated light, 010305 fluids & plasmas, Ion, Product detector, Nuclear Energy and Engineering, Physics::Plasma Physics, 0103 physical sciences, Atomic physics, 010306 general physics, Ion transporter

Abstract

Recent studies of fast ion transport resulting from a range of instabilities, including n = 1 internal kink modes (fishbones and long-lived modes), toroidal Alfven eigenmodes and sawteeth have been carried out at MAST. Strong correlations were found between relative changes in magnetic edge coils signals, edge D alpha signal a fast ion D alpha system, a prototype collimated neutron flux monitor and a recently installed prototype charged fusion product detector array, indicating both redistribution and loss of fast ions. Preliminary interpretation of these observations with a suite of stability, modelling and interpretative codes is discussed.

Published

2014

14. Conceptual design of a neutron camera for MAST Upgrade

Author

I. Klimek, Matthias Weiszflog, D. L. Keeling, Romualdo Martín, Marco Cecconello, S. Sangaroon, M. Turnyanskiy, Göran Ericsson, and Sean Conroy

Subjects

Physics, Mega Ampere Spherical Tokamak, Neutron transport, business.industry, Diagonal, Astrophysics::Instrumentation and Methods for Astrophysics, Nuclear physics, Upgrade, Conceptual design, Physics::Plasma Physics, Emissivity, Plasma diagnostics, Neutron, Aerospace engineering, business, Instrumentation

Abstract

This paper presents two different conceptual designs of neutron cameras for Mega Ampere Spherical Tokamak (MAST) Upgrade. The first one consists of two horizontal cameras, one equatorial and one vertically down-shifted by 65 cm. The second design, viewing the plasma in a poloidal section, also consists of two cameras, one radial and the other one with a diagonal view. Design parameters for the different cameras were selected on the basis of neutron transport calculations and on a set of target measurement requirements taking into account the predicted neutron emissivities in the different MAST Upgrade operating scenarios. Based on a comparison of the cameras' profile resolving power, the horizontal cameras are suggested as the best option.

Published

2014

15. Freeze-fracture studies on mitochondrial membranes of spermatocytes

Author

L. Cieciura, P. Piceta, K. Rydzyński, and I. Klimek

Subjects

Male, Lamina, Histology, Fracture (mineralogy), Rats, Inbred Strains, Intracellular Membranes, Cell Biology, Spermatocyte, Mitochondrion, Biology, Spermatids, Mitochondria, Rats, Pathology and Forensic Medicine, Cell biology, Membrane, medicine.anatomical_structure, Spermatocytes, Intramembranous ossification, medicine, Animals, Freeze Fracturing, Inner membrane, Inner mitochondrial membrane

Abstract

Separation of the two-folded lamina of the mitochondrial cristae occurs in mitochondria of spermatocytes and spermatids. Freeze-fracture exposes large areas of the inner and outer halves of the inner membrane. The surface of the outer half of the inner membrane is concave, with small numbers of intramembranous particles (IMPs). Its distinctive feature is the presence of protruding particles surrounding a pit. On the inner half of the inner membrane, there are large numbers of densely-packed, irregularly-distributed IMPs, among which regular pits are seen. Morphometric analysis and reconstructions suggest that these structures are "channels" in the mitochondrial membrane with an internal diameter of approximately 18 nm. It is uncertain whether such mitochondrial structures are confined to the spermatocyte or whether they may also occur in other cells.

Published

1986

16. Stereological studies on germ cell mitochondria of rat during spermatogenesis and spermiogenesis

Author

L, Cieciura and I, Klimek

Subjects

Male, Spermatocytes, Animals, Intracellular Membranes, Spermatogenesis, Spermatids, Spermatozoa, Spermatogonia, Mitochondria, Rats

Abstract

The following stereological parameters of mitochondria were calculated in rat germ cells during the spermatogenesis: volume density of matrix, outer compartment, outer membrane and inner membrane, surface density of outer membrane and inner membrane. They were the basis to calculate the partition coefficient of matrix and partition coefficient of outer compartment. The matrix volume demonstrated a decreasing in mitochondria of germ cells during spermatogenesis. The relative volume of outer compartment was calculated with the intracristal spaces and revealed increasing from spermatogonia to spermatids. The partition coefficient for the matrix significantly decreased. Our observations suggest that transformation of mitochondrial configuration during spermatogenesis and spermiogenesis is the expression of intensive metabolic processes and activity of membrane transport in germ cells.

Published

1988

17. An Approach to the Development of a Complex Information System for the Wrocław Province Hospital

Author

J. B. Lewoc, I. Klimek-Grzesiak, W. Minta, and J. Lorenz

Subjects

Hospital information system, Service information, medicine.medical_specialty, Engineering management, Complex information system, Emergency medicine, Global health, medicine, Information system, Business

Abstract

In Poland, several hospital information systems have been developed or are in progres. They are oriented towards solutions of specific fragmentary problems and developed on various home and imported hardware. This way is not preferable for a country in a down economy period and in 1984 a project was initiated for development of a reproducible complex information system which should constitute a sound basis for a global Health Service Information System in our country.

Published

1985

18. Discrepancy between estimated and measured fusion product rates on MAST using TRANSP/NUBEAM.

Author

M. Cecconello, W. Boeglin, D. Keeling, S. Conroy, I. Klimek, R.V. Perez, and team, The MAST

Subjects

NUCLEAR fusion, TOKAMAKS, NEUTRONS, PROTONS, PLASMA gases, NEUTRAL beams, FAST ions, ELECTRON temperature

Abstract

Experimental evidence is presented of a discrepancy between the predicted and measured D–D fusion product rates on MAST. Both the neutron and proton production rates, measured independently with a neutron camera and charged fusion product detector array, are approximately 40% lower than those predicted by TRANSP/NUBEAM codes. This deficit is scenario independent and cannot be explained by uncertainties in the typical plasma parameters suspected for such discrepancies, such as electron temperature, the plasma effective charge and the injected neutral beam power. Instead, a possible explanation is an overestimate of the neutron emissivity due to the guiding centre approximation used in NUBEAM to model the fast ion orbits. [ABSTRACT FROM AUTHOR]

Published

2019

19. TRANSP modelling of total and local neutron emission on MAST

Author

R. J. Akers, Göran Ericsson, I. Klimek, A. Meakins, O. M. Jones, Ivan Lupelli, D. L. Keeling, M. Gorelenkova, Marco Cecconello, and M. Turnyanskiy

Subjects

Physics, Nuclear and High Energy Physics, Neutron count, Neutron emission, Astrophysics::High Energy Astrophysical Phenomena, Nuclear Theory, Plasma, Condensed Matter Physics, Collimated light, Nuclear physics, Mast (sailing), Physics::Plasma Physics, Neutron flux, Physics::Space Physics, Nuclear Experiment

Abstract

The results of TRANSP simulations of neutron count rate profiles measured by a collimated neutron flux monitor-neutron camera (NC)-for different plasma scenarios on MAST are reported. In addition, ...

20. Mitigation of MHD induced fast-ion redistribution in MAST and implications for MAST-Upgrade design

Author

O. M. Jones, J. Milnes, M. Turnyanskiy, I. Klimek, K. G. McClements, M. Cecconello, N. C. Hawkes, D. L. Keeling, C. D. Challis, T R Barrett, A. Meakins, and Mast Team

Subjects

Physics, Nuclear and High Energy Physics, education.field_of_study, Tokamak, Population, FOS: Physical sciences, Plasma, Condensed Matter Physics, Physics - Plasma Physics, law.invention, Ion, Plasma Physics (physics.plasm-ph), Amplitude, Distribution function, Physics::Plasma Physics, law, Physics::Space Physics, Redistribution (chemistry), Magnetohydrodynamics, Atomic physics, education

Abstract

The phenomenon of redistribution of neutral beam fast-ions due to MHD activity in plasma has been observed on many tokamaks and more recently has been a focus of research on MAST (Turnyanskiy M. et al, 2011 Nucl. Fusion 53 053016). n=1 fishbone modes are observed to cause a large decrease in the neutron emission rate corresponding to a significant perturbation of the fast-ion population in the plasma. Theoretical work on fishbone modes states that the fast-ion distribution itself acts as the source of free energy driving the modes that cause the redistribution. Therefore a series of experiments have been carried out on MAST to investigate a range of plasma density levels at two neutral beam power levels to determine the region within this parameter space in which MHD activity and consequent fast-ion redistribution is suppressed. Analysis of these experiments shows complete suppression of MHD activity at high density with increasing activity and fast-ion redistribution at lower densities and higher NB power accompanied by strong evidence for localisation of the redistribution effect to a specific region in the plasma core. The results also indicate correlations between the form of the modelled fast-ion distribution function, the amplitude and growth rate of the fishbone modes, and the magnitude of the redistribution effect. The same analysis has been carried out on models of MAST-Upgrade baseline plasma scenarios to determine whether significant fast-ion redistribution is likely to occur in that device. A simple change to the neutral-beam injector geometry is proposed which is shown to have a significant mitigating effect in terms of the fishbone mode drive and is therefore expected to allow effective plasma heating and current drive over a wider range of plasma conditions in MAST-Upgrade., Comment: 26 pages, 7 figures. This is an author-created, un-copyedited version of an article submitted for publication in Nuclear Fusion. IOP Publishing Ltd and IAEA are not responsible for any errors or omissions in this version of the manuscript or any version derived from it

21. Erratum: The effects of resonant magnetic perturbations on fast ion confinement in the mega amp spherical tokamak (2015 Plasma Phys. Control. Fusion 57 075003).

Author

K G McClements, R J Akers, W U Boeglin, M Cecconello, D Keeling, O M Jones, A Kirk, I Klimek, R V Perez, K Shinohara, and K Tani

Subjects

PLASMA confinement, MAGNETISM

Abstract

A correction to the article "The Effects of Resonant Magnetic Perturbations on Fast Ion Confinement in the Mega Amp Spherical Tokamak" by K. G. McClements et al. that was published in a 2015 issue is presented.

Published

2015

22. The effects of resonant magnetic perturbations on fast ion confinement in the Mega Amp Spherical Tokamak.

Author

K G McClements, R J Akers, W U Boeglin, M Cecconello, D Keeling, O M Jones, A Kirk, I Klimek, R V Perez, K Shinohara, and K Tani

Subjects

FAST ions, NEUTRAL beams, EDGE-localized modes (Plasma instabilities), TOKAMAKS, PLASMA acceleration, TOROIDAL plasma, NEUTRON emission

Abstract

The effects of resonant magnetic perturbations (RMPs) on the confinement of energetic (neutral beam) ions in the Mega Amp Spherical Tokamak (MAST) are assessed experimentally using measurements of neutrons, fusion protons and fast ion Dα (FIDA) light emission. In single null-diverted (SND) MAST pulses with relatively low plasma current (400 kA), the total neutron emission dropped by approximately a factor of two when RMPs with toroidal mode number n = 3 were applied. The measured neutron rate during RMPs was much lower than that calculated using the TRANSP plasma simulation code, even when non-classical (but axisymmetric) ad hoc fast ion transport was taken into account in the latter. Sharp drops in spatially-resolved neutron rates, fusion proton rates and FIDA emission were also observed. First principles-based simulations of RMP-induced fast ion transport in MAST, using the F3D-OFMC code, show similar losses for two alternative representations of the MAST first wall, with and without full orbit effects taken into account; for n = 6 RMPs in a 600 kA plasma, the additional loss of beam power due to the RMPs was found in the simulations to be approximately 11%. [ABSTRACT FROM AUTHOR]

Published

2015

23. Impurity transport driven by fishbones in MAST.

Author

M. Cecconello, O.M. Jones, L. Garzotti, K.G. McClements, M. Carr, S.S. Henderson, S.E. Sharapov, I. Klimek, and Team, the MAST

Subjects

TOROIDAL plasma, TOKAMAKS, ELECTROMAGNETS, SOFT X rays, RADIOACTIVE decay

Abstract

In MAST, bursting toroidal Alfvén eigenmodes and fishbones are observed to give rise to an asymmetric perturbation to the soft x-ray (SXR) emission close to the magnetic axis which grows and decays on the time scale of the fishbone evolution. As the fishbone nears its maximum amplitude, the SXR emission starts to increase (decrease) at radial positions smaller (larger) than the radial position of the magnetic axis. This trend in the SXR emission persists for a few milliseconds, until the fishbone starts to decay in amplitude and the slower overall trend of the SXR emission once again becomes dominant. A preliminary analysis suggests that the change in the SXR emission is due to the localized accumulation of high-Z impurities, sustained against parallel transport by the effects of fishbones on the fast ion population. [ABSTRACT FROM AUTHOR]

Published

2015

24. TRANSP modelling of total and local neutron emission on MAST.

Author

I. Klimek, D. Keeling, A. Meakins, M. Cecconello, G. Ericsson, O. Jones, M. Gorelenkova, R. Akers, I. Lupelli, Team, the MAST, and M. Turnyanskiy

Subjects

TOKAMAKS, NEUTRON emission, SIMULATION methods & models, DEUTERIUM ions, NUCLEAR fusion, PLASMA beam injection heating

Abstract

The results of TRANSP simulations of neutron count rate profiles measured by a collimated neutron flux monitor–neutron camera (NC)—for different plasma scenarios on MAST are reported. In addition, the effect of various plasma parameters on neutron emission is studied by means of TRANSP simulation. The fast ion redistribution and losses due to fishbone modes, which belong to a wider category of energetic particle modes, are observed by the NC and modelled in TRANSP. [ABSTRACT FROM AUTHOR]

Published

2015

25. Energetic ion behaviour in MAST.

Author

M Cecconello, I Klimek, S E Sharapov, M Fitzgerald, K G McClements, D L Keeling, S Y Allan, R J Akers, N J Conway, R Scannell, G Ericsson, Team, the MAST, O M Jones, W U Boeglin, R V Perez, D S Darrow, C A Michael, and M Turnyanskiy

Subjects

ION transport (Biology), TOKAMAKS, ELECTROMAGNETS, NEUTRON flux, FAST ions, PLASMA gases

Abstract

Recent studies of fast ion transport resulting from a range of instabilities, including n = 1 internal kink modes (fishbones and long-lived modes), toroidal Alfvén eigenmodes and sawteeth have been carried out at MAST. Strong correlations were found between relative changes in magnetic edge coils signals, edge Dα signal a fast ion Dα system, a prototype collimated neutron flux monitor and a recently installed prototype charged fusion product detector array, indicating both redistribution and loss of fast ions. Preliminary interpretation of these observations with a suite of stability, modelling and interpretative codes is discussed. [ABSTRACT FROM AUTHOR]

Published

2015

26. Mitigation of MHD induced fast-ion redistribution in MAST and implications for MAST-Upgrade design.

Author

D.L. Keeling, T.R. Barrett, M. Cecconello, C.D. Challis, N. Hawkes, O.M. Jones, I. Klimek, K.G. McClements, A. Meakins, J. Milnes, M. Turnyanskiy, and Team, the MAST

Subjects

MAGNETOHYDRODYNAMICS, PLASMA instabilities, NEUTRAL beams, FAST ions, PLASMA stability

Abstract

The phenomenon of the redistribution of neutral beam fast ions due to magnetohydrodynamic (MHD) activity in plasma has been observed on many tokamaks and more recently has been a focus of research on MAST (Turnyanskiy et al 2013 Nucl. Fusion53 053016). n = 1 fishbone modes are observed to cause a large decrease in the neutron emission rate indicating the existence of a significant perturbation of the fast-ion population in the plasma. Theoretical work on fishbone modes states that the fast-ion distribution itself acts as the source of free energy driving the modes that cause the redistribution. Therefore a series of experiments have been carried out on MAST to investigate a range of plasma densities at two neutral-beam power levels to determine the region within this parameter space in which fishbone activity and consequent fast-ion redistribution is suppressed. Analysis of these experiments shows complete suppression of fishbone activity at high densities with increasing activity and fast-ion redistribution at lower densities and higher neutral-beam power, accompanied by strong evidence that the redistribution effect primarily affects a specific region in the plasma core with a weaker effect over a wider region of the plasma. The results also indicate the existence of correlations between gradients in the modelled fast-ion distribution function, the amplitude and growth rate of the fishbone modes, and the magnitude of the redistribution effect. The same analysis has been carried out on models of MAST-Upgrade baseline plasma scenarios to determine whether significant fast-ion redistribution due to fishbone modes is likely to occur in that device. A simple change to the neutral-beam injector geometry is proposed which is shown to have a significant mitigating effect in terms of the fishbone mode drive and is therefore expected to allow effective plasma heating and current drive over a wider range of plasma conditions in MAST-Upgrade. [ABSTRACT FROM AUTHOR]

Published

2015

27. Compressional Alfvén and ion–ion hybrid waves in tokamak plasmas with two ion species.

Author

H J C Oliver, S E Sharapov, R Akers, I Klimek, and M Cecconello

Subjects

WAVE-particle interactions, PLASMA hybrid waves, PLASMA Alfven waves, CYCLOTRON resonance, PLASMA heating, TOKAMAKS

Abstract

Compressional Alfvén and ion–ion hybrid waves excited by energetic beam ions are studied in plasmas with two ion species. In our experiment, a hydrogen-deuterium (H-D) plasma is used to produce instabilities similar to those likely to be present in the burning deuterium-tritium plasmas of future tokamaks. Modes are suppressed in the deuterium cyclotron frequency range with increasing hydrogen gas puffing. In plasmas with H/D concentrations of 2.57 or higher, short-lived modes with small and predominantly negative toroidal mode numbers are observed at frequencies ω/ωβD0 ≈ 2.25, where ωβD0 = ωβD(R0) is the on-axis deuterium cyclotron frequency. These are the highest mode frequencies yet detected in the ion cyclotron range in a spherical tokamak. Modeling of the transparency regions and plasma resonances using the cold plasma dispersion relation explains the observed features. Mode conversion at ion–ion hybrid resonances and subsequent kinetic damping is believed to be responsible for mode suppression. The high frequency modes are present due to excitation by wave-particle resonances within the transparency region for high hydrogen concentrations. The absence of other wave-particle resonances explains significant features of our experiment. This technique has possible applications in plasma heating, current drive and real-time diagnosis of relative ion concentration in the plasma core. [ABSTRACT FROM AUTHOR]

Published

2014

28. A disease similarity approach identifies short-lived Niemann-Pick type C disease mice with accelerated brain aging as a novel mouse model for Alzheimer's disease and aging research.

Author

Gujjala VA, Klimek I, Abyadeh M, Tyshkovskiy A, Oz N, Castro JP, Gladyshev VN, Newton J, and Kaya A

Abstract

Since its first description in 1906 by Dr. Alois Alzheimer, Alzheimer's disease (AD) has been the most common type of dementia. Initially thought to be caused by age-associated accumulation of plaques, in recent years, research has increasingly associated AD with lysosomal storage and metabolic disorders, and the explanation of its pathogenesis has shifted from amyloid and tau accumulation to oxidative stress and impaired lipid and glucose metabolism aggravated by hypoxic conditions. However, the underlying mechanisms linking those cellular processes and conditions to disease progression have yet to be defined. Here, we applied a disease similarity approach to identify unknown molecular targets of AD by using transcriptomic data from congenital diseases known to increase AD risk, namely Down Syndrome, Niemann Pick Disease Type C (NPC), and Mucopolysaccharidoses I. We uncovered common pathways, hub genes, and miRNAs across in vitro and in vivo models of these diseases as potential molecular targets for neuroprotection and amelioration of AD pathology, many of which have never been associated with AD. We then investigated common molecular alterations in brain samples from an NPC disease mouse model by juxtaposing them with brain samples of both human and mouse models of AD. Detailed phenotypic and molecular analyses revealed that the NPC mut mouse model can serve as a potential short-lived in vivo model for AD research and for understanding molecular factors affecting brain aging. This research represents the first comprehensive approach to congenital disease association with neurodegeneration and a new perspective on AD research while highlighting shortcomings and lack of correlation in diverse in vitro models. Considering the lack of an AD mouse model that recapitulates the physiological hallmarks of brain aging, the characterization of a short-lived NPC mouse model will further accelerate the research in these fields and offer a unique model for understanding the molecular mechanisms of AD from a perspective of accelerated brain aging.

Published

2024

29. Determination of hydrogen/deuterium ratio with neutron measurements on MAST.

Author

Klimek I, Cecconello M, Sharapov SE, Harrison J, and Ericsson G

Abstract

On MAST, compressional Alfvén eigenmodes can be destabilized by the presence of a sufficiently large population of energetic particles in the plasma. This dependence was studied in a series of very similar discharges in which increasing amounts of hydrogen were puffed into a deuterium plasma. A simple method to estimate the isotopic ratio nH/nD using neutron emission measurements is here described. The inferred isotopic ratio ranged from 0.0 to 0.6 and no experimental indication of changes in radial profile of nH/nD were observed. These findings are confirmed by TRANSP/NUBEAM simulations of the neutron emission.

Published

2014

30. Investigating fusion plasma instabilities in the Mega Amp Spherical Tokamak using mega electron volt proton emissions (invited).

Author

Perez RV, Boeglin WU, Darrow DS, Cecconello M, Klimek I, Allan SY, Akers RJ, Keeling DL, McClements KG, Scannell R, Turnyanskiy M, Angulo A, Avila P, Leon O, Lopez C, Jones OM, Conway NJ, and Michael CA

Abstract

The proton detector (PD) measures 3 MeV proton yield distributions from deuterium-deuterium fusion reactions within the Mega Amp Spherical Tokamak (MAST). The PD's compact four-channel system of collimated and individually oriented silicon detectors probes different regions of the plasma, detecting protons (with gyro radii large enough to be unconfined) leaving the plasma on curved trajectories during neutral beam injection. From first PD data obtained during plasma operation in 2013, proton production rates (up to several hundred kHz and 1 ms time resolution) during sawtooth events were compared to the corresponding MAST neutron camera data. Fitted proton emission profiles in the poloidal plane demonstrate the capabilities of this new system.

Published

2014

31. Glomerular basement membrane thinning in children: a morphometric assessment.

Author

Klimek I, Kaluzynski A, Kulig A, Szymczak W, and Ambroziak R

Subjects

Adolescent, Child, Child, Preschool, Female, Glomerulonephritis, IGA pathology, Humans, Image Processing, Computer-Assisted, Infant, Male, Software, Glomerular Basement Membrane pathology

Abstract

Objective: To develop our own procedures, allowing for a quick evaluation of glomerular basement membrane (GBM) thickness and to present a statistical classification of thin basement membrane disease (TBMD), minimal change disease (MCD), and IgA nephropathy (IgAN) cases., Study Design: Measurements were carried out with the aid of the original software for semiautomatic image analysis on biopsies from 31 children with TBMD, 51 with MCD, and 10 with IgAN., Results: The strongest statistically significant dependence between GBM thickness and age was observed in children with MCD below 5 years of age. There was no significant dependence between GBM thickness and age among patients with TBMD. The values of all analyzed parameters characterizing GBM thickness distribution in children with TBMD were significantly lower than those in patients with MCD and IgAN. A slight, statistically significant increase of some parameters was noted in children with IgAN in contrast to patients with MCD. The multivariate logistic regression model with three independent variables--quartile 1, quartile 3, and percentile 30--proved to be the most appropriate in differentiating between patients with TBMD and children with MCD or IgAN. The model allowed for correctly classifying 96.8% of patients with TBMD (30 of 31 children) and 98.4% patients from the MCD and IgAN groups (60 of 61 children). We failed to construct a similarly appropriate model for differentiating between patients with MCD and IgAN., Conclusion: The introduction of morphometric and statistical methods to routine nephropathologic diagnostics represents true progress in very precise and quick assessment of GBM thickness.

Published

2006

32. Stereological studies on germ cell mitochondria of rat during spermatogenesis and spermiogenesis.

Author

Cieciura L and Klimek I

Subjects

Animals, Intracellular Membranes ultrastructure, Male, Rats, Spermatids ultrastructure, Spermatocytes ultrastructure, Spermatogonia ultrastructure, Mitochondria ultrastructure, Spermatogenesis, Spermatozoa ultrastructure

Abstract

The following stereological parameters of mitochondria were calculated in rat germ cells during the spermatogenesis: volume density of matrix, outer compartment, outer membrane and inner membrane, surface density of outer membrane and inner membrane. They were the basis to calculate the partition coefficient of matrix and partition coefficient of outer compartment. The matrix volume demonstrated a decreasing in mitochondria of germ cells during spermatogenesis. The relative volume of outer compartment was calculated with the intracristal spaces and revealed increasing from spermatogonia to spermatids. The partition coefficient for the matrix significantly decreased. Our observations suggest that transformation of mitochondrial configuration during spermatogenesis and spermiogenesis is the expression of intensive metabolic processes and activity of membrane transport in germ cells.

Published

1988

33. Freeze-fracture studies on mitochondrial membranes of spermatocytes.

Author

Cieciura L, Rydzyński K, Pieta P, and Klimek I

Subjects

Animals, Freeze Fracturing, Male, Rats, Rats, Inbred Strains, Spermatids ultrastructure, Intracellular Membranes ultrastructure, Mitochondria ultrastructure, Spermatocytes ultrastructure

Abstract

Separation of the two-folded lamina of the mitochondrial cristae occurs in mitochondria of spermatocytes and spermatids. Freeze-fracture exposes large areas of the inner and outer halves of the inner membrane. The surface of the outer half of the inner membrane is concave, with small numbers of intramembranous particles (IMPs). Its distinctive feature is the presence of protruding particles surrounding a pit. On the inner half of the inner membrane, there are large numbers of densely-packed, irregularly-distributed IMPs, among which regular pits are seen. Morphometric analysis and reconstructions suggest that these structures are "channels" in the mitochondrial membrane with an internal diameter of approximately 18 nm. It is uncertain whether such mitochondrial structures are confined to the spermatocyte or whether they may also occur in other cells.

Published

1986