| 1. |
- De Temmerman, Gregory, et al.
(författare)
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Data on erosion and hydrogen fuel retention in Beryllium plasma-facing materials
- 2021
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Ingår i: Nuclear Materials and Energy. - : Elsevier BV. - 2352-1791. ; 27
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Tidskriftsartikel (refereegranskat)abstract
- ITER will use beryllium as a plasma-facing material in the main chamber, covering a total surface area of about 620 m(2). Given the importance of beryllium erosion and co-deposition for tritium retention in ITER, significant efforts have been made to understand the behaviour of beryllium under fusion-relevant conditions with high particle and heat loads. This paper provides a comprehensive report on the state of knowledge of beryllium behaviour under fusion-relevant conditions: the erosion mechanisms and their consequences, beryllium migration in JET, fuel retention and dust generation. The paper reviews basic laboratory studies, advanced computer simulations and experience from laboratory plasma experiments in linear simulators of plasma-wall interactions and in controlled fusion devices using beryllium plasma-facing components. A critical assessment of analytical methods and simulation codes used in beryllium studies is given. The overall objective is to review the existing set of data with a broad literature survey and to identify gaps and research needs to broaden the database for ITER.
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| 2. |
- Steinmüller-Nethl, Doris, et al.
(författare)
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Strong binding of bioactive BMP-2 to nanocrystalline diamond by physisorption
- 2006
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Ingår i: Biomaterials. - : Elsevier BV. - 0142-9612. ; 27, s. 4547-4556
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Tidskriftsartikel (refereegranskat)abstract
- Nano-crystalline diamond (NCD)-coated surfaces were efficiently functionalized with bone morphogenetic protein-2 (BMP-2) by means of physisorption. Due to their randomly oriented texture, NCD-coated surfaces appear to bind complex molecules firmly. Applying various highly sensitive analytical methods, the interaction was found extremely stable. The strength of the experimentally measured adherence between BMP-2 and NCD was further corroborated by theoretical calculations. Oxygen treatment rendered NCD hydrophilic by the appearance of surface oxygen containing groups. This particular NCD surface exhibited even higher binding energies towards BMP-2 than the hydrophobic surface, and this surface was also favoured by cultured cells. Most importantly in this context, bound BMP-2 was found fully active. When cultured on BMP-2-treated NCD, osteosarcoma cells strongly up-regulated alkaline phosphatase, a specific marker for osteogenic differentiation. Hence, this simple method will allow generating highly versatile surfaces with complex biomimetic coatings, essentials for novel medical devices and implants as well as for innovative scaffolds in tissue engineering.
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| 4. |
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| 5. |
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| 6. |
- Huber, Alexander, et al.
(författare)
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Response of the imaging cameras to hard radiation during JET operation
- 2017
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Ingår i: Fusion engineering and design. - : ELSEVIER SCIENCE SA. - 0920-3796 .- 1873-7196. ; 123, s. 669-673
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Tidskriftsartikel (refereegranskat)abstract
- The analysis of the radiation damage of imaging systems is based on all different types-of aiialoiue/digital cameras with uncooled as well as actively cooled image sensors in the VIS/NIR/MWIR spectral ranges. The Monte Carlo N-Particle (MCNP) code has been used to determine the neutron fluence at different camera locations in JET. An explicit link between the sensor damage and the neutron fluence has been observed. Sensors show an increased dark-current and increased numbers of hot-pixels. Uncooled cameras must be replaced once per year after exposure to a neutron fluence of similar to 1.9-3.2 x 10(12)neutrons/cm(2). Such levels of fluence will be reached after approximate to 14-22 ELMy H-mode pulses during the future D-T campaign. Furthermore, dynamical noise seen as a random pattern of bright pixels was observed in the presence of hard radiation (neutrons and gammas). Failure of the digital electronics inside the cameras as well as of industrial controllers is observed beyond a neutron fluence of about similar to 4 x 10(9) neutrons/cm(2). The impact of hard radiation on the different types of electronics and possible application of cameras during future D-T campaign is discussed.
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| 7. |
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| 8. |
- Kirschner, Andreas, et al.
(författare)
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Modelling of deposition and erosion of injected WF6 and MoF6 in TEXTOR
- 2016
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Ingår i: Nuclear Materials and Energy. - : Elsevier. - 2352-1791.
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Tidskriftsartikel (refereegranskat)abstract
- Tracer injection experiments in TEXTOR with MoF 6 and WF 6 lead to local deposition of about 6% for Mo and about 1% for W relative to the injected amount of Mo and W atoms. Modelling of these experiments has been done with ERO applying updated data for physical sputtering. The dissociation of the injected molecules has been treated in a simplified manner due to the lack of dissociation rate coefficients. How- ever, with this it was possible to reproduce the observed radial penetration of Mo and W atoms into the plasma. The modelled local deposition efficiencies are about 50% for Mo and 60% for W assuming typical plasma parameters for the experimental conditions used. To reproduce the measured deposition efficien- cies an enhancement factor for the erosion of deposited Mo and W has to be assumed ( ∼10 for Mo and ∼25 for W). Due to the rather low electron temperature T e of these plasma conditions (T e ∼15 eV at the location of injection), Mo and W are mostly sputtered by impurities whereas sputtering due to deuterium is negligible. A parameter study applying larger electron temperature leads to increased sputtering and thus to reduced local deposition efficiencies of about 30% for Mo and 5% for W. Though, even under these conditions enhanced erosion, albeit with reduced enhancement factors, is needed in the modelling to obtain the small measured deposition efficiencies.
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| 9. |
- Moon, Sunwoo, et al.
(författare)
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Characterization of neutral particle fluxes from ICWC and ECWC plasmas in the TOMAS facility
- 2021
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Ingår i: Physica Scripta. - : IOP PUBLISHING LTD. - 0031-8949 .- 1402-4896. ; 96:12
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Tidskriftsartikel (refereegranskat)abstract
- Electron- (ECWC) and ion- (ICWC) cyclotron wall conditioning are essential means for controlled fusion to modify the surface state of plasma-facing components in order to reduce impurity generation and fuel accumulation in the wall. Development of ECWC and ICWC requires characterization of neutral particle fluxes generated in discharges, because neutrals enhance the homogeneity of the conditioning, which may contribute to remote or shadowed areas, especially in the presence of a permanent magnetic field (e.g. W7-X, ITER). A time-of-flight neutral particle analyzer (ToF-NPA) with 4.07 m flight distance is employed to measure time- and energy-resolved low energetic (<1 keV) neutral particle distributions. The ToF-NPA setup tested at the EXTRAP T2R reversed field pinch was installed at the TOMAS toroidal plasma facility to determine low energy neutral particle fluxes while investigating the impact of the gas pressure in the instrument and compatibility with low count rates during EC- and ICWC discharges. TOMAS has a major radius of 0.78 m and provides various plasma operation conditions: toroidal magnetic field up to 0.12 T, EC frequency 2.45 GHz with the power of 0.6-6 kW, IC frequency of 10-50 MHz with the power of up to 6 kW. Early results on the characterization of three phases (EC only, EC + IC, and IC only) of hydrogen discharges demonstrate: (i) the low energy (10-725 eV) neutrals distribution has been determined by the NPA system, (ii) the mixed EC + IC phase produces the highest population of neutral particles, while the EC only provides one order of magnitude lower rate, (iii) the neutrals produced in IC only have higher average energy (28 eV) than EC only (7 eV) and EC + IC (16 eV).
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| 10. |
- Shams-Latifi, Jila, 1992-
(författare)
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Interactions of low-energy ions with plasma-facing materials : Fundamental and applied aspects
- 2024
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Materials in ultimate proximity of a burning plasma in controlled thermonuclear fusion devices, referred to as plasma-facing materials (PFMs), are exposed to a high flux of impinging particles and extreme conditions such as high thermal loads. In consequence, these materials are modified in manifold ways due to interactions with energetic plasma species. In this thesis, the potential of time-of-flight low-energy ion scattering (ToF-LEIS) for fundamental and applied studies relevant to improving our understanding of plasma-materials interactions was explored. ToF-LEIS is a non-destructive method to study the near-surface composition of materials providing high depth resolution and surface sensitivity. The investigated materials are tungsten and EUROFER97, both as bulks and in the form of different thin film stacks. W is proposed for the first wall of ITER, as well as for the divertor and coating for the first wall of DEMO. EUROFER97 is a reduced activation steel to be used as a structural material for the ITER test blanket and the first wall of DEMO's blanket.In the first part of this thesis, the potential of low-energy ions for quantitative composition depth profiling of near-surface modifications in PFMs induced by thermal loads was explored. Specifically, ToF-LEIS in combination with Auger electron spectroscopy was employed to study the influence of elevated temperatures on the near-surface composition of EUROFER97. The results demonstrated and quantified thermally induced segregation of W, Cr and S to the first nm of EUROFER97 under thermal loads. In the second part, this thesis focused on developing sample systems and measurement routines for assessing electronic interactions of low-energy ions with common PFMs. Developed samples were employed to experimentally deduce the electronic stopping power of W and EUROFER97 using ToF-LEIS and Monte-Carlo simulations for low-energy H, D and He ions, in the range of 0.3 – 10 keV for W and 3 – 10 keV for EUROFER97. Obtained comprehensive datasets represent the first experimental data of the electronic stopping power of W and EUROFER97 at low energies for the employed ions representing dominating plasma species. Results were compared to theoretical and semiempirical models and are essential inputs for modelling particle range or sputter yields.
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