Your search keyword '"M. Stamp"' showing total 168 results

1. Expanding the role of impurity spectroscopy for investigating the physics of high-Z dissipative divertors

Author

M.L. Reinke, A. Meigs, E. Delabie, R. Mumgaard, F. Reimold, S. Potzel, M. Bernert, D. Brunner, J. Canik, M. Cavedon, I. Coffey, E. Edlund, J. Harrison, B. LaBombard, K. Lawson, B. Lomanowski, J. Lore, M. Stamp, J. Terry, and E. Viezzer

Subjects

Nuclear engineering. Atomic power, TK9001-9401

Abstract

New techniques that attempt to more fully exploit spectroscopic diagnostics in the divertor and pedestal region during highly dissipative scenarios are demonstrated using experimental results from recent low-Z seeding experiments on Alcator C-Mod, JET and ASDEX Upgrade. To exhaust power at high parallel heat flux, q∥ > 1 GW/m2, while minimizing erosion, reactors with solid, high-Z plasma facing components (PFCs) are expected to use extrinsic impurity seeding. Due to transport and atomic physics processes which impact impurity ionization balance, so-called ‘non-coronal’ effects, we do not accurately know and have yet to demonstrate the maximum q∥ which can be mitigated in a tokamak. Radiation enhancement for nitrogen is shown to arise primarily from changes in Li- and Be-like charge states on open field lines, but also through transport-driven enhancement of H- and He-like charge states in the pedestal region. Measurements are presented from nitrogen seeded H-mode and L-mode plasmas where emission from N1+ through N6+ are observed. Active charge exchange spectroscopy of partially ionized low-Z impurities in the plasma edge is explored to measure N5+ and N6+ within the confined plasma, while passive UV and visible spectroscopy is used to measure N1+-N4+ in the boundary. Examples from recent JET and Alcator C-Mod experiments which employ nitrogen seeding highlight how improving spectroscopic coverage can be used to gain empirical insight and provide more data to validate boundary simulations.

Published

2017

2. Comparative H-mode density limit studies in JET and AUG

Author

A. Huber, M. Bernert, S. Brezinsek, A.V. Chankin, G. Sergienko, V. Huber, S. Wiesen, P. Abreu, M.N.A. Beurskens, A. Boboc, M. Brix, G. Calabrò, D. Carralero, E. Delabie, T. Eich, H.G. Esser, M. Groth, C. Guillemaut, S. Jachmich, A. Järvinen, E. Joffrin, A. Kallenbach, U. Kruezi, P. Lang, Ch. Linsmeier, C.G. Lowry, C.F. Maggi, G.F. Matthews, A.G. Meigs, Ph. Mertens, F. Reimold, J. Schweinzer, G. Sips, M. Stamp, E. Viezzer, M. Wischmeier, and H. Zohm

Subjects

Nuclear engineering. Atomic power, TK9001-9401

Abstract

Identification of the mechanisms for the H-mode density limit in machines with fully metallic walls, and their scaling to future devices is essential to find for these machines the optimal operational boundaries with the highest attainable density and confinement. Systematic investigations of H-mode density limit plasmas in experiments with deuterium external gas fuelling have been performed on machines with fully metallic walls, JET and AUG and results have been compared with one another.Basically, the operation phases are identical for both tokamaks: the stable H-mode phase, degrading H-mode phase, breakdown of the H-mode with energy confinement deterioration usually accompanied by a dithering cycling phase, followed by the l-mode phase. The observed H-mode density limit on both machines is found close to the Greenwald limit (n/nGW=0.8–1.1 in the observed magnetic configurations). The similar behavior of the radiation on both tokamaks demonstrates that the density limit (DL) is neither related to additional energy losses from the confined region by radiation, nor to an inward collapse of the hot discharge core induced by overcooling of the plasma periphery by radiation.It was observed on both machines that detachment, as well as the X-point MARFE itself, does not trigger a transition in the confinement regime and thus does not present a limit on the plasma density. It is the plasma confinement, most likely determined by edge parameters, which is ultimately responsible for the transition from H- to l-mode.The measured Greenwald fractions are found to be consistent with the predictions from different theoretical models [16,30] based on MHD instability theory in the near-SOL. Keywords: Density limit, H-mode, Detachment, Greenwald fraction, JET, ASDEX Upgrade

Published

2017

3. ’It’s not all about me’: negotiating the transition out of (semi-) professional football from an autoethnographic perspective

Author

Darryn M. Stamp, Paul A. Potrac, and Lee J. Nelson

Subjects

Health (social science), Social Psychology, Physical Therapy, Sports Therapy and Rehabilitation

Published

2023

4. Enhanced effective diffusion in sub-wavelength, axon-scale microchannels using surface acoustic waves

Author

Danli Peng, Wei Tong, David J. Collins, Michael R. Ibbotson, Steven Prawer, and Melanie E. M. Stamp

Subjects

Fluid Flow and Transfer Processes, Mechanics of Materials, Mechanical Engineering, Computational Mechanics, Condensed Matter Physics

Abstract

Excitation using surface acoustic waves (SAW) has demonstrated efficacy in improving microscale particle/chemical transport due to its ability to generate microscale wavelengths. However, the effects of acoustic stimulation on transport processes along the length of sub-wavelength microchannels and their underlying mechanisms, essential for long-range transport, have not been examined in detail. In this work, we investigate diffusion along the length of subwavelength microchannels using experimental and simulation approaches, demonstrating enhanced transport under SAW excitation. The microchannel-based enhanced diffusion mechanisms are further studied by investigating the acoustic pressure and streaming fields, finding that the degree of enhancement is a function of applied power, microchannel dimensions, and viscosity. This microchannel-based diffusion enhancement approach is applicable to microfluidic and biomedical microscale transport enhancement, with the findings here being relevant to acoustic-based micro-mixing and neurodegenerative therapies.

Published

2023

5. Remote wide angle view broad wavelength viewing system compatible with D-T operations in JET

Author

I Balboa, E Rose, G F Matthews, D Croft, M Stamp, S A Silburn, J C Williams, D Hepple, A Huber, S Whetham, D Iglesias, D J Kinna, M Beldishevski, J Figueiredo, C Perez Von Thun, G Jones, N Balshaw, L D Horton, R C Lobel, I J Pearson, K W Pepperell, G Fishpool, B Lane, K-D Zastrow, G Arnoux, G Bodnar, P Carman, P Carvalho, N J Conway, N Gupta, V Huber, G Kocsis, A Manzanares, P Puglia, C Ruiz de Galarreta, C Marren, R Otín, J Naish, and V K Thompson

Subjects

Nuclear Energy and Engineering, Condensed Matter Physics

Abstract

Imaging diagnostics in Joint European Torus have become essential in the study of plasma wall interactions and the protection of the plasma facing components. During deuterium operations, the location of these diagnostics was at close proximity to the vessel. However, for the 50–50 deuterium-tritium operation, the neutron yield impact onto the electronics of these imaging diagnostics would have caused them to fail completely at these locations. Shielding these systems from neutrons is achieved by relocating a selected number of these imaging systems to outside the Torus Hall (i.e. to the other side of the biological shield wall). The relocation encompasses the construction of two new lines of sight crossing through the biological shield wall and each of them using an optical relay which extends to separate ports in the machine. This article starts with a brief description of two new viewing systems. However, it focuses on the optical modelling and engineering design of one of them which is a multiple camera system producing a wide angle view (WAV) of the inside of the vessel. This WAV system has been used successfully during the recent D-T campaign. It operates in a broadband wavelength range extending from the visible to the middle infrared. It also incorporates a novel in-house horizontal kinematic mirror mount made from glass reinforced plastic as part of the optical relay. The operational stability of the WAV system has also been assessed and some post design improvements implemented.

Published

2023

6. Correlation of in vitro cell adhesion, local shear flow and cell density

Author

Christoph Westerhausen, Florian G. Strobl, Anna Martina Jötten, Dominik Breyer, Melanie E. M. Stamp, Achim Wixforth, and S. Angermann

Subjects

Materials science, General Chemical Engineering, Microfluidics, Shear force, Flow (psychology), 02 engineering and technology, General Chemistry, Mechanics, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Flow conditions, Particle image velocimetry, ddc:530, Shear velocity, 0210 nano-technology, Cell adhesion, Shear flow

Abstract

Investigating cell adhesion behavior on biocompatible surfaces under dynamic flow conditions is not only of scientific interest but also a principal step towards development of new medical implant materials. Driven by the improvement of the measurement technique for microfluidic flow fields (scanning particle image velocimetry, sPIV), a semi-automatic correlation of the local shear velocity and the cell detachment probability became possible. The functionality of customized software entitled ‘PIVDAC’ (Particle Image Velocimetry De-Adhesion Correlation) is demonstrated on the basis of detachment measurements using standard sand-blasted titanium implant material. A thermodynamic rate model is applied to describe the process of cell adhesion and detachment. A comparison of the model and our experimental findings, especially in a mild regime, where the shear flow does not simply tear away all cells from the substrate, demonstrates, as predicted, an increase of detachment rate with increasing shear force. Finally, we apply the method to compare experimentally obtained detachment rates under identical flow conditions as a function of cell density and find excellent agreement with previously reported model simulations that consider pure geometrical effects. The demonstrated method opens a wide field of applications to study various cell lines on novel substrates or in time dependent flow fields.

Published

2019

7. My Dearest Wife: The Private and Public Lives of James David Edgar and Matilda Ridout Edgar

Author

Maud J. McLean, Robert M. Stamp

Published

1998

8. The influence of different abutment materials on tissue regeneration after surgical treatment of peri-implantitis – a randomized controlled preclinical study

Author

Christian Schmitt, Jan Wrede, Tobias Moest, Karl Aandreas Schlegel, Friedrich Wilhelm Neukam, and Melanie E. M. Stamp

Subjects

Peri-implantitis, medicine.medical_treatment, Bleeding on probing, Abutment, Dentistry, Dental Abutments, Dental Materials, Random Allocation, 03 medical and health sciences, Dogs, 0302 clinical medicine, 0502 economics and business, Animals, Medicine, Dental implant, Surgical treatment, Wound Healing, business.industry, 05 social sciences, Soft tissue, Attachment level, 030206 dentistry, Peri-Implantitis, Otorhinolaryngology, Female, 050211 marketing, Surgery, Oral Surgery, medicine.symptom, business, Large animal

Abstract

Objectives This study aimed to assess the impact of different abutment materials on peri-implant tissue regeneration after surgical treatment of peri-implantitis in a large animal model. Material and Methods Titanium implants ( n = 51) were inserted in the upper and lower jaw of eight beagle dogs and a peri-implant infection was induced. After two months the peri-implant infection was surgically treated and abutments with different surfaces (Ti-2: n = 14; CoCrMb: n = 13; Ag-modified Ti-4: n =14; Ti-4 control: n = 10) were applied. Clinical attachment level (CAL), modified sulcus bleeding index (mBI), bleeding on probing (BoP), and the sulcus fluid flow rate (SFFR) were determined 4, 8, and 12 weeks after surgical treatment to document the peri-implant tissue reaction. Results Superior levels for CAL and mBI were found with the Ti-4 control and the Ag-modified abutments, with the Ag-modified abutments showing the best values after 12 weeks. Lowest SFFR values compared with the other treatment groups underlined the superior soft tissue reaction adjacent to Ag-modified abutments. After 12 weeks inferior CAL, SFFR, BOP and mBI values were documented for the Ti-2 surface. Conclusion Within limitations of the study, Ag-modified abutments lead to superior tissue reactions. Further studies are needed to investigate the properties of abutment materials.

Published

2017

9. Towards virtual histology with X-ray grating interferometry

Author

M. Polikarpov, J. Vila-Comamala, Z. Wang, A. Pereira, S. van Gogh, C. Gasser, K. Jefimovs, L. Romano, Z. Varga, K. Lång, M. Schmeltz, S. Tessarini, M. Rawlik, E. Jermann, S. Lewis, W. Yun, and M. Stampanoni

Subjects

Medicine, Science

Abstract

Abstract Breast cancer is the most common type of cancer worldwide. Diagnosing breast cancer relies on clinical examination, imaging and biopsy. A core-needle biopsy enables a morphological and biochemical characterization of the cancer and is considered the gold standard for breast cancer diagnosis. A histopathological examination uses high-resolution microscopes with outstanding contrast in the 2D plane, but the spatial resolution in the third, Z-direction, is reduced. In the present paper, we propose two high-resolution table-top systems for phase-contrast X-ray tomography of soft-tissue samples. The first system implements a classical Talbot–Lau interferometer and allows to perform ex-vivo imaging of human breast samples with a voxel size of 5.57 μm. The second system with a comparable voxel size relies on a Sigray MAAST X-ray source with structured anode. For the first time, we demonstrate the applicability of the latter to perform X-ray imaging of human breast specimens with ductal carcinoma in-situ. We assessed image quality of both setups and compared it to histology. We showed that both setups made it possible to target internal features of breast specimens with better resolution and contrast than previously achieved, demonstrating that grating-based phase-contrast X-ray CT could be a complementary tool for clinical histopathology.

Published

2023

10. INTRODUCTION

Author

Robert M. Stamp

Published

2018

11. Correlation of

Author

A M, Jötten, S, Angermann, M E M, Stamp, D, Breyer, F G, Strobl, A, Wixforth, and C, Westerhausen

Abstract

Investigating cell adhesion behavior on biocompatible surfaces under dynamic flow conditions is not only of scientific interest but also a principal step towards development of new medical implant materials. Driven by the improvement of the measurement technique for microfluidic flow fields (scanning particle image velocimetry, sPIV), a semi-automatic correlation of the local shear velocity and the cell detachment probability became possible. The functionality of customized software entitled 'PIVDAC' (Particle Image Velocimetry De-Adhesion Correlation) is demonstrated on the basis of detachment measurements using standard sand-blasted titanium implant material. A thermodynamic rate model is applied to describe the process of cell adhesion and detachment. A comparison of the model and our experimental findings, especially in a mild regime, where the shear flow does not simply tear away all cells from the substrate, demonstrates, as predicted, an increase of detachment rate with increasing shear force. Finally, we apply the method to compare experimentally obtained detachment rates under identical flow conditions as a function of cell density and find excellent agreement with previously reported model simulations that consider pure geometrical effects. The demonstrated method opens a wide field of applications to study various cell lines on novel substrates or in time dependent flow fields.

Published

2018

12. Acoustotaxis – in vitro stimulation in a wound healing assay employing surface acoustic waves

Author

Christoph Westerhausen, Melanie E. M. Stamp, Achim Wixforth, and Manuel S. Brugger

Subjects

Materials science, Niobium, Cell Culture Techniques, Biomedical Engineering, Stimulation, Nanotechnology, 02 engineering and technology, Vibration, 01 natural sciences, Cell Movement, Cell Line, Tumor, Humans, General Materials Science, Biochip, Wound Healing, business.industry, 010401 analytical chemistry, Ultrasound, Oxides, Cell migration, Equipment Design, Acoustic wave, Velocimetry, Silicon Dioxide, 021001 nanoscience & nanotechnology, Electric Stimulation, 0104 chemical sciences, Ultrasonic Waves, ddc:540, 0210 nano-technology, Infrared microscopy, business, Wound healing, Biomedical engineering

Abstract

A novel, ultrasound based approach for the dynamic stimulation and promotion of tissue healing processes employing surface acoustic waves (SAW) on a chip is presented for the example of osteoblast-like SaOs-2 cells. In our investigations, we directly irradiate cells with SAW on a SiO2 covered piezoelectric LiNbO3 substrate. Observing the temporal evolution of cell growth and migration and comparing non-irradiated to irradiated areas on the chip, we find that the SAW-treated cells exhibit a significantly increased migration as compared to the control samples. Apart from quantifying our experimental findings on the cell migration stimulation, we also demonstrate the full bio compatibility and bio functionality of our SAW technique by using LDH assays. We safely exclude parasitic side effects such as a SAW related increased substrate temperature or nutrient flow by thoroughly monitoring the temperature and the flow field using infrared microscopy and micro particle image velocimetry. Our results show that the SAW induced dynamic mechanical and electrical stimulation obviously directly promotes the cell growth. We conclude that this stimulation method offers a powerful platform for future medical treatment, e.g. being implemented as a implantable biochip with wireless extra-corporal power supply to treat deeper tissue.

Published

2018

13. Corrigendum to 'The influence of different abutment materials on tissue regeneration after surgical treatment of peri-implantitis - A randomized controlled preclinical study' [J Cranio-Maxillo-Facial Surg 45 (2017) 1190-1196]

Author

Melanie E. M. Stamp, Jan Wrede, Friedrich Wilhelm Neukam, Christian Schmitt, Karl Andreas Schlegel, and Tobias Moest

Subjects

Peri-implantitis, Otorhinolaryngology, business.industry, MEDLINE, Medicine, Dentistry, Surgery, Oral Surgery, business, Surgical treatment, Abutment (dentistry)

Published

2017

14. Spectroscopic measurements of Be erosion at JET ILW and interpretation with ERO modelling

Author

S. Brezinsek, M. Groth, Carlos A. Silva, S. Marsen, Dmitry Matveev, A. Kirschner, Jet-Efda Contributors, V. Philipps, C. Björkas, D. Borodin, M. Stamp, J. Miettunen, and O. Van Hoey

Subjects

Electromagnetic field, fusion, spectroscopy, Nuclear and High Energy Physics, Tokamak, Plasma parameters, ta221, chemistry.chemical_element, impurities, law.invention, Physics::Plasma Physics, law, Limiter, General Materials Science, tokamak, ta218, plasma, Line (formation), Jet (fluid), ta214, ta114, Plasma, beryllium, Computational physics, Nuclear Energy and Engineering, chemistry, Beryllium, Atomic physics

Abstract

Beryllium (Be) erosion has been studied in dedicated limiter discharges in JET with the recently installed ITER-like wall [1] . Passive spectroscopy [2] in the vicinity of the solid Be limiter is used for measurement of the Be physical sputtering as the main erosion mechanism. To consider the 3D configuration of plasma parameters and the electromagnetic field, the actual limiter shape and the local transport affecting the fraction of Be coming into the observation volume, a detailed modelling with the ERO code has been applied to interpret the experimental data. The observed dependence of BeI and BeII line intensities on plasma parameters during the density scan and various line ratios are used to validate the model and the underlying data including the recently introduced assumptions for Be physical sputtering, the very same which were used before for ITER predictive modelling [3] .

Published

2013

15. First Nitrogen-seeding Experiments in JET with the ITER-like Wall

Author

Ch. Linsmeier, D. Douai, M. Brix, A. Drenik, A. Meigs, M. Clever, G. Calabrò, E. Joffrin, Efda-Jet Contributors, M. Reinelt, G. Sips, K. McCormick, K. Lawson, M. Oberkofler, S. Marsen, B. Sieglin, R. Neu, U. Kruezi, S. Brezinsek, T. Dittmar, Francisco L. Tabarés, J. W. Coenen, C. Giroud, A. Martin Rojo, M. Stamp, S. Romanelli, Stamp, M., Calabro, G., and EFDA-JET Contributors

Subjects

Ammonia production, Nuclear and High Energy Physics, Jet (fluid), Nuclear Energy and Engineering, chemistry, Impurity, Plasma parameters, Nuclear engineering, chemistry.chemical_element, General Materials Science, Seeding, Atomic physics, Nitrogen

Abstract

In this contribution we present results from the first N2 seeding experiments in JET performed after installation of the ITER-like Wall. Gas balance measurements for seeded L-mode discharges indicate very strong N2 retention as well as a potential increase in D2 retention. The possible influence of ammonia production on this apparent retention is discussed. Plasma parameters and impurity content were monitored throughout the seeded discharges as well as during subsequent clean-up discharges. These experiments give first insight into phenomena related to the use of nitrogen as seeding gas in JET with the ITER-like Wall, such as ammonia production and nitrogen legacy. © 2013 Elsevier B.V. All rights reserved.

Published

2013

16. Exploring the Limits of Cell Adhesion under Shear Stress within Physiological Conditions and beyond on a Chip

Author

Dominik Breyer, Melanie E. M. Stamp, Patrick W. Kudella, Florian G. Strobl, Christoph Westerhausen, Achim Wixforth, Thomas M. Geislinger, and Anna Martina Jötten

Subjects

0301 basic medicine, Materials science, Clinical Biochemistry, Microfluidics, microfluidics, 02 engineering and technology, cell adhesion, shear stress, pH, temperature, medical implants, lab-on-a-chip, Article, Osseointegration, 03 medical and health sciences, Acoustic streaming, Surface roughness, Shear stress, ddc:530, Cell adhesion, lcsh:R5-920, Adhesion, 021001 nanoscience & nanotechnology, 030104 developmental biology, Biophysics, 0210 nano-technology, Shear flow, lcsh:Medicine (General), Biomedical engineering

Abstract

Cell adhesion processes are of ubiquitous importance for biomedical applications such as optimization of implant materials. Here, not only physiological conditions such as temperature or pH, but also topographical structures play crucial roles, as inflammatory reactions after surgery can diminish osseointegration. In this study, we systematically investigate cell adhesion under static, dynamic and physiologically relevant conditions employing a lab-on-a-chip system. We screen adhesion of the bone osteosarcoma cell line SaOs-2 on a titanium implant material for pH and temperature values in the physiological range and beyond, to explore the limits of cell adhesion, e.g., for feverish and acidic conditions. A detailed study of different surface roughness Rq gives insight into the correlation between the cells’ abilities to adhere and withstand shear flow and the topography of the substrates, finding a local optimum at Rq = 22 nm. We use shear stress induced by acoustic streaming to determine a measure for the ability of cell adhesion under an external force for various conditions. We find an optimum of cell adhesion for T = 37 °C and pH = 7.4 with decreasing cell adhesion outside the physiological range, especially for high T and low pH. We find constant detachment rates in the physiological regime, but this behavior tends to collapse at the limits of 41 °C and pH 4.

Published

2016

17. Manipulation of Cell Proliferation and Migration Employing Surface Acoustic Waves and Hydrophobic/Hydrophilic Structured Substrates

Author

Manuel S. Brugger, Achim Wixforth, Melanie E. M. Stamp, and Christoph Westerhausen

Subjects

Materials science, Biocompatibility, Cell growth, Regeneration (biology), Cell, Biophysics, Nanotechnology, medicine.anatomical_structure, Tissue engineering, medicine, ddc:530, Infrared microscopy, Wound healing, Process (anatomy), Biomedical engineering

Abstract

Tissue engineering for the purpose of nerve or spinal cord repair has become an emerging topic in biophysical and medical research. Addressing this issue relies on an understanding of the principles of tissue growth and applying this understanding to produce functional replacement tissues for clinical use after injury. During wound healing, the damaged tissue layer is reassembled and regenerated through cell proliferation and migration. Thus, any type of external stimuli being able to improve this process of cell regeneration could be highly useful for accelerating wound repair. To study such an external wound healing parameter, we use surface acoustic waves (SAW) for dynamic in vitro manipulation of living cells in a precise controlled manner. In our investigations, we use osteoblastic SaOs-2 cells on a Si02-covered piezoelectric LiNbO3 substrate which we irradiate with SAW continuously for 72hours. Employing a conventional wound healing assay, we show the SAW - treated cells exhibit significantly increased proliferation and migration, respectively, as compared to control samples. Apart from quantifying our experimental findings, we also demonstrate the biocompatibility and biofunctionality of our SAW reactor by using LDH assays. We can neglect parasitic or beneficial side effects such as changing substrate temperature or nutrient flow rate through (OR ‘by closely’) monitoring the temperature and flow field using infrared microscopy and micro particle image velocimetry. Indeed, our results show that the SAW-induced dynamic, mechanical, and electrical stimulation directly promotes cell growth by increasing cell regeneration and migration rates. Our next goal is to guide the cells along certain tracks using hydrophobic/hydrophilic trails in combination with SAW.

Published

2016

18. Coupling between JET pedestal ne–Te and outer target plate recycling

Author

M. Beurskens, S. Jachmich, H. Thomsen, M. Stamp, Jet-Efda Contributors, Wojciech Fundamenski, K. McCormick, A. Boboc, C. Giroud, G. Maddison, T. Eich, S. Brezinsek, and David Moulton

Subjects

Coupling, Physics, Nuclear and High Energy Physics, Jet (fluid), Range (particle radiation), Pedestal, Nuclear Energy and Engineering, Divertor, Power deposition, Photon flux, General Materials Science, Atomic physics, Ion

Abstract

Systematic scans using D 2 gas puffing and impurity-seeding (Ne, N 2 ) have been carried out on ELMy-H and Advanced-Tokamak-like discharges to study power deposition amelioration at the divertor target plates in preparation for the JET ITER-Like Wall (ILW). Hereby it has been discovered that the recycling ion fluxes I div to the outer target plate exhibit a clear connection to pedestal n e and T e , whereby the D α photon flux Φ Dα from the outer divertor serves here as an approximate measure of I div . Φ Dα can be expressed as ( n e / T e ) β with β = 2.5/3 depending on the scenario (EH/AT). This coupling between SOL and pedestal across the edge transport barrier (ETB) is associated with a close connection between n e and T e in the ETB over the entire range of operational parameters, with the slope of log T e vs. log n e being ∼0.9/1.24 for ET/AT scenarios, respectively.

Published

2011

19. Canadian High Schools in the 1920’s and 1930’s: The Social Challenge to the Academic Tradition

Author

Robert M. Stamp

Subjects

General Medicine

Abstract

L'auteur traite d'abord de l'augmentation assez spectaculaire du nombre d'élèves dans les écoles secondaires pendant les décennies 1919-1939 pour ensuite s'interroger sur les causes et effets de cet état de chose. Deux provinces, l'Ontario et l'Alberta, lui servent de points d'observation, l'une représentant la société déjà industrialisée de l'est, l'autre, celle plus jeune et plus rurale de l'ouest. Comment donc s'explique cette forte montée de la population étudiante? Deux facteurs se distinguent comme étant nettement plus importants : celui du progrès technique qui réduit de beaucoup le besoin d'une main d'oeuvre non-spécialisée d'une part, et, d'autre part, celui du fait que la société semble de plus en plus consciente du rôle de surveillance et de direction que l'école peut assumer dans la vie de l'étudiant. Les effets sont tout aussi marquants. Durant les années vingt, on voit se multiplier les écoles de métiers ainsi que les écoles techniques et commerciales. De même, les activités parascolaires se diversifient et il y a peu d'écoles qui n'ait son conseil étudiant, son journal, son annuaire, ou encore, ses compétitions sportives. Cependant, il n'en demeure pas moins que, dans la majorité des écoles, le programme académique change peu et qu'il est toujours dressé en fonction du petit nombre d'élèves qui se dirige vers l'université. Ces changements s'observent tant en Ontario qu'en Alberta bien qu'ils s'effectuent plus lentement dans cette dernière. Pendant les années trente, le nombre toujours grandissant d'étudiants amène des changements plus radicaux. Dans l'ouest du pays, on adopte bientôt une nouvelle formule où les septième, huitième et neuvième années sont considérées comme un tout servant d'intermédiaire entre l'école élémentaire et l'école secondaire. Cette formule ne sera pas acceptée en Ontario; on optera plutôt pour de plus nombreuses options de cours au niveau de la neuvième année. Autres changements : on se ralliera à une école qui abrite tous les secteurs sous le même toit, et de plus, on abolira les examens dits "d'entrée" pour se tourner du côté du système des "recommandations". En somme, l'école secondaire de 1939 est différente de celle de 1919 tant au qualitatif qu'au quantitatif.

Published

2006

20. Real-time measurement and control at JET experiment control

Author

R. Bridge, S. Griph, A.V. Stephen, I.D. Young, Tommaso Bolzonella, K.-D. Zastrow, C. Ingesson, P. Card, M. Beldishevski, N. C. Hawkes, F. Piccolo, M. D. J. Bright, Jacques Blum, Paolo Innocente, Diogo Alves, D. F. Howell, J. Davis, E. Vitale, J.W. Farthing, S. Popovichef, A. Huber, R. C. Felton, R. Barnsley, Luca Zabeo, Oliviero Barana, E. Joffrin, P. Heesterman, O. Hemming, J. Harling, Javier Sánchez, F. Crisanti, H. Leggate, C. H. A. Hogben, I. Coffey, T. Budd, G. Lloyd, C. Gowers, Filippo Sartori, Marco Valisa, M. Buckley, P. McCullen, E. Jones, D. Moreau, S. E. Dorling, M. Zerbini, K. Guenther, João M. C. Sousa, Didier Mazon, M. Walters, A. Goodyear, Andrea Murari, R. Lucock, C. Giroud, K. Bosak, S. Dalley, M. Stamp, M. Wheatley, Marco Riva, E. de la Luna, and T. Edlington

Subjects

Physics, Tokamak, Mechanical Engineering, Nuclear engineering, Divertor, Plasma, ITER-relevant, Neutral beam injection, law.invention, Nuclear magnetic resonance, Nuclear Energy and Engineering, Physics::Plasma Physics, JET, Control theory, law, Control system, General Materials Science, Plasma diagnostics, Interlock, Real-time, Civil and Structural Engineering

Abstract

Over the past few years, the preparation of ITER-relevant plasma scenarios has been the main focus of experimental activity on tokamaks. The development of integrated, simultaneous, real-time controls of plasma shape, current, pressure, temperature, radiation, neutron profiles and also impurities, ELMs and MHD are now seen to be essential for further development of quasi-steady state conditions with feedback, or the stabilisation of transient phenomena with event-driven actions. For this thrust, the EFDA JET Real-Time Project has developed a set of real-time plasma measurements, experiment control and communication facilities. The plasma diagnostics used for real-time experiments are Far Infra Red interferometry, polarimetry, visible, UV and X-ray spectroscopy, LIDAR, bolometry, neutron and magnetics. Further analysis systems produce integrated results, such as temperature profiles on geometry derived from MHD equilibrium solutions. The actuators include toroidal, poloidal and divertor coils, gas and pellet fuelling, neutral beam injection, radio frequency (ICRH) waves and microwaves (LH). The heating/fuelling operators can either define a power or gas request waveform or select the real-time instantaneous power/gas request from the real-time experiment central control (RTCC) system. The real-time experiment control system provides both a high-level, control-programming environment and interlocks with the actuators. A MATLAB facility is being developed for the development of more complex controllers. The plasma measurement, controller and plant control systems communicate in ATM network. The EFDA Real-Time Project is essential groundwork for future reactors such as ITER. It involves many staff from several institutions. The facility is now frequently used in experiments. This work has been conducted under the European Fusion Development Agreement and is partly funded by Euratom and the UK Engineering and Physical Sciences Research Council.

Published

2005

21. Environmental and management factors affecting the welfare of chickens on commercial farms in the United Kingdom and Denmark stocked at five densities

Author

Christl A. Donnelly, Tracey A. Jones, and M. Stamp Dawkins

Subjects

Litter (animal), Veterinary medicine, Range (biology), Denmark, media_common.quotation_subject, Walking, Animal Welfare, Population density, Agricultural science, Stocking, Animal welfare, Animals, Animal Husbandry, Poultry Diseases, media_common, Population Density, Temperature, Broiler, Humidity, General Medicine, Animal husbandry, Housing, Animal, United Kingdom, Hindlimb, Geography, Animal Science and Zoology, Chickens, Welfare

Abstract

Data from a large commercial-scale experiment in which 10 major broiler producer companies stocked whole houses of birds at 30, 34, 38, 42, and 46 kg/m2 were analyzed to identify 1) temperature and humidity profiles achieved throughout the growth cycle, 2) management practices and equipment that contributed to observed variation in environmental conditions, and 3) the extent to which environmental variables affected bird welfare. The study involved a total of 2.7 million birds in 114 houses on commercial farms with measurement of a wide range of environmental and bird variables. Much of the variation in broiler health and welfare was associated with the percentage of time a company could maintain house temperature and RH within limits recommended by the breeder company. RH in the first week of life was particularly important to later health, suggesting that better control of humidity might lead to improved welfare. Key management factors affecting bird welfare were those relating to good ventilation and air control such as the type of ventilation, type of drinker, numbers of stockmen, and litter type. Controlling the environment, particularly temperature, humidity, and air and litter quality, is crucial to broiler chicken welfare. This does not mean that stocking density is unimportant, but lowering stocking density on its own, without regard to the environment the birds experience, is not sufficient. Genuine improvements in bird welfare will come from setting standards that combine stocking density, safeguards on the environment, and the genetic makeup of the birds.

Published

2005

22. Teaching the 'Children of Silence': Samuel Greene and the Hearing-Impaired

Author

Robert M. Stamp

Subjects

Silence, Literature, business.industry, media_common.quotation_subject, Art, business, media_common

Published

2005

23. Growing Up Progressive? Part I: Going to Elementary School in 1940s Ontario

Author

Robert M. Stamp

Subjects

Economic growth, Sociology

Published

2005

24. Molecular deuterium sources in the outer divertor of JET

Author

P.T. Greenland, U. Samm, M. Stamp, G. Sergienko, A. Pospieszczyk, Ph. Mertens, S. Brezinsek, S. Wiesen, A. Huber, and A.G. Meigs

Subjects

Nuclear and High Energy Physics, Jet (fluid), education.field_of_study, Chemistry, Divertor, Population, Rotational–vibrational spectroscopy, Fusion power, Nuclear Energy and Engineering, Deuterium, Physics::Plasma Physics, General Materials Science, Atomic physics, education, Spectroscopy, Neutral particle

Abstract

At JET the properties of deuterium molecules and their contribution to the total deuteron flux in the outer divertor for the horizontal configuration in L- and H-mode conditions have been determined. For this purpose the outer divertor was observed with several high resolution spectrometers and lines of sight directed vertically with spatial resolution from the outer vertical target plate to the centre of the MK IIB GB/SRP divertor. The rovibrational population of the Fulcher bands of the deuterium molecules could both be measured for the first five diagonal vibrational transitions. A collisional-radiative model for deuterium molecules was used to convert the measured photon fluxes into local molecular D2-fluxes. With more than 70% of the total proton flux originating from molecular sources molecules make up a significant contribution to the fuelling in the divertor. This was found to be in agreement with the 2d-fluid/neutral particle code EDGE2D/NIMBUS.

Published

2005

25. Studies of a-C: D film inhibition by nitrogen injection in laboratory plasmas and divertors

Author

M.J. Baldwin, V. Philipps, D. Tafalla, V. Rohde, G. Matthews, G. Esser, R.P. Doerner, Francisco L. Tabarés, and M. Stamp

Subjects

Nuclear and High Energy Physics, Jet (fluid), Nuclear engineering, Divertor, chemistry.chemical_element, Plasma, Fusion power, Nitrogen, Nuclear physics, Nuclear Energy and Engineering, chemistry, Deposition (phase transition), General Materials Science, Tritium, Carbon

Abstract

The injection of nitrogen, as well as other species generally considered as scavengers of the film precursors, in carbon deposition plasmas can completely inhibit the film formation under given plasma conditions, as it has been extensively shown in technical plasmas. Experiments aimed at using this technique to the suppression of tritium/carbon co-deposits in fusion devices have been initiated in several devices. To date, a moderate inhibition (∼40%) of carbon deposition efficiency has been detected in nitrogen-seeded Elmy plasmas at JET. In addition to this, the divertor plasma simulator, Pisces-B, has been used to benchmark the concept under divertor conditions, while maintaining a better control of the experimental parameters. In the present work a review of the state of the art is given. The results from the available experiments are critically analysed in view of the present understanding of the re-deposited film formation in divertors.

Published

2005

26. Flux dependence of carbon erosion and implication for ITER

Author

J. Hogan, Roland Preuss, J. M. Layet, G. Federici, W. Bohmeyer, A. Kirschner, A. Pospieszczyk, R. Pugno, S. Brezinsek, Eric Gauthier, S. Higashijima, E. Casarotto, J. Roth, Hirotaka Kubo, G. Sergienko, A. Kallenbach, V. Philipps, B. Schweer, A. Cambe, Tomohide Nakano, M. Stamp, R. Doerner, and R. Ruggiéri

Subjects

Nuclear and High Energy Physics, Yield (engineering), Tokamak, Chemistry, Nuclear engineering, Divertor, chemistry.chemical_element, Fusion power, Physics::Geophysics, Ion, law.invention, Nuclear physics, Flux (metallurgy), Nuclear Energy and Engineering, Physics::Plasma Physics, law, Erosion, General Materials Science, Astrophysics::Earth and Planetary Astrophysics, Carbon

Abstract

In a collaboration of eight experiments the dependence of the chemical erosion yield of carbon on the ion flux, Φ , was established to Φ −0.54 at high ion fluxes. With this flux dependence a comprehensive description for chemical erosion is available as function of energy, temperature and flux. With this description the erosion and re-deposition of carbon in the ITER divertor can be calculated using the ITER steady-state plasma scenario and the ERO code. The resulting gross and net erosion rates during steady-state phase of discharges are compared to previous estimates using a constant erosion yield of 1.5%. The use of the complete parameter dependence results in an order of magnitude lower erosion, and, accordingly, of the T codeposition inventory.

Published

2005

27. Tritium transport experiments on the JET tokamak

Author

L. Garzotti, Pierre Dumortier, Sean Conroy, J. H. Brzozowski, T. C. Hender, A. D. Whiteford, P. Belo, H. Weisen, C. D. Challis, J. Ongena, R. Neu, D. C. McDonald, J. Mailloux, J. M. Adams, M. de Baar, D. Stork, M. F. F. Nave, M. Valovic, J. Stober, P. de Vries, M. G. O'Mullane, A. Zabolotsky, K-D. Zastrow, Jorge Ferreira, E. Joffrin, I. Voitsekhovitch, L. Bertalot, M. Stamp, Jet-Efda Contributors, Vasily Kiptily, Y. Baranov, and S. Popovichev

Subjects

Jet (fluid), Materials science, Tokamak, Cyclotron, Magnetic confinement fusion, Plasma, Condensed Matter Physics, law.invention, Nuclear Energy and Engineering, law, Beta (plasma physics), Diffusion (business), Atomic physics, Scaling

Abstract

An overview is given of the experimental method, the analysis technique and the results for trace tritium experiments conducted on the JET tokamak in 2003. Observations associated with events such as sawtooth collapses, neo-classical tearing modes and edge localized modes are described. Tritium transport is seen to approach neo-classical levels in the plasma core at high density and low q(95), and in the transport barrier region of internal transport barrier (ITB) discharges. Tritium transport remains well above neo-classical levels in all other cases. The correlation of the measured tritium diffusion coefficient and convection velocity for normalized minor radii r/a = [0.65, 0.80] with the controllable parameters q95 and plasma density are found to be consistent for all operational regimes (ELMy H-mode discharges with or without ion cyclotron frequency resonance heating, hybrid scenario and ITB discharges). Scaling with local physics parameters is best described by gyro-Bohm scaling with an additional inverse beta dependence.

Published

2004

28. Flux dependence of carbon chemical erosion by deuterium ions

Author

A. Pospieszczyk, J. M. Layet, Hirotaka Kubo, R. Doerner, J. Hogan, M. Stamp, J. Roth, V. Philipps, B. Schweer, R. Ruggiéri, S. Higashijima, G. Sergienko, R. Pugno, E. Gauthier, W. Bohmeyer, A. Kallenbach, G. Federici, A. Kirschner, S. Brezinsek, E. Casarotto, Roland Preuss, A. Cambe, and Tomohide Nakano

Subjects

Nuclear and High Energy Physics, Tokamak, Yield (engineering), Materials science, Ion beam, Hydrogen, Divertor, chemistry.chemical_element, Magnetic confinement fusion, Plasma, Condensed Matter Physics, Ion, law.invention, chemistry, Physics::Plasma Physics, law, ddc:530, Atomic physics

Abstract

The chemical erosion of carbon in interaction with a hydrogen plasma has been studied in detail in ion beam experiments, and erosion yield values are available as a function of ion energy and surface temperature. However, the conditions in the ITER divertor cannot be simulated by ion beam experiments, especially as far as ion flux is concerned.Therefore, a joint attempt was made through the EU Task Force on plasma-wall interaction and the international tokamak physics activity involving seven different fusion devices and plasma simulators to clarify the flux dependence. For each data point the local plasma conditions were normalized to an impact energy of 30 eV, care was taken to select data for a surface temperature close to the maximum yield or room temperature and the calibration of the diagnostic was performed in situ. Through this procedure the previous large scatter was significantly reduced, revealing a clear trend for a decreasing yield with increasing ion flux, Phi. After the attribution of an error to each data point a fit using Bayesian probability analysis was performed, yielding a decrease in the erosion yield with Phi(-0.54) at high ion fluxes.

Published

2004

29. Divertor modelling of septum assessment experiments in JET MkIIGB

Author

E. Tsitrone, P. Andrew, X. Bonnin, P. Coad, D. Coster, W. Fundamenski, P. Ghendrih, A. Huber, S. Jachmich, A. Kukushkin, A. Loarte, G. Matthews, R. Pitts, J. Rapp, D. Reiter, M. Stamp, M. Wischmeier, and null contributors to the JET EFDA work p

Subjects

Jet (fluid), Materials science, Ionization, media_common.quotation_subject, Divertor, Flow (psychology), Magnetic confinement fusion, Flux, Plasma, Atomic physics, Condensed Matter Physics, Asymmetry, media_common

Abstract

We present results obtained from modeling the septum assessment experiments of the JET MkIIGB divertor with the B2-Eirene code package. Similar L-mode discharges have been performed with and without septum, varying density and gas puffing location. High and low inner wall clearance simulations are also compared, as this parameter has been shown experimentally to play an important role in the final density limit. According to the simulations, the neutrals ionization pattern is not affected by the septum, consistent with experiment. The septum does improve the pumped particle flux in the outer divertor, the inner divertor results depending on plasma-wall clearance, but this only concerns a small fraction of the recycling flux at the targets (less than 2%) and does not influence the overall divertor plasma very much. Comparison between inner and outer gas fuelling with a moderate gas puff rate shows no difference in the simulations without septum, while a slight asymmetry is observed in the simulations with septum, showing that the septum allows acting separately on the inner and outer divertor. We conclude that a neutral flow exists linking outer and inner diveriors with particles travelling around the plasma in the main chamber. (C) 2004 WILEY-VCH Verlag, GmbH & Co. KGaA. Weinheim.

Published

2004

30. Tomographic reconstruction of 2D line radiation distribution in the JET MkIIGB divertor

Author

G. Sergienko, V. Philipps, A. Pospieszczyk, B. Schweer, P Coad, G.F Matthews, M. Stamp, K. Itami, D. P. Coster, L.C Ingesson, Ph. Mertens, A. Kirschner, S Jachmich, M Lehnen, and A. Huber

Subjects

Physics, Nuclear and High Energy Physics, Jet (fluid), Tokamak, Divertor, Astrophysics::Cosmology and Extragalactic Astrophysics, Fusion power, law.invention, Nuclear physics, Nuclear Energy and Engineering, Deuterium, Physics::Plasma Physics, law, Ionization, Plasma parameter, General Materials Science, Atomic physics, Line (formation)

Abstract

A 2D-tomographic reconstruction of D α - and C III-emission distribution in L-mode, density limit discharge has been performed and compared with results from other diagnostics (KL2, KS3). The observed emission patterns in a poloidal plane show a strong in–out asymmetry, which depends on local plasma parameter in the divertor. It is shown that the major contribution to D α -emission, under the observed conditions, lies in excitation processes and that low-energy charge-exchange reactions with neutral deuterium can influence the ionisation balance of carbon and the recorded C III-emission line. The evolution of the intrinsic hydrogen and carbon impurity profiles has been analysed with respect to its dependence on the location of methane fuelling.

Published

2003

31. Selective formation of angular tricyclic compounds by ruthenium-mediated ring-rearrangement metathesis

Author

D. Jean Burnell, Paul D. Thornton, Fuye Gao, T. Stanley Cameron, David O. Miller, Craig T. M. Stamp, and Lauren E. Doyle

Subjects

chemistry.chemical_classification, Stereochemistry, Metals and Alloys, Cyclohexene, chemistry.chemical_element, General Chemistry, Ring (chemistry), Metathesis, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Ruthenium, chemistry.chemical_compound, chemistry, Materials Chemistry, Ceramics and Composites, Moiety, Cycloheptene, Selectivity, Tricyclic

Abstract

Unsaturated spirocyclic substrates bearing two alkenyl chains underwent ruthenium-mediated ring-rearrangement metathesis through relaying cyclohexene and cycloheptene moieties to give angularly fused tricyclics. In some instances where two products were expected, high degrees of selectivity were observed. In one instance the structural parameter leading to selectivity was very subtle; in others the transformation favoured the formation of products with a cis-fused cyclohexene moiety. An unusual transformation involving ring-opening, double-bond migration, and then ring-closing was observed.

Published

2012

32. Scaling of the pedestal density in type-I ELMy H-mode discharges and the impact of upper and lower triangularity in JET and ASDEX Upgrade

Author

A. Kallenbach, M.N.A Beurskens, A. Korotkov, P. Lomas, W. Suttrop, M. Charlet, D.C. McDonald, F. Milani, J. Rapp, M. Stamp, EFDA-JET Workprogramme contributors, and ASDEX Upgrade Team

Subjects

Physics, Nuclear and High Energy Physics, Jet (fluid), Gyroradius, Magnetic confinement fusion, Plasma, Collisionality, Condensed Matter Physics, ASDEX Upgrade, Physics::Plasma Physics, ddc:530, Atomic physics, Scaling, Dimensionless quantity

Abstract

Experiments have been performed to disentangle the individual role of tipper and lower triangularity on density buildup of lower single null, type-I ELMy H-mode discharges in JET. Comparison with corresponding data from ASDEX Upgrade allowed us to determine a dimensionless representation of the relation between the main chamber recycling and core density and to widen the triangularity variation in the data base. To incorporate the recycling flux density F in a dimensionless form, an effective scrape-off layer density n(e,SOL) proportional to Gamma(0.5) is introduced allowing us to,,SOL parametrize and scale the core density by the density rise factor (n) over bar (e)/n(e,SOL). The scaling uses edge-specific definitions of normalized Larmor radius, collisionality and beta. Rewritten in dimensional form, a behaviour is found which is very similar to energy confinement scalings for the ELM-averaged conditions considered here: the density rise factor exhibits an almost linear dependence on plasma current, a weak negative toroidal field dependence as well as power degradation. While a pronounced positive dependence of density buildup on the upper triangularity is observed, no significant correlation with the lower triangularity is found. In particular the dependences on plasma current and upper triangularity emphasize the importance of transport physics for the density buildup.

Published

2002

33. Long timescale density peaking in JET

Author

M Valovic, J Rapp, J G Cordey, R Budny, D C McDonald, L Garzotti, A Kallenbach, M A Mahdavi, J Ongena, V Parail, G Saibene, R Sartori, M Stamp, O Sauter, J Strachan, W Suttrop, and contributors to the EFDA-JET Workprogramme

Subjects

Jet (fluid), Materials science, Nuclear Energy and Engineering, Physics::Plasma Physics, Tearing, Magnetic confinement fusion, High density, Plasma, Limiting, Atomic physics, Condensed Matter Physics, Beam (structure), Power level

Abstract

Long timescale density peaking has been observed in JET plasmas leading to densities exceeding the Greenwald value. These neutral beam heated discharges are characterized by type-I ELMs and good energy confinement. Central density is limited by neoclassical tearing modes or by termination of H-mode preceded by loss of sawteeth. When these limiting factors are avoided (i.e. at intermediate power level and with optimization of gas puffing) quasi-stationary high density plasmas with peaked density profile are obtained.

Published

2002

34. Energy confinement in steady-state ELMy H-modes in JET

Author

J G Cordey, D C McDonald, K Borrass, M Charlet, I Coffey, A Kallenbach, K Lawson, P Lomas, J Ongena, J Rapp, F Ryter, G Saibene, R Sartori, M Stamp, J Strachan, W Suttrop, M Valovic, and contributors to the EFDA-JET Workprogramme

Subjects

Electron density, Jet (fluid), Materials science, Steady state, Nuclear Energy and Engineering, Physics::Plasma Physics, Divertor, Plasma shaping, Magnetic confinement fusion, Plasma, Atomic physics, Condensed Matter Physics, Energy (signal processing)

Abstract

It is shown statistically that, divertor closure, plasma shaping and density peaking improve the energy confinement of ELMy H-modes, whilst the confinement degrades as the Greenwald density limit is approached. A prediction of the influence of these effects on the next step device ITER is given.

Published

2002

35. Confinement properties of high density impurity seeded ELMy H-mode discharges at low and high triangularity on JET

Author

P Dumortier, P Andrew, G Bonheure, R V Budny, R Buttery, M Charlet, I Coffey, M de Baar, P C de Vries, T Eich, D Hillis, C Ingesson, S Jachmich, G Jackson, A Kallenbach, H R Koslowski, K D Lawson, C Liu, G Maddison, A M Messiaen, P Monier-Garbet, M Murakami, M F F Nave, J Ongena, V Parail, M E Puiatti, J Rapp, F Sartori, M Stamp, J D Strachan, W Suttrop, G Telesca, M Tokar, B Unterberg, M Valisa, M von Hellermann, B Weyssow, and contributors to the EFDA-JET Workprogramme

Subjects

Electron density, Argon, Materials science, Divertor, Magnetic confinement fusion, chemistry.chemical_element, Plasma, Effective radiated power, Condensed Matter Physics, Nuclear Energy and Engineering, chemistry, Impurity, ddc:530, Seeding, Atomic physics

Abstract

The design value for ITER is based on operation at n/n(GW) = 0.85, beta(n) = 1.8 and H98(y, 2) = 1. These values have been routinely achieved in JET in argon seeded ELMy H-mode discharges in different divertor configurations and with different triangularities. Two main scenarios are emerging from the experiments.First, low triangularity (delta(u) = 0.19) in septum configuration. In this case large D-2 fuelling rates lead to confinement degradation towards L-mode. The seeding of Ar during the D-2 fuelling phase gives rise to a density close to the Greenwald value. After the switch-off of the D-2 gas fuelling ('afterpuff ' phase), the confinement recovers to H-mode quality whereas the density stays near the value reached at the end of the main fuelling phase and Z(eff) stays close to or below 2. Acting on the refuelling of Ar and D-2 in the 'afterpuff 'phase allows us to improve the stationarity of the high performance phase while maintaining up to the end of the heating phase the good confinement, density and radiation level.Second, high triangularity (delta(u) = 0.45) in vertical target configuration. In this case large fuelling rates do not lead to strong confinement degradation and the D-2 fuelling is applied continuously throughout the discharge. A radiated power fraction of up to 70%, H98(y, 2) = 0.9 at beta(n) = 2.1 and n = 1.15n(GW)-together with the formation of a radiating mantle and moderate Z(eff)-are achieved in this scenario. Furthermore, there are indications of significantly reduced heat load on the divertor target plates.

Published

2002

36. Seeding of impurities in JET H-mode discharges to mitigate the impact of ELMs

Author

S Jachmich, G Maddison, M N A Beurskens, P Dumortier, T Eich, A Messiaen, M F F Nave, J Ongena, J Rapp, J Strachan, M Stamp, G Telesca, B Unterberg, and contributors to the EFDA-JET Workprogramme

Subjects

Jet (fluid), Materials science, Nuclear Energy and Engineering, Impurity, Divertor, Nuclear engineering, Mode (statistics), Magnetic confinement fusion, Plasma diagnostics, Seeding, Plasma, Atomic physics, Condensed Matter Physics

Abstract

ELMy H-mode is one of the foreseen operational scenarios for ITER-FEAT. Good confinement and density is usually associated with Type I ELMs, which, however, will have a severe impact on the divertor target plates in ITER. At the JET-tokamak, impurities have been seeded into a variety of discharge configurations, by which the radiation level can be risen by a factor of 2. This delays the appearance of ELMs and reduces the power load onto the divertor target plates. In this paper, the influence of the impurities on the ELM behaviour and the plasma edge properties will be discussed. Several divertor diagnostics, such as electrical probes and infrared camera indicate a reduction of the heat power load at the inner divertor target tiles and a shrinking of the impact zone at the outer divertor.

Published

2002

37. High density operation at JET by pellet refuelling*

Author

P T Lang, B Alper, L R Baylor, M Beurskens, J G Cordey, R Dux, R Felton, L Garzotti, G Haas, L D Horton, S Jachmich, T T C Jones, A Lorenz, P J Lomas, M Maraschek, H W Müller, J Ongena, J Rapp, K F Renk, M Reich, R Sartori, G Schmidt, M Stamp, W Suttrop, E Villedieu, D Wilson, and EFDA-JET workprogramme collaborators

Subjects

Jet (fluid), Range (particle radiation), Materials science, Nuclear Energy and Engineering, Nuclear engineering, Pellet, Pellets, Magnetic confinement fusion, Plasma, Magnetohydrodynamics, Atomic physics, Condensed Matter Physics, Solid fuel

Abstract

Several approaches are used at JET to achieve operation at high density with good energy confinement. One of them is the injection of solid fuel pellets to realize efficient particle refuelling by deposition deep inside the plasma column. The new pellet launch system capable of launching from the torus magnetic high field side was investigated for its capability to fulfil this task in conventional ELMy H-mode discharges. Optimized pellet scenarios were developed for plasma configurations with IP = 2.5 MA, Bt = 2.4 T, averaged triangularity � δ �≈ 0.34 and mainly neutral beam heating at a level of approximately 17 MW. The accessible operational range was extended by the pellet tool with respect to gas puff refuelling. For example, H-mode conditions could be maintained at densities beyond the Greenwald level. Plasma energy confinement was observed to become density independent at high densities. When avoiding confinement deterioration due to pellet triggered MHD activity or parasitic pellet born gas in appropriate pulse schedules, enhanced particle inventory with more peaked density profiles was achieved while maintaining the plasma

Published

2002

38. Particle recirculation studies in JET

Author

E Tsitrone, J Bucalossi, T Loarer, Ph Ghendrih, A Loarte, P Andrew, P Coad, W Fundamenski, M Stamp, D Coster, and contributors to the JET EFDA work programme

Subjects

Jet (fluid), Tokamak, Materials science, Divertor, Magnetic confinement fusion, Plasma, Mechanics, Condensed Matter Physics, Signal, law.invention, Nuclear Energy and Engineering, Deuterium, Physics::Plasma Physics, law, Particle, Atomic physics

Abstract

A global particle balance analysis has been applied to a variety of L-mode and H-mode deuterium discharges of the C4 campaign of JET, performed at a lower wall temperature, in different magnetic configurations and with various divertor gas puffing location. Wall retention and divertor particle exhaust are discussed as a function of the plasma configuration, the wall temperature and the gas puffing location. The effect on ELMs frequency is also mentioned. A simple empirical law linking the divertor pressure and the Da signal integrated on the divertor is derived, which allows one to estimate the inner and outer contribution to pumping.

Published

2002

39. Optimization of pellet scenarios for long pulse fuelling to high densities at JET*

Author

null P.T. Lang, null B. Alper, null L.R. Baylor, null M. Beurskens, null J.G. Cordey, null R. Dux, null R. Felton, null L. Garzotti, null G. Haas, null L.D. Horton, null S. Jachmich, null T.T.C. Jones, null P.J. Lomas, null A. Lorenz, null M. Maraschek, null H.W. Müller, null J. Ongena, null J. Rapp, null M. Reich, null K.F. Renk, null R. Sartori, null G. Schmidt, null M. Stamp, null W. Suttrop, null E. Villedieu, and null EFDA-JET Work Programme Collaborators

Subjects

Nuclear and High Energy Physics, Jet (fluid), Range (particle radiation), Materials science, Nuclear engineering, Atmospheric-pressure plasma, Plasma, Condensed Matter Physics, Pellet, ddc:530, Magnetohydrodynamics, Atomic physics, Beam (structure), Particle deposition

Abstract

Pellet injection was investigated for its fuelling capability to high densities in ELMy H mode discharges at JET. Applying the high field side launch system, optimized refuelling scenarios were developed on the basis of conventional discharge configurations withIp= 2.5 MA,Bt= 2.4 T, averaged triangularity ⟨δ⟩≈0.34 and mainly neutral beam heating at a level of approximately 17 MW. The accessible operational range was extended with respect to gas puff refuelling by the use of pellet injection. For example, H mode conditions could be maintained at densities beyond the Greenwald level. Plasma energy confinement was observed to become density independent at high densities. Deep pellet particle deposition made possible the uncoupling of edge and core density, allowing more peaked density profiles. When confinement deterioration due to pellet triggered MHD activity or parasitic pellet borne gas was avoided in appropriate pulse schedules, an enhanced particle inventory was achieved while maintaining the plasma pressure profile. In a technical assessment it was found that there is still room for further enhancement of the injection scenario by improved adaptation to high density plasma operation.

Published

2002

40. Direct visualization of serine hydrolase activities in complex proteomes using fluorescent active site-directed probes

Author

Dan K. Giang, Lisa M. Stamp, Matthew P. Patricelli, and Jonathan J. Burbaum

Subjects

Activity-based proteomics, Active site, Serine hydrolase, Biology, Biochemistry, chemistry.chemical_compound, Biotin, chemistry, Hydrolase, Proteome, biology.protein, Human genome, Molecular Biology, Avidin

Abstract

The field of biochemistry is currently faced with the enormous challenge of assigning functional significance to more than thirty thousand predicted protein products encoded by the human genome. In order to accomplish this daunting task, methods will be required that facilitate the global analysis of proteins in complex biological systems. Recently, methods have been described for simultaneously monitoring the activity of multiple enzymes in crude proteomes based on their reactivity with tagged chemical probes. These activity based probes (ABPs) have used either radiochemical or biotin/avidin-based detection methods to allow consolidated visualization of numerous enzyme activities. Here we report the synthesis and evaluation of fluorescent activity based probes for the serine hydrolase super-family of enzymes. The fluorescent methods detailed herein provide superior throughput, sensitivity, and quantitative accuracy when compared to previously described ABPs, and provide a straight-forward platform for high-throughput proteome analysis.

Published

2001

41. R.D. Gidney. From Hope to Harris: The Reshaping of Ontario's Schools. Toronto: University of Toronto Press, 1999. Pp. 362

Author

Robert M. Stamp

Subjects

History, Media studies, Economic history

Published

2001

42. A photolabile ‘traceless’ linker for solid-phase organic synthesis

Author

James R. Horton, Anne Routledge, and Louise M Stamp

Subjects

chemistry.chemical_compound, Chemistry, Phase (matter), Organic Chemistry, Drug Discovery, Photodissociation, Organic synthesis, Cleavage (embryo), Biochemistry, Linker, Combinatorial chemistry

Abstract

A photolabile linker based on a thiohydroxamic acid has been shown to be an efficient ‘traceless’ linker, revealing an aliphatic CH bond on photolysis at 350 nm. Methods for the synthesis, loading and photolytic cleavage of the linker are described.

Published

2000

43. Anionic cyclizations of aromatic ester dithioacetals with facially biased α,β-unsaturated ketones

Author

Craig T. M. Stamp, Christopher F. Morrison, and D. Jean Burnell

Subjects

chemistry.chemical_compound, chemistry, Intramolecular force, Organic Chemistry, Drug Discovery, Intermolecular force, Organic chemistry, chemistry.chemical_element, Biochemistry, Medicinal chemistry, Oxygen, Dithiane, Dithiolane

Abstract

Cyclopent-2-enones bearing a plane-nonsymmetric oxygen function on C-4 reacted efficiently with anions derived from aromatic ester dithioacetals to provide annulated products in a highly diastereoselective fashion. Whereas the anion of a dimethoxy aromatic ester dithiolane more rapidly reacted by an alternative intramolecular pathway, the anion of the corresponding aromatic ester dithiane was suitable for the intermolecular cyclization.

Published

2009

44. Theodore Michael Christou, Progressive Education: Revisioning and Reframing Ontario's Public Schools, 1919-1942

Author

Robert M. Stamp

Subjects

Political science, Cognitive reframing, Public administration, Progressive education

Published

2013

45. EFD-C(13)01/10 Determination of Be Sputtering Yields from Spectroscopic Observations at the JET ILW based on 3D ERO Modelling

Author

D. Borodin, S. Brezinsek, J. Miettunen, M. Stamp, A. Kirschner, C. Björkas, M. Groth, S. Marsen, S. Lisgo, D. Matveev, M. Airila, V. Philipps, and JET EFDA contributors

Abstract

Estimations of the ITER first wall (FW) life time, previously made by the 3D Monte- Carlo ERO code, depend strongly on the assumptions of the physical sputtering yield for beryllium (Be). It is of importance to validate the respective model and data at existing devices including the JET ITER- Like Wall (ILW) as most ITER- relevant experiment. Applying the same sputtering input data in ERO as before in the ITER- predictions, the ERO simulations for the Be light intensity (up- to- date atomic data is used) near the solid Be limiter in the JET- ILW case reveal a factor 2 overestimation of the assumed yield even if the low estimate assuming 50% D surface content is used. This result indicates the preference of this assumption for plasma- wetted areas. It points to a possible (after eliminating of uncertainties) necessity to correct (reduce) the respective estimates for the Be sputtering yield and accordingly, re- visit the ITER FW life time predictions.

Published

2013

46. EFD-C(13)02/04 Overview of LH Experiments in JET with an ITER-Like Wall

Author

K.K. Kirov, Yu. Baranov, E. Barbato, M. Brix, G. Corrigan, A. Ekedahl, M. Goniche, J. Mailloux, V. Petrzilka, F. Rimini, M. Stamp, and JET EFDA contributors

Abstract

An overview of the recent results of Lower Hybrid (LH) experiments at JET with the ITER-like wall (ILW) is presented. Topics relevant to LH wave coupling are addressed as well as issues related to ILW and LH system protections. LH wave coupling was studied in conditions determined by ILW recycling and operational constraints. It was concluded that LH wave coupling was not significantly affected and the pre-ILW performance could be recovered after optimising the launcher position and local gas puffing. SOL density measurements were performed using a Li-beam diagnostic. Dependencies on the D2 injection rate from the dedicated gas valve, the LH power and the LH launcher position were analysed. SOL density modifications due to LH were modelled by the EDGE2D code assuming SOL heating by collisional dissipation of the LH wave and/or possible E¥B drifts in the SOL. The simulations matched reasonably well the measured SOL profiles. Observations of arcs and hotspots with visible and IR cameras viewing the LH launcher are presented.

Published

2013

47. EFD-C(13)03/09 Study of the Effect of the Outer-Strike Point Location on the Divertor Neutral Pressure in JET-ILW Using EDGE2D/EIRENE

Author

B. Viola, D. Frigione, P. Belo, M. Groth, M. Kempenaars, U. Kruezi, S. Marsen, M. Stamp, and JET EFDA contributors

Abstract

During the first year of the JET-ILW operation, a substantial effort was devoted to the L-mode domain characterization with the newly installed ITER-Like Wall (ILW), consisting of a W divertor and a Be main chamber. Main experimental results were reported in [1] [2]. This paper presents the results of modelling studies, carried out with EDGE2D/EIRENE code, of a couple of two similar aforementioned discharges to investigate on the the effects of divertor plasma configuration and proximity of the low-field side (LFS) strike-point with respect to the LFS pumping plenum when comparing the simulation results with the experimental data of two different divertor configurations at same upstream density. The analysis focuses on the observed differences in the sub-divertor neutral pressures in relation to the deuterium ion fluxes to the divertor plates.

Published

2013

48. EFD-C(13)03/11 Contrasting H-mode Behaviour with Fuelling and Nitrogen Seeding in the All-Carbon and Metallic Versions of JET

Author

G. Maddison, C. Giroud, M. Beurskens, S. Brezinsek, P. Devynck, T. Eich, L. Garzotti, S. Jachmich, A. Järvinen, C. Lowry, S. Marsen, K. McCormick, A. Meigs, F. Rimini, M. Stamp, M. Wischmeier, and JET EFDA contributors

Abstract

An all-metal ITER-Like Wall (JET-ILW), consisting of beryllium in the main chamber and tungsten surfaces in the divertor, has now been installed in JET to pursue low retention of fuel species and to explore the impact on next-step-relevant plasmas. Its implementation has offered a unique opportunity to compare behaviour with that in the previous all-Carbon lining (JET-C), notably for high-triangularity Type I H-modes with impurity seeding. This technique is recognised to be necessary for power handling both in ITER and in JET at full performance. Contrasting results are reported for closely-matched deuterium-fuelling plus nitrogen-seeding scans in each JET environment. Attention is focused upon neutral-beam-heated plasmas with total input power 15­17MW at 2.65T, 2.5MA, q95 3.5 , average triangularity d 0.4 , elongation k 1.7 and gas inputs spanning ranges 0.75 FD 3.3 , 0 FD 4.7 (1022 electrons / s assuming full ionisation). JET-C cases also included 1­2MW of central ion-cyclotron-resonance-frequency heating, so far absent from JET-ILW pulses, with possible consequences for respective core sawtooth and impurity-concentration results.

Published

2013

49. Deuterium Balmer/Stark spectroscopy and impurity profiles: first results from mirror-link divertor spectroscopy system on the JET ITER-like wall

Author

S. Brezinsek, M. Clever, A. Huber, S. Marsen, M. Stamp, Jet-Efda Contributors, K.-D. Zastrow, C. Nicholas, and A. G. Meigs

Subjects

Nuclear and High Energy Physics, Electron density, Jet (fluid), Divertor, Astrophysics::High Energy Astrophysical Phenomena, chemistry.chemical_element, Balmer series, FOS: Physical sciences, Tungsten, Physics - Plasma Physics, Plasma Physics (physics.plasm-ph), symbols.namesake, Nuclear Energy and Engineering, Stark effect, chemistry, Physics::Plasma Physics, symbols, Langmuir probe, General Materials Science, Atomic physics, Spectroscopy

Abstract

For the ITER-like wall, the JET mirror link divertor spectroscopy system was redesigned to fully cover the tungsten horizontal strike plate with faster time resolution and improved near-UV performance. Since the ITER-like wall project involves a change in JET from a carbon dominated machine to a beryllium and tungsten dominated machine with residual carbon, the aim of the system is to provide the recycling flux, equivalent, to the impinging deuterium ion flux, the impurity fluxes (C, Be, O) and tungsten sputtering fluxes and hence give information on the tungsten divertor source. In order to do this self-consistently, the system also needs to provide plasma characterization through the deuterium Balmer spectra measurements of electron density and temperature during high density. L-Mode results at the density limit from Stark broadening/line ratio analysis will be presented and compared to Langmuir probe profiles and 2D-tomography of low-n Balmer emission [1]. Comparison with other diagnostics will be vital for modelling attempts with the EDGE2D-EIRENE code[2] as the best possible data sets need to be provided to study detachment behaviour., Comment: 18 pages, 11 figures

Published

2013

50. Impact of the ITER-like wall on divertor detachment and on the density limit in the JET tokamak

Author

G.F. Matthews, S. Brezinsek, M. Stamp, Petra Bilkova, M. Groth, G. Arnoux, M. Clever, V. Philipps, G.J. van Rooij, G. Sergienko, M. Wischmeier, Juergen Rapp, S. Wiesen, M.N.A. Beurskens, K. McCormick, Ph. Mertens, P. de Vries, T. Eich, U. Samm, J.W. Coenen, A. Boboc, E. Lerche, G. Calabrò, S. Jachmich, A. Huber, Jet-Efda Contributors, S. Marsen, M. Lehnen, V. Riccardo, A. Meigs, and Calabro, G.

Subjects

Nuclear and High Energy Physics, Jet (fluid), Range (particle radiation), Tokamak, Chemistry, Divertor, Plasma, Radiation, law.invention, Nuclear Energy and Engineering, law, General Materials Science, Limit (mathematics), Atomic physics, Beam (structure)

Abstract

L-mode and H-mode density limits with the ITER-like wall (ILW) have been investigated in the recent experimental campaign and compared with experiments in the JET carbon material configuration. The density limit is up to 40% higher in the JET-ILW than in the JET-CFC machine. This is linked to the formerly higher radiation fraction and, correspondingly, to earlier divertor detachment in the JET-CFC. In the ILW configuration, the discharge demonstrates a stable operation with a completely detached outer divertor in L- and H-mode. In contrary to the well-known "heating power independent" Greenwald limit, the L-mode densities limit increases moderately with rising heating power (∼ P0.4 heat) independently of the wall material. The H-L transition constitutes an effective undisruptive density limit for an H-mode plasma. Detachment itself does not trigger the H-L back transition and does not present a limit on plasma density. In the range of neutral beam heating 8-10.5 MW, no dependence of the H-mode density limit on the heating power was observed. © 2013 Euratom. Published by Elsevier B.V. All rights reserved.

Published

2013