Your search keyword '"Andersson Sundén, Erik"' showing total 878 results

1. A Nuclear Data Evaluation Pipeline for the Fast Neutron Energy Range – using heteroscedastic Gaussian processes to treat model defects

Author

Göök Alf, Andersson-Sundén Erik, Hansson Joachim, and Sjöstrand Henrik

Subjects

Physics, QC1-999

Abstract

In this paper, we discuss the development of a nuclear data evaluation pipeline, based around the TALYS code system. The pipeline focuses on the evaluation of the fast neutron energy range, above the resolved resonances. A strong focus in development lies on automation and reproducibility, as well as the efficient use of large-scale computational infrastructure, to enable rapid testing of new algorithms and modified assumptions. Several novel concepts for nuclear data evaluation methodology are implemented. A particular problem in evaluating the neutron-induced reaction cross-section using TALYS, relates to the intermediate energy range. While TALYS only predicts the smooth energy-averaged cross-section, experiments reveal unresolved resonance-like structures. In this paper, we explore ways to treat this type of model defect using heteroscedastic Gaussian processes to automatically determine the distribution of experimental data around an energy-averaged cross-section curve.

Published

2024

2. Evaluation of nuclear data using the Half Monte Carlo technique

Author

Andersson-Sundén Erik, Axén Tyra, Diös Olle, Göök Alf, Lindström Viktor, Sjöstrand Henrik, and Wohlin Axel

Subjects

Physics, QC1-999

Abstract

The Total Monte Carlo (TMC) technique has proven to be a powerful tool to propagate uncertainties in nuclear data to the uncertainty in macroscopic quantities, such as neutron fluxes at detector positions and the criticality of reactor cores. Nuclear data uncertainties can be used to create self-consistent sets of cross-sections. Each set contains files generated by variations of nuclear model parameters to properly fit the model to the nuclear data, accounting for their uncertainty. These files are called random files. The random files reflect the covariances of the nuclear data due to the uncertainties of the nuclear physics model parameters. TMC uses particle transport codes, such as MCNP, to transport particles through arbitrarily complex geometries. Each set of random files is used in a separate transport code run. This allows for the propagation of uncertainties in nuclear data, which otherwise could be hard to account for in the transport codes. However, particle transport techniques are well-known to be computationally expensive. The Half Monte Carlo (HMC) technique uses the random files of the TMC technique but does not rely on transport codes to propagate the uncertainties of nuclear data to the uncertainty of the sought macroscopic quantity. Instead, it uses pre-calculated sensitivity matrices to calculate the difference in a macroscopic quantity, given the difference of the random files relative to the best estimate of the nuclear data evaluation. In this work, we demonstrate how to use the HMC technique to calculate the uncertainty of macroscopic quantities in integral experiments for a set of random files relative to the best nuclear data evaluation. In this paper, we demonstrate how HMC can be used to incorporate integral experiments into an automated nuclear data evaluation. After applying the Bayesian Monte Carlo method in conjunction with the HMC technique and random files of uranium-235 from the TENDL library on the Godiva experiment, we conclude that the HMC technique gives similar results to that of the TMC technique: the mean value and the standard deviation of ∆keff is -6.30 pcm and 1220 pcm, respectively.

Published

2024

3. Geometrical optimisation of a segmented HPGe detector for spectroscopic gamma emission tomography—A simulation study

Author

Rathore, Vikram, Senis, Lorenzo, Andersson Sundén, Erik, Jansson, Peter, Håkansson, Ane, and Andersson, Peter

Published

2021

4. Designing an upgrade of the Medley setup for light-ion production and fission cross-section measurements

Author

Jansson, Kaj, Gustavsson, Cecilia, Al-Adili, Ali, Hjalmarsson, Anders, Andersson-Sundén, Erik, Prokofiev, Alexander V., Tarrío, Diego, and Pomp, Stephan

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

Measurements of neutron-induced fission cross sections and light-ion production are planned in the energy range 1-40 MeV at the upcoming Neutrons For Science (NFS) facility. In order to prepare our detector setup for the neutron beam with continuous energy spectrum, a simulation software was written using the Geant4 toolkit for both measurement situations. The neutron energy range around 20 MeV is troublesome when it comes to the cross sections used by Geant4 since data-driven cross sections are only available below 20 MeV but not above, where they are based on semi-empirical models. Several customisations were made to the standard classes in Geant4 in order to produce consistent results over the whole simulated energy range. Expected uncertainties are reported for both types of measurements. The simulations have shown that a simultaneous precision measurement of the three standard cross sections H(n,n), $^{235}$U(n,f) and $^{238}$U(n,f) relative to each other is feasible using a triple layered target. As high resolution timing detectors for fission fragments we plan to use Parallel Plate Avalanche Counters (PPACs). The simulation results have put some restrictions on the design of these detectors as well as on the target design. This study suggests a fissile target no thicker than 2 micrometers (1.7 mg/cm$^2$) and a PPAC foil thickness preferably less than 1 micrometer. We also comment on the usability of Geant4 for simulation studies of neutron reactions in this energy range., Comment: 11 pages, 8 figures

Published

2015

5. GeCo : A gamma-ray spectroscopy system for evaluation of coincidence methods in radionuclide monitoring

Author

Andersson Sundén, Erik, Gustavsson, Cecilia, Göök, Alf, Ivarsson Biebel, Ellen, Jansson, Peter, Jarl Holm, Stefan, Söderström, Catharina, Wallentin, Rasmus, Andersson, Peter, Andersson Sundén, Erik, Gustavsson, Cecilia, Göök, Alf, Ivarsson Biebel, Ellen, Jansson, Peter, Jarl Holm, Stefan, Söderström, Catharina, Wallentin, Rasmus, and Andersson, Peter

Abstract

Radionuclide monitoring is a proven means of non-intrusive verification of the nuclear test ban treaty. In addition to that, the potential use of radionuclide monitoring spans beyond the detection of nuclear test explosions, since radionuclides can also be released and detected from operations of nuclear fuel cycle facilities, such as the reactor operation and nuclear reprocessing of plutonium production. In this work, we consider the use of coincidence and anticoincidence techniques as a means to increase the sensitivity in radionuclide monitoring, in terms of improved minimum detectable amount for radionuclides of interest to filter stations used in radionuclide monitoring. In particular, a multi-detector setup is currently being prepared for the evaluation of the technique, and to provide validation data for a coincidence detector simulation codes. In this presentation, we will describe the multi-detector setup assembled for enabling the evaluation of various types of spectrometry, including 1) gamma-gamma coincidence (from dual detectors and up to five High Purity Germanium (HPGe) detectors), 2) anticoincidence using BGO active shield with single HPGe detector, as well as use of multiple detectors in add-back mode, i.e. simply using the combined detector volume for increased efficiency of single gamma rays. We will present the results of measurements of a calibration sample, and provide a discussion on the advantages and disadvantages of the tested techniques in the context of radionuclide monitoring.

Published

2024

6. The impact of climate change on radiocesium mobility

Author

Barker, Abigail, Jakabová, Vanda, Nilsson, Emma, Andersson Sundén, Erik, Gustavsson, Cecilia, Lantz, Mattias, Paatero, Jussi, Salminen-Paatero, Susanna, Barker, Abigail, Jakabová, Vanda, Nilsson, Emma, Andersson Sundén, Erik, Gustavsson, Cecilia, Lantz, Mattias, Paatero, Jussi, and Salminen-Paatero, Susanna

Abstract

We investigate variations in 137Cs activities, temperature and rainfall with time and predict how climate change will interact with existing 137Cs anomalies. We focus on several case-studies affected by distal fallout from Chernobyl; the Kymijoki watershed in Finland, Gävle in Sweden and Bavaria in Southeast Germany. In addition, we investigate 137Cs activities in Japan as a contrasting location proximal to the Fukushima nuclear power plant that was damaged during the tsunami in 2011. In Europe we find that 137Cs anomalies show up in moose, mushrooms and ground radiation levels in specific years that differ from place to place. There is little indication of direct relationships between weather conditions and 137Cs anomalies. However, environmental processes play critical roles in radionuclide behavior and may themselves be influenced by weather conditions and furthermore by changing climate. Erosion likely remobilizes subsurface 137Cs and transports it downstream where it may be deposited. Erosion is driven by heavy rainfall, snowmelt, and daily variations in temperature that alternatively freeze and thaw the ground. These insights have helped us interpret signs of erosion and deposition of soil contaminated with 137Cs in our case-study areas. Future variations in temperature, precipitation and extreme weather events will likely increase the occurrence of erosion and hence the redistribution of 137Cs in the environment. We have identified several areas sensitive to accumulation of and hence contamination by 137Cs in Europe. In most places the levels of 137Cs accumulation are rarely hazardous, however we recommend that local authorities assess the risks of new construction sites, agricultural practices and free-time activities such as hunting game and gathering mushrooms in areas that are sensitive to 137Cs accumulation.

Published

2024

7. Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO

Author

Joffrin, E., Andersson Sundén, Erik, Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Jacob, Eriksson, Benjamin, Hägg, Linus, Hjalmarsson, Anders, Zychor, I, Joffrin, E., Andersson Sundén, Erik, Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Jacob, Eriksson, Benjamin, Hägg, Linus, Hjalmarsson, Anders, and Zychor, I

Abstract

Within the 9th European Framework programme, since 2021 EUROfusion is operating five tokamaks under the auspices of a single Task Force called 'Tokamak Exploitation'. The goal is to benefit from the complementary capabilities of each machine in a coordinated way and help in developing a scientific output scalable to future largre machines. The programme of this Task Force ensures that ASDEX Upgrade, MAST-U, TCV, WEST and JET (since 2022) work together to achieve the objectives of Missions 1 and 2 of the EUROfusion Roadmap: i) demonstrate plasma scenarios that increase the success margin of ITER and satisfy the requirements of DEMO and, ii) demonstrate an integrated approach that can handle the large power leaving ITER and DEMO plasmas. The Tokamak Exploitation task force has therefore organized experiments on these two missions with the goal to strengthen the physics and operational basis for the ITER baseline scenario and for exploiting the recent plasma exhaust enhancements in all four devices (PEX: Plasma EXhaust) for exploring the solution for handling heat and particle exhaust in ITER and develop the conceptual solutions for DEMO. The ITER Baseline scenario has been developed in a similar way in ASDEX Upgrade, TCV and JET. Key risks for ITER such as disruptions and run-aways have been also investigated in TCV, ASDEX Upgrade and JET. Experiments have explored successfully different divertor configurations (standard, super-X, snowflakes) in MAST-U and TCV and studied tungsten melting in WEST and ASDEX Upgrade. The input from the smaller devices to JET has also been proven successful to set-up novel control schemes on disruption avoidance and detachment., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ad2be4

Published

2024

8. Overview of T and D-T results in JET with ITER-like wall

Author

Maggi, C. F., Andersson Sundén, Erik, Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Benjamin, Eriksson, Jacob, Hägg, Linus, Hjalmarsson, Anders, Primetzhofer, Daniel, Sahlberg, A., Sjöstrand, Henrik, Weiszflog, Matthias, Zychor, I., Maggi, C. F., Andersson Sundén, Erik, Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Benjamin, Eriksson, Jacob, Hägg, Linus, Hjalmarsson, Anders, Primetzhofer, Daniel, Sahlberg, A., Sjöstrand, Henrik, Weiszflog, Matthias, and Zychor, I.

Abstract

In 2021 JET exploited its unique capabilities to operate with T and D-T fuel with an ITER-like Be/W wall (JET-ILW). This second major JET D-T campaign (DTE2), after DTE1 in 1997, represented the culmination of a series of JET enhancements-new fusion diagnostics, new T injection capabilities, refurbishment of the T plant, increased auxiliary heating, in-vessel calibration of 14 MeV neutron yield monitors-as well as significant advances in plasma theory and modelling in the fusion community. DTE2 was complemented by a sequence of isotope physics campaigns encompassing operation in pure tritium at high T-NBI power. Carefully conducted for safe operation with tritium, the new T and D-T experiments used 1 kg of T (vs 100 g in DTE1), yielding the most fusion reactor relevant D-T plasmas to date and expanding our understanding of isotopes and D-T mixture physics. Furthermore, since the JET T and DTE2 campaigns occurred almost 25 years after the last major D-T tokamak experiment, it was also a strategic goal of the European fusion programme to refresh operational experience of a nuclear tokamak to prepare staff for ITER operation. The key physics results of the JET T and DTE2 experiments, carried out within the EUROfusion JET1 work package, are reported in this paper. Progress in the technological exploitation of JET D-T operations, development and validation of nuclear codes, neutronic tools and techniques for ITER operations carried out by EUROfusion (started within the Horizon 2020 Framework Programme and continuing under the Horizon Europe FP) are reported in (Litaudon et al Nucl. Fusion accepted), while JET experience on T and D-T operations is presented in (King et al Nucl. Fusion submitted)., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ad3e16

Published

2024

9. First experimental demonstration of the use of a novel planar segmented HPGe detector for gamma emission tomography of mockup fuel rods

Author

Rathore, Vikram, Senis, Lorenzo, Jarl Holm, Stefan, Andersson Sundén, Erik, Håkansson, Ane, Laassiri, Mounia, Dendooven, Peter, Andersson, Peter, Rathore, Vikram, Senis, Lorenzo, Jarl Holm, Stefan, Andersson Sundén, Erik, Håkansson, Ane, Laassiri, Mounia, Dendooven, Peter, and Andersson, Peter

Abstract

Postirradiation examination of nuclear fuel is routinely performed to characterize the important properties of current and future fuel. Gamma emission tomography is a proven noninvasive technique for this purpose. Among various measurement elements of the technique, a gamma-ray detector is an important element whose spectroscopic abilities and detection efficiency affect the overall results. Finding a combination of high detection efficiency and excellent energy resolution in a single detector is often a challenge. We have designed a novel planar segmented high-purity germanium detector that offers simultaneous measurement in six lines of sight with excellent energy resolution. The simultaneous detection ability enables faster data acquisition in a tomographic measurement, which may facilitate achieving higher spatial resolution. In this work, we have demonstrated the first use of the detector by performing a full tomographic measurement of mockup fuel rods. Two methods of detector data analysis were used to make spectra, and the images (tomograms) were reconstructed using the filtered back projection algorithm. The reconstructed images validate the successful use of the detector for tomographic measurement. The use of the detector for real fuel measurement is being planned and will be performed in the near future.

Published

2024

10. Kinematic background discrimination methods using a fully digital data acquisition system for TOFOR

Author

Skiba, Mateusz, Ericsson, Göran, Hjalmarsson, Anders, Hellesen, Carl, Conroy, Sean, Andersson-Sundén, Erik, Eriksson, Jacob, and JET Contributors

Published

2016

11. A prototype fully digital data acquisition system upgrade for the TOFOR neutron spectrometer at JET

Author

Skiba, Mateusz, Ericsson, Göran, Hjalmarsson, Anders, Hellesen, Carl, Conroy, Sean, Andersson-Sundén, Erik, Eriksson, Jacob, and JET Contributors

Published

2016

12. Simulation of the response of a segmented high-purity germanium detector for gamma emission tomography of nuclear fuel

Author

Andersson, Peter, Rathore, Vikram, Senis, Lorenzo, Anastasiadis, Anastasios, Andersson Sundén, Erik, Atak, Haluk, Holcombe, Scott, Håkansson, Ane, Jansson, Peter, and Nyberg, Johan

Published

2020

13. Integral adjustment and fine structure treatment for fusion evaluations

Author

Sjöstrand, Henrik, Göök, Alf, Andersson Sundén, Erik, Sjöstrand, Henrik, Göök, Alf, and Andersson Sundén, Erik

Published

2023

14. Multi-parameter Optimization of Gamma Emission Tomography Instruments for Irradiated Nuclear Fuel Examination

Author

Senis, Lorenzo, Rathore, Vikram, Andersson Sundén, Erik, Elter, Zsolt, Trombetta, Débora Montano, Håkansson, Ane, Andersson, Peter, Senis, Lorenzo, Rathore, Vikram, Andersson Sundén, Erik, Elter, Zsolt, Trombetta, Débora Montano, Håkansson, Ane, and Andersson, Peter

Abstract

Material test reactors have an extended use in irradiation testing of novel nuclear fuel materials and the fuel behavior in off-normal conditions. The performance of the nuclear fuel is examined in in-pile and out-of-pile post-irradiation examinations (PIEs), e.g., using Gamma Emission Tomography (GET). GET is a nondestructive assay that images the internal spatial distribution of gamma-emitting nuclides built up in the fuel due to irradiation. Since GET can be performed close to the reactor and without intrusion in the fuel object, it can potentially speed up the data generation from PIE in irradiation testing. The performance metrics of GET devices can be identified regarding time requirements, noise in the reconstructed image, signal-to-background ratio, and spatial resolution. However, these are complicated to determine, partly due to inherent trade-offs between the metrics themselves, partly because they depend on the fuel activity and its spectrum (i.e., object dependent), and, finally, on the GET setup and its configuration. This work proposes a structured methodology for optimizing the collimator design for a new generation of GET tomography setups, intending to improve spatial resolution by one order of magnitude: from the millimeter scale to the hundred-micron scale. The conflicting performance metrics are determined based on the controllable parameters of the GET setup and the uncontrollable parameters of an anticipated fuel object, able to provide a signal-to-background ratio above 100. The trade-off between the performance remaining metrics is then visualized by a Pareto approach, where dominated solutions are rejected. Finally, constraints on noise level and measurement time are used to find the optimal spatial resolution. Two GET setups are presented using the outlined method. Firstly, to upgrade the tomography test bench BETTAN at Uppsala University, a new segmented HPGe detector was planned to be tested using low-activity fuel rod mock-ups. Second

Published

2023

15. Estimating the neutron yield in a deuterium plasma with the JET neutron camera

Author

Hägg, Linus, Binda, Federico, Conroy, Sean, Ericsson, Göran, Ghani, Zamir, Giacomelli, Luca, Marocco, Daniele, Milocco, Alberto, Riva, Marco, Andersson Sundén, Erik, Hägg, Linus, Binda, Federico, Conroy, Sean, Ericsson, Göran, Ghani, Zamir, Giacomelli, Luca, Marocco, Daniele, Milocco, Alberto, Riva, Marco, and Andersson Sundén, Erik

Abstract

The JET neutron camera is a well-established detector system at JET, which has 19 sightlines each equipped with a liquid scintillator. The system measures a 2D profile of the neutron emission from the plasma. A first principle physics method is used to estimate the DD neutron yield that is based on JET neutron camera measurements and is independent of other neutron measurements. This paper details the data reduction techniques, models of the neutron camera, simulations of neutron transport, and detector responses used to this end. The estimate uses a simple parameterized model of the neutron emission profile. The method makes use of the JET neutron camera’s upgraded data acquisition system. It also accounts for neutron scattering near the detectors and transmission through the collimator. These components together contribute to 9% of the detected neutron rate above a 0.5 MeVee energy threshold. Despite the simplicity of the neutron emission profile model, the DD neutron yield estimate falls on average within 10% agreement with a corresponding estimate from the JET fission chambers. The method can be improved by considering more advanced neutron emission profiles. It can also be expanded to estimate the DT neutron yield with the same methodology.

Published

2023

16. Modifying the hydrological model SWAT+ to include 137Cs dynamic processes

Author

Nilsson, Emma, primary, Kim, Minjeong, additional, Jakabová, Vanda, additional, Andersson Sundén, Erik, additional, Lantz, Mattias, additional, Gustavsson, Cecilia, additional, Salminen-Paatero, Susanna, additional, Paatero, Jussi, additional, and Barker, Abigail, additional

Published

2023

17. Radiocesium traces the impact of climate on erosion in Sweden

Author

Jakabová, Vanda, primary, Lantz, Mattias, additional, Nilsson, Emma, additional, Andersson Sundén, Erik, additional, Salminen-Paatero, Susanna, additional, Gustavsson, Cecilia, additional, and Barker, Abigail, additional

Published

2023

18. The impact of neutron emission on correlated fission data from the 2E-2v method

Author

Jansson, Kaj, Al-Adili, Ali, Andersson Sundén, Erik, Göök, Alf, Oberstedt, Stephan, and Pomp, Stephan

Published

2018

19. Gamma spectroscopy methodology for large amounts of environmental samples in Sweden 30 years after the Chernobyl accident

Author

Lantz Mattias, Andersson-Sundén Erik, Andersson Peter, Barker Abigail, Gustavsson Cecilia, Hjalmarsson Anders, Jacewicz Marek, Lundén Karl, Marciniewski Pawel, Pomp Stephan, Rathore Vikram, and Ziemann Volker

Subjects

Physics, QC1-999

Abstract

In a Swedish citizen science project, more than 200 elementary school classes participated in collecting fungi, soil samples, and droppings from deer and wild boar, from all over Sweden. The samples have been sent to a laboratory at Uppsala University where they are being analyzed through gamma spectroscopy with a shielded HPGe detector. The main objective is to scan the samples for 137Cs from the Chernobyl accident and compare the data with measurements from 1986, but uptake of naturally occuring radionuclides like 40K and radon daughters will also be determined. Together with the soil samples, transfer factors will be derived, and correlations for these factors will be sought for different species of fungi and soil types. The potential for correlating the results with different biological processes will also be investigated, in part through the collected animal droppings. This is a work in progress where the present status of the experimental setup and methodology are presented. Issues with the initial approach for corrections are discussed and preliminary results are presented.

Published

2020

20. Citizen science in radiation research

Author

Gustavsson Cecilia, Andersson-Sundén Erik, Barker Abigail, Hjalmarsson Anders, Lantz Mattias, Lundén Karl, and Pomp Stephan

Subjects

Physics, QC1-999

Abstract

A growing trend in science is that research institutions reach out to members of the public for participating in research. The reasons for outreach are many, spanning from the desire to collect and/or analyse large sets of data efficiently, to the idea of including the general public on a very fundamental level in science-making and ultimately decision-making. The presented project is curriculum-based and carried out in 240 lower secondary school classes (pupils of age 13-16). The task, as designed by the participating universities, is to collect mushrooms, soil and animal droppings from different parts of Sweden, do preliminary sample preparation and analyses and send the samples to the university institutions for radioactivity measurement. Behind the project is a desire to compare today’s levels of 137Cs with those deposited right after the Chernobyl accident in 1986, but also to study the exchange of caesium between organisms as well as the impacts of biological and geological processes on uptake and retention. The scientific outcome is a geodatabase with the 137Cs activity (Bq/m2) present in the Swedish environment, where radioactivity data can be linked to the species (fungi, competing species, animals foraging), forest type, land type, land use and other environmental factors. The science question is of interest to the general public as foraging for mushrooms, as well as spending recreational time in forests is widely popular in Sweden. In this article, we will discuss the current status of the project and the observations we have made about how well the public can participate in scientific research. Focus will be on organization of the project, such as logistics, preparation of supportive material, feedback and communication between researchers and schools. We will present observations about the impact the project has had on the participants, based on quantitative and qualitative evaluations.

Published

2020

21. Overview of JET results for optimising ITER operation

Author

Mailloux, J., Andersson Sundén, Erik, Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Benjamin, Eriksson, Jacob, Hägg, Linus, Hjalmarsson, Anders, Primetzhofer, Daniel, Sahlberg, Arne, Sjöstrand, Henrik, Weiszflog, Matthias, Zychor, I., Mailloux, J., Andersson Sundén, Erik, Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Benjamin, Eriksson, Jacob, Hägg, Linus, Hjalmarsson, Anders, Primetzhofer, Daniel, Sahlberg, Arne, Sjöstrand, Henrik, Weiszflog, Matthias, and Zychor, I.

Abstract

For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ac47b4

Published

2022

22. Coincidence spectroscopy for increased sensitivity in radionuclide monitoring

Author

Andersson, Peter, Göök, Alf, Rathore, Vikram, Andersson Sundén, Erik, Branger, Erik, Grape, Sophie, Gustavsson, Cecilia, Mishra, Vaibhav, Preston, Markus, Khotiaintseva, Olena, Khotiaintsev, Volodymyr, Kastlander, Johan, Ringbom, Anders, Andersson, Peter, Göök, Alf, Rathore, Vikram, Andersson Sundén, Erik, Branger, Erik, Grape, Sophie, Gustavsson, Cecilia, Mishra, Vaibhav, Preston, Markus, Khotiaintseva, Olena, Khotiaintsev, Volodymyr, Kastlander, Johan, and Ringbom, Anders

Abstract

The majority of the energy in a nuclear explosion is released in the immediate blast and the initial radiation accounts. The remaining fraction is released through radioactive decay of the explosion's fission products and neutron activation products over a longer time span. This allows for the detection of a nuclear explosion by detecting the presence of residual decay. Radionuclide monitoring stations for detection of radioactive emissions to the atmosphere is thereby an important tool in the verification of compliance with nuclear disarmament treaties. In particular, the globally spanning radionuclide station network of the International Monitoring System (IMS) has been implemented for verification of the Comprehensive Nuclear-Test-Ban Treaty. High Purity Germanium (HPGe) detectors are workhorses in radionuclide monitoring. The detection of characteristic gamma rays can be used to disclose the presence of signature nuclides produced innuclear weapon tests. A particular development that has potential to improve the sensitivity of radionuclide monitoring is the coincidence technique where decaying nuclides that emit several coincident gamma rays can be detected at much smaller activity concentrations than with conventional gamma spectroscopy. In this project, dedicated gamma-gamma coincidence detectors are being developed, utilizing electronically segmented HPGe detectors. These detectors are expected to be highly sensitive to low-activity samples of nuclides that present coincident emissions of gamma rays. In this paper we present the concept, define performance parameters, and explore the performance of such detectors to a subset of radionuclides of particular CTBT relevance. In addition, we discuss the path forward in developing a next generation gamma-gamma coincidence spectroscopy system of segmented HPGe.

Published

2022

23. Calculation of Spatial Response of a Collimated Segmented HPGe detector for Gamma Emission Tomography by MCNP Simulations

Author

Rathore, Vikram, Senis, Lorenzo, Jansson, Peter, Andersson Sundén, Erik, Håkansson, Ane, Andersson, Peter, Rathore, Vikram, Senis, Lorenzo, Jansson, Peter, Andersson Sundén, Erik, Håkansson, Ane, and Andersson, Peter

Abstract

We have proposed a planar electronically segmented HPGe detector concept in combination with a multi-slit collimator for gamma emission tomography. In this work, the spatial resolution achievable by using the collimated segmented HPGe detector was evaluated, prior to the manufacture and operation of the detector. The spatial response of a collimated segmented HPGe detector concept was evaluated using simulations performed with Monte Carlo N-Particle transport code MCNP6. The full detector and multi-slit collimator system were modeled and for the quantification of the spatial response, the Modulation Transfer Function (MTF) was chosen as a performance metric. The MTF curve was obtained through the calculation of the Line Spread Function (LSF) by analyzing simulated projection data. In addition, tomographic reconstructions of the simulated simplified test objects were made to demonstrate the performance of the segmented HPGe detector in the planned application. For 662 keV photons, the spatial resolution obtained was approximately the same as the collimator slit width for both 100 and 150 mm long collimators. The corresponding spatial resolution at 1596 keV photon energy was almost twice the slit width for 100 mm collimator, due to the partial penetration of the high-energy gamma rays through the collimator bulk. For a 150 mm long collimator, an improved resolution was obtained., VR Bränslediagnostik

Published

2022

24. A computational methodology for estimating the detected energy spectra of the gamma-ray flux from irradiated nuclear fuel

Author

Senis, Lorenzo, Elter, Zsolt, Rathore, Vikram, Andersson Sundén, Erik, Jansson, Peter, Holcombe, S., Åberg Lindell, M., Håkansson, Ane, Andersson, Peter, Senis, Lorenzo, Elter, Zsolt, Rathore, Vikram, Andersson Sundén, Erik, Jansson, Peter, Holcombe, S., Åberg Lindell, M., Håkansson, Ane, and Andersson, Peter

Abstract

Gamma-ray spectrometry using collimated detectors is a well-established examination method for irradiated nuclear fuel. However, the feasibility of examining a particular nuclide of interest is subject to constraints; the peak must be statistically determinable with the desired precision and the total spectrum count rate in the detector should not cause throughput issues. Methods were assembled for gamma spectrum prediction to optimize instruments for gamma emission tomography and to enable a priori feasibility evaluation of determination of single peaks of irradiated nuclear fuel. The aim was to find reliable results (~10% accuracy) regarding total spectrum and peak count rates with faster computation time than a full-Monte Carlo approach. For this purpose, the method is based on depletion calculations with SERPENT2, a point-source kernel method for the collimator response, a rig response matrix and a detector response matrix, both computed with MCNP6. The computational methodology uses as input the fuel properties (dimensions, materials, power history, and cooling time), and the instrumental setup (collimator and detector dimensions and materials). The prediction method was validated using measured data from a high-burnup, short-cooled test fuel rodlet from the Halden reactor. Absolute count rates and ratios of characteristic peaks were compared between predicted and measured spectra, showing a total count rate overestimation of 7% and discrepancies between 2-20% for the single peaks (same order of magnitude of the uncertainty). This level of agreement is deemed sufficient for measurement campaigns planning, and the optimization of spectroscopic instruments for use in gamma scanning and tomography of nuclear fuel.

Published

2022

25. Characterization of the Medley setup for measurements of neutron-induced fission cross sections at the GANIL-NFS facility

Author

Tarrío Diego, Prokofiev Alexander V., Gustavsson Cecilia, Jansson Kaj, Andersson-Sundén Erik, Al-Adili Ali, and Pomp Stephan

Subjects

Physics, QC1-999

Abstract

Neutron-induced fission cross sections of 235U and 238U are widely used as standards for monitoring of neutron beams and fields. An absolute measurement of these cross sections at an absolute scale, i.e., versus the H(n,p) scattering cross section, is planned with the white neutron beam under construction at the Neutrons For Science (NFS) facility in GANIL. The experimental setup, based on PPACs and ΔE-ΔE-E telescopes containing Silicon and CsI(Tl) detectors, is described. The expected uncertainties are discussed.

Published

2017

26. Evaluation of gamma-ray transmission through rectangular collimator slits for application in nuclear fuel spectrometry

Author

Senis, Lorenzo, Rathore, Vikram, Anastasiadis, Anastasios, Andersson Sundén, Erik, Elter, Zsolt, Holcombe, Scott, Håkansson, Ane, Jansson, Peter, LaBrier, Daniel, Schulthess, Jason, Andersson, Peter, Senis, Lorenzo, Rathore, Vikram, Anastasiadis, Anastasios, Andersson Sundén, Erik, Elter, Zsolt, Holcombe, Scott, Håkansson, Ane, Jansson, Peter, LaBrier, Daniel, Schulthess, Jason, and Andersson, Peter

Abstract

Gamma-ray spectrometry is widely applied in several science fields, and in particular in non-destructive gamma scanning and gamma emission tomography of irradiated nuclear fuel. Often, a collimator is used in the experimental setup, to selectively interrogate a region of interest in the fuel. For the optimization of instrument design, as well as for planning measurement campaigns, predictive models for the transmitted gamma-ray intensity through the collimator are needed. Commonly, Monte Carlo Radiation Transport tools are used for accurate prediction of gamma-ray transport, however, the long computation time requirements when used in low-efficiency experimental setups present challenges. In this work, the full-energy peak intensity transmitted through a rectangular collimator slit was examined. A uniform planar surface source emitting isotropically was considered, and the rate of photons reaching an ideal counter plane on the opposite side of the collimator was evaluated by analytical integration. To find a closed-form primitive function, some idealizations were required, and thereby parametric models were obtained for the optical field of view, dependent on slit dimensions (length, height and width) and source-to-collimator distance. It was shown that the count rate in the detector is independent of the collimator-to-source distance. For contributions from outside the optical field of view, where a closed-form expression cannot be found, instead fast numerical integration methods were proposed. The results were validated using the Monte Carlo code MCNP6. For the analytical method, deviations were larger, the shorter the collimator, with up to 25% of underestimation obtained for the shortest examined collimator of 10 cm length. However, the longer the collimator, the better the observed agreement. This accuracy is deemed to be sufficient for instrument design and measurement planning, where often the order of magnitude of the count rate is not a priori known. For t

Published

2021

27. Gamma spectroscopy methodology for large amounts of environmental samples in Sweden 30 years after the Chernobyl accident

Author

Lantz, Mattias, Andersson Sundén, Erik, Andersson, Peter, Barker, Abigail, Gustavsson, Cecilia, Hjalmarsson, Anders, Jacewicz, Marek, Lundén, Karl, Marciniewski, Pawel, Pomp, Stephan, Rathore, Vikram, Ziemann, Volker, Lantz, Mattias, Andersson Sundén, Erik, Andersson, Peter, Barker, Abigail, Gustavsson, Cecilia, Hjalmarsson, Anders, Jacewicz, Marek, Lundén, Karl, Marciniewski, Pawel, Pomp, Stephan, Rathore, Vikram, and Ziemann, Volker

Abstract

In a Swedish citizen science project, more than 200 elementary school classes participated in collecting fungi, soil samples, and droppings from deer and wild boar, from all over Sweden. The samples have been sent to a laboratory at Uppsala University where they are being analyzed through gamma spectroscopy with a shielded HPGe detector. The main objective is to scan the samples for 137Cs from the Chernobyl accident and compare the data with measurements from 1986, but uptake of naturally occuring radionuclides like 40K and radon daughters will also be determined. Together with the soil samples, transfer factors will be derived, and correlations for these factors will be sought for different species of fungi and soil types. The potential for correlating the results with different biological processes will also be investigated, in part through the collected animal droppings. This is a work in progress where the present status of the experimental setup and methodology are presented. Issues with the initial approach for corrections are discussed and preliminary results are presented.

Published

2020

28. Citizen science in radiation research

Author

Gustavsson, Cecilia, Andersson-Sundén, Erik, Barker, Abigail, Hjalmarsson, Anders, Lantz, Mattias, Lundén, Karl, Pomp, Stephan, Gustavsson, Cecilia, Andersson-Sundén, Erik, Barker, Abigail, Hjalmarsson, Anders, Lantz, Mattias, Lundén, Karl, and Pomp, Stephan

Abstract

A growing trend in science is that research institutions reach out to members of the public for participating in research. The reasons for outreach are many, spanning from the desire to collect and/or analyse large sets of data efficiently, to the idea of including the general public on a very fundamental level in science-making and ultimately decision-making. The presented project is curriculum-based and carried out in 240 lower secondary school classes (pupils of age 13-16). The task, as designed by the participating universities, is to collect mushrooms, soil and animal droppings from different parts of Sweden, do preliminary sample preparation and analyses and send the samples to the university institutions for radioactivity measurement. Behind the project is a desire to compare today’s levels of 137Cs with those deposited right after the Chernobyl accident in 1986, but also to study the exchange of caesium between organisms as well as the impacts of biological and geological processes on uptake and retention. The scientific outcome is a geodatabase with the 137Cs activity (Bq/m2) present in the Swedish environment, where radioactivity data can be linked to the species (fungi, competing species, animals foraging), forest type, land type, land use and other environmental factors. The science question is of interest to the general public as foraging for mushrooms, as well as spending recreational time in forests is widely popular in Sweden. In this article, we will discuss the current status of the project and the observations we have made about how well the public can participate in scientific research. Focus will be on organization of the project, such as logistics, preparation of supportive material, feedback and communication between researchers and schools. We will present observations about the impact the project has had on the participants, based on quantitative and qualitative evaluations.

Published

2020

29. The degradation of gamma-ray mass attenuation of UOX and MOX fuel with nuclear burnup

Author

Atak, Haluk, Anastasiadis, Anastasios, Jansson, Peter, Elter, Zsolt, Andersson Sundén, Erik, Holcombe, Scott, Andersson, Peter, Atak, Haluk, Anastasiadis, Anastasios, Jansson, Peter, Elter, Zsolt, Andersson Sundén, Erik, Holcombe, Scott, and Andersson, Peter

Abstract

Nondestructive gamma-ray spectrometry of nuclear fuel is routinely performed in axial gamma scanning devices and more recently with gamma emission tomography. Following the irradiation of a fresh nuclear fuel with high intensity neutron flux in a nuclear reactor core, a great number of gamma-emitting radionuclides are created. These can be utilized for gamma spectrometric techniques. However, due to the high density and atomic number of the nuclear fuel, self-attenuation of gamma-rays is a challenge, which requires attenuation correction in order to perform accurate analysis of the source activity in the fuel. In this study, the degradation of the gamma-ray mass attenuation with burnup was investigated and, in addition, a predictive model was created by investigating the attenuation change at various gamma energies caused by the burnup of the nuclear fuel. This model is intended for use by spectrometry practitioners inspecting nuclear fuel. To this aim, the energy-dependent gamma-ray mass-attenuation coefficients were investigated as a function of burnup for UOX, and three MOX fuels having different initial Pu contents. The Serpent 2 reactor physics code was used to simulate the burnup history of the fuel pins. The nuclide inventory of the Serpent 2 output is combined with the NIST XCOM database to calculate the mass attenuation coefficients. The mass attenuation coefficient of the fuel was found to decrease with the fuel burnup, in the range of a few percent, depending on the burnup and gamma energy. Also, a theoretical burnup dependent swelling model was imposed on fuel density to see how linear attenuation coefficient of fuel material is changed. Furthermore, greater effect may be expected on the transmitted intensity, where a simulation study of a PWR assembly revealed that the contribution from the inner rods in a scanned fuel assembly increased by tens of percent compared to the one with non-irradiated fresh fuels, when shielded by the outer rods of the assemb

Published

2020

30. High rate neutron and gamma ray spectroscopy of magnetic confinement fusion plasmas

Author

Tardocchi, M., Giacomelli, L., Gorini, G., Muraro, A., Nocente, M., Rebai, M., Rigamonti, D., Croci, G., Dal Molin, A., Grosso, G., Panontin, E., Cippo, E. Perelli, Ericsson, Göran, Conroy, Sean, Eriksson, Jacob, Hjalmarsson, Anders, Andersson Sundén, Erik, Weiszflog, Matthias, Zychor, I., Broslawski, A., Gosk, M., Korolczuk, S., Urban, A., Fernandes, A., Pereira, R. C., Kaveney, G., Kiptily, V., Popovichev, S., Tardocchi, M., Giacomelli, L., Gorini, G., Muraro, A., Nocente, M., Rebai, M., Rigamonti, D., Croci, G., Dal Molin, A., Grosso, G., Panontin, E., Cippo, E. Perelli, Ericsson, Göran, Conroy, Sean, Eriksson, Jacob, Hjalmarsson, Anders, Andersson Sundén, Erik, Weiszflog, Matthias, Zychor, I., Broslawski, A., Gosk, M., Korolczuk, S., Urban, A., Fernandes, A., Pereira, R. C., Kaveney, G., Kiptily, V., and Popovichev, S.

Abstract

An important instrumental development work has been done in the last two decades in the field of neutron and gamma ray spectroscopic measurements of magnetic confinement plasmas. Starting from the present state of the art instrumentation installed at JET, this paper reviews the recent development that has been carried out within the EUROFUSION programme for the forthcoming high power JET D and DT campaign. This development was dedicated to the realization of new compact neutron and gamma-ray spectrometers which combine very high energy resolution (typically better than 5%) and MHz counting rate capabilities allowing for time resolution in the 10 ms time scale. One of the advantages offered by the compact dimensions of these spectrometers is to make possible their use in multiple sight-line camera configurations, such as for future burning plasma reactors (ITER and DEMO). New compact neutron spectrometers based on single crystal diamond detectors have been developed and installed at JET for measurements of the 14MeV neutron spectrum. Measurements on a portable DT neutron generator have shown that neutron spectroscopy of the accelerated beam ions at unprecedented energy resolution (similar to 1% at 14 MeV) is possible, which opens up new opportunities for diagnosing DT plasmas. For what concerns gamma ray measurements, the JET gamma ray camera has been recently upgraded with new compact spectrometers based on a LaBr3 scintillator coupled to Silicon Photomultiplier with the dual aim to improve the spectroscopic and rate capabilities of the detectors. The upgrade camera system will reconstruct the spatial gamma ray emissivity from the plasma in the MeV energy range at MHz counting rates and energy resolution in the 2-4% range. This will allow physics studies of gamma rays produced by the interaction of fast ions with impurities in the plasma and bremsstrahlung emission from runaway electrons.

Published

2020

31. Citizen Science and Radioactivity

Author

Andersson-Sundén, Erik, primary, Gustavsson, Cecilia, additional, Hjalmarsson, Anders, additional, Jacewicz, Marek, additional, Lantz, Mattias, additional, Marciniewski, Pawel, additional, Ziemann, Volker, additional, Barker, Abigail, additional, and Lundén, Karl, additional

Published

2019

32. Segmented HPGe Detector for Gamma Emission Tomography of Nuclear Fuel and Comparison with Existing Detectors

Author

Andersson, Peter, Rathore, Vikram, Senis, Lorenzo, Anastasios, Anastasiadis, Andersson Sundén, Erik, Haluk, Atak, Holcombe, Scott, Håkansson, Ane, Jansson, Peter, Nyberg, Johan, Andersson, Peter, Rathore, Vikram, Senis, Lorenzo, Anastasios, Anastasiadis, Andersson Sundén, Erik, Haluk, Atak, Holcombe, Scott, Håkansson, Ane, Jansson, Peter, and Nyberg, Johan

Abstract

VR Bränslediagnostik-113 330 190

Published

2019

33. Citizen Science and Radioactivity

Author

Andersson Sundén, Erik, Gustavsson, Cecilia, Hjalmarsson, Anders, Jacewicz, Marek, Lantz, Mattias, Marciniewski, Pawel, Ziemann, Volker, Barker, Abigail, Lundén, Karl, Andersson Sundén, Erik, Gustavsson, Cecilia, Hjalmarsson, Anders, Jacewicz, Marek, Lantz, Mattias, Marciniewski, Pawel, Ziemann, Volker, Barker, Abigail, and Lundén, Karl

Published

2019

34. Investigation of deuterium trapping and release in the JET ITER-like wall divertor using TDS and TMAP

Author

Likonen, J., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Likonen, J., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

Selected set of samples from JET ITER-Like Wall (JET-ILW) divertor tiles exposed both in 2013-2014 and 2011-2014 has been analysed using Thermal Desorption Spectrometry (TDS). The deuterium (D) amounts obtained with TDS were compared with Ion Beam Analysis (IBA) and Secondary Ion Mass Spectrometry (SIMS) data. The highest amount of D was found on the top part of inner divertor which has regions with the thickest deposited layers. This area resides deep in the scrape-off layer. Changes in plasma configurations between the first (2011-2012) and the second (2013-2014) JET-ILW campaign altered the material migration towards the inner and the outer divertor corner increasing the amount of deposition in the shadowed areas of the divertor base tiles. D retention on the outer divertor tiles is clearly smaller than on the inner divertor tiles. Experimental TDS spectra for samples from the top part of inner divertor and from the outer strike point region were modelled using TMAP program. Experimental deuterium profiles obtained with SIMS have been used and the detrapping and the activation energies have been adjusted. Analysis of the results of the TMAP simulations enabled to determine the nature of traps in different samples., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.02.031

Published

2019

35. The effect of beryllium oxide on retention in JET ITER-like wall tiles

Author

Makepeace, C., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Makepeace, C., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

Preliminary results investigating the microstructure, bonding and effect of beryllium oxide formation on retention in the JET ITER-like wall beryllium tiles, are presented. The tiles have been investigated by several techniques: Scanning Electron Microscopy (SEM) equipped with Energy Dispersive X-ray (EDX), Transmission Electron microscopy (TEM) equipped with EDX and Electron Energy Loss Spectroscopy (EELS), Raman Spectroscopy and Thermal Desorption Spectroscopy (TDS). This paper focuses on results from melted materials of the dump plate tiles in JET. From our results and the literature, it is concluded, beryllium can form micron deep oxide islands contrary to the nanometric oxides predicted under vacuum conditions. The deepest oxides analyzed were up to 2-micron thicknesses. The beryllium Deuteroxide (BeOxDy) bond was found with Raman Spectroscopy. Application of EELS confirmed the oxide presence and stoichiometry. Literature suggests these oxides form at temperatures greater than 700 degrees C where self-diffusion of beryllium ions through the surface oxide layer can occur. Further oxidation is made possible between oxygen plasma impurities and the beryllium ions now present at the wall surface. Under Ultra High Vacuum (UHV) nanometric Beryllium oxide layers are formed and passivate at room temperature. After continual cyclic heating (to the point of melt formation) in the presence of oxygen impurities from the plasma, oxide growth to the levels seen experimentally (approximately two microns) is proposed. This retention mechanism is not considered to contribute dramatically to overall retention in JET, due to low levels of melt formation. However, this mechanism, thought the result of operation environment and melt formation, could be of wider concern to ITER, dependent on wall temperatures., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.02.022

Published

2019

36. Comparison of the structure of the plasma-facing surface and tritium accumulation in beryllium tiles from JET ILW campaigns 2011-2012 and 2013-2014

Author

Pajuste, Elina, Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Pajuste, Elina, Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

In this study, beryllium tiles from Joint European Torus (JET) vacuum vessel wall were analysed and compared regarding their position in the vacuum vessel and differences in the exploitation conditions during two campaigns of ITER-Like-Wall (ILW) in 2011-2012 (ILW1) and 2013-2014 (ILW2) Tritium content in beryllium samples were assessed. Two methods were used to measure tritium content in the samples - dissolution under controlled conditions and tritium thermal desorption. Prior to desorption and dissolution experiments, scanning electron microscopy and energy dispersive x-ray spectroscopy were used to study structure and chemical composition of plasma-facing-surfaces of the beryllium samples. Experimental results revealed that tritium content in the samples is in range of 2.10(11)-2.10(13) tritium atoms per square centimetre of the surface area with its highest content in the samples from the outer wall of the vacuum vessel (up to 1.9.10(13) atoms/cm(2) in ILW1 campaign and 2.4.10(13) atoms/cm(2) in ILW2). The lowest content of tritium was found in the upper part of the vacuum vessel (2.0.10(12) atoms/cm(2) and 2.0.10(11) atoms/cm(2) in ILW1 and ILW2, respectively). Results obtained from scanning electron microscopy has shown that surface morphology is different within single tile, however if to compare two campaigns main tendencies remains similar., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.02.011

Published

2019

37. RF sheath modeling of experimentally observed plasma surface interactions with the JET ITER-Like Antenna

Author

Krivska, A., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Krivska, A., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

Waves in the Ion Cyclotron Range of Frequencies (ICRF) enhance local Plasma-Surface Interactions (PSI) near the wave launchers and magnetically-connected objects via Radio-Frequency (RF) sheath rectification. ITER will use 20MW of ICRF power over long pulses, questioning the long-term impact of RF-enhanced localized erosion on the lifetime of its Beryllium (Be) wall. Recent dedicated ICRF-heated L-mode discharges documented this process on JET for different types of ICRF antennas. Using visible spectroscopy in JET ICRF-heated L-mode discharges, poloidally-localized regions of enhanced (by similar to 2-4x) Be I and Be II light emission were observed on two outboard limiters magnetically connected to the bottom of the active ITER-Like Antenna (ILA). The observed RF-PSI induced by the ILA was qualitatively comparable to that induced by the JET standard, type-A2 antennas, for similar strap toroidal phasing and connection geometries. The Be II line emission was found more intense when powering the bottom half of the ILA rather than its top half. Conversely, more pronounced SOL density modifications were observed with only top array operation, on field lines connected to the top half of the ILA. So far the near-field modeling of the ILA with antenna code TOPICA (Torino Polytechnic Ion Cyclotron Antenna), using curved antenna model, was partially able to reproduce qualitatively the observed phenomena. A quantitative discrepancy persisted between the observed Be source amplification and the calculated, corresponding increases in E-// field at the magnetically connected locations to the ILA when changing from only top to only bottom half antenna operation. This paper revisits these current drive phased and half-ILA powered cases using for the new simulations flat model of the ILA and more realistic antenna feeding to calculate the E-// field maps with TOPICA code. Further, the Self-consistent Sheaths and Waves for Ion Cyclotron Heating Slow Wave (SSWICH-SW) code, which coupl, For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.03.009

Published

2019

38. Improved ERO modelling of beryllium erosion at ITER upper first wall panel using JET-ILW and PISCES-B experience

Author

Borodin, D., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Borodin, D., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

ERO is a 3D Monte-Carlo impurity transport and plasma-surface interaction code. In 2011 it was applied for the ITER first wall (FW) life time predictions [1] (critical blanket module BM11). After that the same code was significantly improved during its application to existing fusion-relevant plasma devices: the tokamak JET equipped with an ITER-like wall and linear plasma device PISCES-B. This has allowed testing the sputtering data for beryllium (Be) and showing that the "ERO-min" fit based on the large (50%) deuterium (D) surface content is well suitable for plasma-wetted areas (D plasma). The improved procedure for calculating of the effective sputtering yields for each location along the plasma-facing surface using the recently developed semi-analytical sheath approach was validated. The re-evaluation of the effective yields for BM11 following the similar revisit of the JET data has indicated significant increase of erosion and motivated the current re-visit of ERO simulations., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.03.016

Published

2019

39. Long-lived coupled peeling ballooning modes preceding ELMs on JET

Author

von Thun, C. Perez, Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., von Thun, C. Perez, Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

In some JET discharges, type-I edge localised modes (ELMs) are preceded by a class of low-frequency oscillations (Perez et al 2004 Nucl. Fusion 44 609). While in many cases the ELM is triggered during the growth phase of this oscillation, it is also observed that this type of oscillation can saturate and last for several tens of ms until an ELM occurs. In order to identify the nature of these modes, a wide pre-ELM oscillation database, including detailed pedestal profile information, has been assembled and analysed in terms of MHD stability parameters. The existence domain of these pre-ELM oscillations and the statistical distribution of toroidal mode numbers (n) up to n = 16 have been mapped in ballooning alpha (alpha(ball)) and either edge current density (J(edge)) or pedestal collisionality (nu(ee,ped)*) coordinates and compared to linear MHD stability predictions. The pre-ELM oscillations are reliably observed when the J/alpha ratio is high enough for the pedestal to access the coupled peeling-ballooning (PB) domain (aka stability nose). Conversely, when the pedestal is found to be in or near the high-n ballooning domain (which is at low J/alpha ratio), ELMs are usually triggered promptly, i.e. with no detectable pre-ELM oscillations, or with pre-ELM oscillations only observable on ECE whose n appears to be too high to be resolved by the magnetics. Individual discharges can sometimes exhibit a fairly wide range of pre-ELM mode numbers, but for a wider database, the statistical n-number domains are found to be well ordered along the J - alpha stability boundary and behave as expected from PB theory: the higher the J/alpha ratio, the lower the mode's measured n tends to be. Within the measurement uncertainties, the measured n is usually found to be compatible with the most unstable n predicted by the linear stability code MISHKA1. These results confirm the earlier hypothesis that these modes are coupled peeling-ballooning modes, and extend and generalise to higher, For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ab0031

Published

2019

40. Approximate analytic expressions using Stokes model for tokamak polarimetry and their range of validity

Author

Orsitto, F. P., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Orsitto, F. P., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

The analysis of the polarimetry measurements has the aim of validating models (De Marco and Segre 1972 Plasma Phys. 14 245), with a careful attention to the clarification of their limits of application. In this paper a new approximation method is introduced, the so-called special constant Omega direction (SCOD), which gives an analytical solution to the polarimetry exact Stokes model equations. The available approximate solutions (including SCOD) of the polarimetry propagation equations are presented, compared and their application limits determined, using a reference tokamak configuration, which is a simplified equilibrium for a circular tokamak. The SCOD approximation is compared successfully to the Stokes model in the context also of equilibria evaluated for two JET discharges. The approximation methods are analytical or very simple mathematical expressions which can also be used in equilibrium codes for their optimization., For complete list of authors see http://dx.doi.org/10.1088/1361-6587/ab09c2

Published

2019

41. COREDIV numerical simulation of high neutron rate JET-ILW DD pulses in view of extension to JET-ILW DT experiments

Author

Telesca, G., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Primetzhofer, Daniel, Sahlberg, Arne, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I, Telesca, G., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Primetzhofer, Daniel, Sahlberg, Arne, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I

Abstract

Two high performance JET-ILW pulses, pertaining to the 2016 experimental campaign, have been numerically simulated with the self-consistent code COREDIV with the aim of predicting the ELM-averaged power load to the target when extrapolated to DT plasmas. The input power of about 33 MW as well as the total radiated power and the average density are similar in the two pulses, but for one of them the density is provided by combined low gas puff and pellet injection, characterized by low SOL density, for the other one by gas fuelling only, at higher SOT. density. Considering the magnetic configuration of theses pulses and the presence of a significant amount of Ni (not included in the version of the code used for these simulations), a number of assumptions are made in order to reproduce numerically the main core and SOL experimental data. The extrapolation to DT plasmas at the original input power of 33 MW, and taking into account only the thermal component of the alpha-power, does not show any significant difference regarding the power to the target with respect to the DD case. In contrast, the simulations at auxiliary power 40 MW, both at the original I-p = 3 MA and at I-p = 4 MA, show that the power to the target for both pulses is possibly too high to be sustained for about 5 s by strike-point sweeping alone without any control by Ne seeding. Even though the target power load may decrease to about 13-15 MW with substantial Ne seeding for both pulses, as from numerical predictions, there are indications suggesting that the control of the power load may be more critical for the pulse with pellet injection, due to the reduced SOL radiation., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ab0c47

Published

2019

42. Dynamic modelling of local fuel inventory and desorption in the whole tokamak vacuum vessel for auto-consistent plasma-wall interaction simulations

Author

Denis, J., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Denis, J., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

An extension of the SolEdge2D-EIRENE code package, named D-WEE, has been developed to add the dynamics of thermal desorption of hydrogen isotopes from the surface of plasma facing materials. To achieve this purpose, D-WEE models hydrogen isotopes implantation, transport and retention in those materials. Before launching autoconsistent simulation (with feedback of D-WEE on SolEdge2D-EIRENE), D-WEE has to be initialised to ensure a realistic wall behaviour in terms of dynamics (pumping or fuelling areas) and fuel content. A methodology based on modelling is introduced to perform such initialisation. A synthetic plasma pulse is built from consecutive SolEdge2D-EIRENE simulations. This synthetic pulse is used as a plasma background for the D-WEE module. A sequence of plasma pulses is simulated with D-WEE to model a tokamak operation. This simulation enables to extract at a desired time during a pulse the local fuel inventory and the local desorption flux density which could be used as initial condition for coupled plasma-wall simulations. To assess the relevance of the dynamic retention behaviour obtained in the simulation, a confrontation to post-pulse experimental pressure measurement is performed. Such confrontation reveals a qualitative agreement between the temporal pressure drop obtained in the simulation and the one observed experimentally. The simulated dynamic retention during the consecutive pulses is also studied., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.03.019

Published

2019

43. Modelling of the effect of ELMs on fuel retention at the bulk W divertor of JET

Author

Heinola, K., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Heinola, K., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

Effect of ELMs on fuel retention at the bulk W target of JET ITER-Like Wall was studied with multi-scale calculations. Plasma input parameters were taken from ELMy H-mode plasma experiment. The energetic intra-ELM fuel particles get implanted and create near-surface defects up to depths of few tens of nm, which act as the main fuel trapping sites during ELMs. Clustering of implantation-induced vacancies were found to take place. The incoming flux of inter-ELM plasma particles increases the different filling levels of trapped fuel in defects. The temperature increase of the W target during the pulse increases the fuel detrapping rate. The inter-ELM fuel particle flux refills the partially emptied trapping sites and fills new sites. This leads to a competing effect on the retention and release rates of the implanted particles. At high temperatures the main retention appeared in larger vacancy clusters due to increased clustering rate., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.03.013

Published

2019

44. A power-balance model of the density limit in fusion plasmas : application to the L-mode tokamak

Author

Zanca, P., Andersson Sundén, Erik, Binda, Federico, Cecconello, Marco, Conroy, Sean, Dzysiuk, Nataliia, Ericsson, Göran, Eriksson, Jacob, Hellesen, Carl, Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Weiszflog, Matthias, Zychor, I., Zanca, P., Andersson Sundén, Erik, Binda, Federico, Cecconello, Marco, Conroy, Sean, Dzysiuk, Nataliia, Ericsson, Göran, Eriksson, Jacob, Hellesen, Carl, Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Weiszflog, Matthias, and Zychor, I.

Abstract

A power-balance model, with radiation losses from impurities and neutrals, gives a unified description of the density limit (DL) of the stellarator, the L-mode tokamak, and the reversed field pinch (RFP). The model predicts a Sudo-like scaling for the stellarator, a Greenwald- like scaling, alpha I-p(8/9), for the RFP and the ohmic tokamak, a mixed scaling, alpha (PIp4/9)-I-4/9, for the additionally heated L-mode tokamak. In a previous paper (Zanca et al 2017 Nucl. Fusion 57 056010) the model was compared with ohmic tokamak, RFP and stellarator experiments. Here, we address the issue of the DL dependence on heating power in the L-mode tokamak. Experimental data from high-density disrupted L-mode discharges performed at JET, as well as in other machines, arc taken as a term of comparison. The model fits the observed maximum densities better than the pure Greenwald limit., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ab3b31

Published

2019

45. Application of Gaussian process regression to plasma turbulent transport model validation via integrated modelling

Author

Ho, A., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Ho, A., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

This paper outlines an approach towards improved rigour in tokamak turbulence transport model validation within integrated modelling. Gaussian process regression (GPR) techniques were applied for profile fitting during the preparation of integrated modelling simulations allowing for rigourous sensitivity tests of prescribed initial and boundary conditions as both fit and derivative uncertainties are provided. This was demonstrated by a JETTO integrated modelling simulation of the JET ITER-like-wall H-mode baseline discharge #92436 with the QuaLiKiz quasilinear turbulent transport model, which is the subject of extrapolation towards a deuterium-tritium plasma. The simulation simultaneously evaluates the time evolution of heat, particle, and momentum fluxes over similar to 10 confinement times, with a simulation boundary condition at rho(tor) = 0.85. Routine inclusion of momentum transport prediction in multi-channel flux-driven transport modelling is not standard and is facilitated here by recent developments within the QuaLiKiz model. Excellent agreement was achieved between the fitted and simulated profiles for n(e), T-e, T-i, and Omega(tor) within 2 sigma, but the simulation underpredicts the mid-radius Ti and overpredicts the core n(e) and T-e profiles for this discharge. Despite this, it was shown that this approach is capable of deriving reasonable inputs, including derivative quantities, to tokamak models from experimental data. Furthermore, multiple figures-of-merit were defined to quantitatively assess the agreement of integrated modelling predictions to experimental data within the GPR profile fitting framework., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ab065a

Published

2019

46. Radial variation of heat transport in L-mode JET discharges

Author

van Milligen, B. Ph, Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., van Milligen, B. Ph, Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

In this paper, we analyze heat transport in the JET tokamak using data from its high resolution ECE diagnostic and analyses based on the transfer entropy (TE). The analysis reveals that heat transport is not smooth and continuous, but is characterized by 'trapping regions' separated by `minor transport barriers'. Meat may 'jump over' these barriers and when the heating power is raised, this 'jumping' behavior becomes more prominent. To check that our results are relevant for global heat transport, we deduced an effective diffusion coefficient from the TE results. Both its value and overall radial variation are consistent with heat diffusivities reported in literature. The detailed radial structure of the effective diffusion coefficient was shown to be linked to the mentioned minor transport barriers., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ab03e1

Published

2019

47. Investigation of deuterium trapping and release in the JET divertor during the third ILW campaign using TDS

Author

Likonen, J., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Likonen, J., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

Selected set of samples from JET ITER-Like Wall (JET-ILW) divertor tiles exposed in 2015-2016 has been analysed using Thermal Desorption Spectrometry (TDS). The deuterium (D) amounts obtained with TDS were compared with Nuclear Reaction Analysis (NRA). The highest amount of D was found on the top part of inner divertor which has regions with the thickest deposited layers as for divertor tiles removed in 2014. This area resides deep in the scrape-off layer and plasma configurations for the second (ILW-2, 2013-2014) and the third (ILW-3, 2015-2016) JET-ILW campaigns were similar. Agreement between TDS and NRA is good on the apron of Tile 1 and on the upper vertical region whereas on the lower vertical region of Tile 1 the NRA results are clearly smaller than the TDS results. Inner divertor Tile 3 has somewhat less D than Tiles 0 and 1, and the D amount decreases towards the lower part of the tile. The D retention at the divertor inner and outer corner regions is not symmetric as there is more D retention poloidally at the inner than at the outer divertor corner. In most cases the TDS spectra for the ILW-3 samples are different from the corresponding ILW-2 spectra because HD and D-2 release occurs at higher temperatures than from the ILW-2 samples indicating that the low energy traps have been emptied during the plasma operations and that D is either in the energetically deep traps or located deeper in the sample., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2019.03.012

Published

2019

48. Deposition of impurity metals during campaigns with the JET ITER-like Wall

Author

Widdowson, A., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, Zychor, I., Widdowson, A., Andersson Sundén, Erik, Binda, F., Cecconello, Marco, Conroy, Sean, Dzysiuk, N., Ericsson, Göran, Eriksson, Jacob, Hellesen, C., Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, M., Weiszflog, Matthias, and Zychor, I.

Abstract

Post mortem analysis shows that mid and high atomic number metallic impurities are present in deposits on JET plasma facing components with the highest amount of Ni and W, and therefore the largest sink, being found at the top of the inner divertor. Sources are defined as "continuous" or "specific", in that "continuous" sources arise from ongoing erosion from plasma facing surfaces and "specific" are linked with specific events which decrease over time until they no longer act as a source. This contribution evaluates the sinks and estimates sources, and the balance gives an indication of the dominating processes. Charge exchange neutral erosion is found to be the main source of nickel, whereas erosion of divertor plasma facing components is the main source of tungsten. Specific sources are shown to have little influence over the global mid- and high-Z impurity concentrations in deposits., For complete list of authors see http://dx.doi.org/10.1016/j.nme.2018.12.024

Published

2019

49. Current Research into Applications of Tomography for Fusion Diagnostics

Author

Mlynar, Jan, Andersson Sundén, Erik, Binda, Federico, Cecconello, Marco, Conroy, Sean, Dzysiuk, Nataliia, Ericsson, Göran, Eriksson, Jacob, Hellesen, Carl, Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, Mateusz, Weiszflog, Matthias, Zychor, I., Mlynar, Jan, Andersson Sundén, Erik, Binda, Federico, Cecconello, Marco, Conroy, Sean, Dzysiuk, Nataliia, Ericsson, Göran, Eriksson, Jacob, Hellesen, Carl, Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, Mateusz, Weiszflog, Matthias, and Zychor, I.

Abstract

Retrieving spatial distribution of plasma emissivity from line integrated measurements on tokamaks presents a challenging task due to ill-posedness of the tomography problem and limited number of the lines of sight. Modern methods of plasma tomography therefore implement a-priori information as well as constraints, in particular some form of penalisation of complexity. In this contribution, the current tomography methods under development (Tikhonov regularisation, Bayesian methods and neural networks) are briefly explained taking into account their potential for integration into the fusion reactor diagnostics. In particular, current development of the Minimum Fisher Regularisation method is exemplified with respect to real-time reconstruction capability, combination with spectral unfolding and other prospective tasks., For complete list of authors see http://dx.doi.org/10.1007/s10894-018-0178-x

Published

2019

50. Novel method for determination of tritium depth profiles in metallic samples

Author

Pajuste, Elina, Andersson Sundén, Erik, Binda, Federico, Cecconello, Marco, Conroy, Sean, Dzysiuk, Nataliia, Ericsson, Göran, Eriksson, Jacob, Hellesen, Carl, Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, Mateusz, Weiszflog, Matthias, Zychor, I., Pajuste, Elina, Andersson Sundén, Erik, Binda, Federico, Cecconello, Marco, Conroy, Sean, Dzysiuk, Nataliia, Ericsson, Göran, Eriksson, Jacob, Hellesen, Carl, Hjalmarsson, Anders, Possnert, Göran, Sjöstrand, Henrik, Skiba, Mateusz, Weiszflog, Matthias, and Zychor, I.

Abstract

Tritium accumulation in fusion reactor materials is considered a serious radiological issue, therefore a lot of effort has been concentrated on the development of radiometric techniques. A novel method, based on gradual dissolution, for the determination of the total tritium content and its depth profiles in metallic samples is demonstrated. This method allows for the measurement of tritium in metallic samples after their exposure to a hydrogen and tritium mixture, tritium containing plasma or after irradiation with neutrons resulting in tritium formation. In this method, successive layers of metal are removed using an appropriate etching agent in the controlled regime and the amount of evolved gases are measured by means of chromatography (gas composition and release rate) and a proportional gas flow detector (tritium). Results for the tritium profiles in neutron irradiated, plasma exposed and gas loaded beryllium are reported., For complete list of authors see http://dx.doi.org/10.1088/1741-4326/ab3056

Published

2019