☆ 4.7 Article

d-wave superconductive gap and related observables of PuCoGa5

JOURNAL OF NUCLEAR MATERIALS (2009)

Journal

JOURNAL OF NUCLEAR MATERIALS

Volume 385, Issue 1, Pages 4-7

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ELSEVIER SCIENCE BV

DOI: 10.1016/j.jnucmat.2008.09.042

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Materials Science, Multidisciplinary Nuclear Science & Technology

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Abstract

The real-axis formulation of the Eliashberg theory has been applied to PuCoGa5, assuming d-wave symmetry and phonon-mediated pairing. Here, we present the calculated temperature dependence of the superconductive gap I(T) for a freshly prepared sample, and the variation of Delta(T = 2 K) with increasing impurity scattering rate. We also present the calculated energy dependence of the quasiparticle density of state, together with the corresponding normalized tunnelling conductance at T = 4 K. These quantities could be compared with future tunnelling experiments that would also lead to a direct determination of the spectral density function. Finally, we show that the normal phase resistivity can be well reproduced up to room temperature assuming electron-phonon scattering within a two-band model. (C) 2008 Published by Elsevier B.V.

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Tuning, A. Ukleja, D. J. Unverzagt, A. Usachov, A. Ustyuzhanin, U. Uwer, A. Vagner, V. Vagnoni, A. Valassi, G. Valenti, N. Valls Canudas, M. van Beuzekom, E. van Herwijnen, C. B. Van Hulse, M. van Veghel, R. Vazquez Gomez, P. Vazquez Regueiro, C. Vazquez Sierra, S. Vecchi, J. J. Velthuis, M. Veltri, A. Venkateswaran, M. Veronesi, M. Vesterinen, D. Vieira, M. Vieites Diaz, H. Viemann, X. Vilasis-Cardona, E. Vilella Figueras, P. Vincent, G. Vitali, A. Vollhardt, D. Vom Bruch, A. Vorobyev, V. Vorobyev, N. Voropaev, R. Waldi, J. Walsh, C. Wang, J. Wang, J. Wang, J. Wang, J. Wang, M. Wang, R. Wang, Y. Wang, Z. Wang, H. M. Wark, N. K. Watson, S. G. Weber, D. Websdale, C. Weisser, B. D. C. Westhenry, D. J. White, M. Whitehead, D. Wiedner, G. Wilkinson, M. Wilkinson, I Williams, M. Williams, M. R. J. Williams, F. F. Wilson, W. Wislicki, M. Witek, L. Witola, G. Wormser, S. A. Wotton, H. Wu, K. Wyllie, Z. Xiang, D. Xiao, Y. Xie, A. Xu, J. Xu, L. Xu, M. Xu, Q. Xu, Z. Xu, Z. Xu, D. Yang, Y. Yang, Z. Yang, Z. Yang, Y. Yao, L. E. Yeomans, H. Yin, J. Yu, X. Yuan, O. Yushchenko, K. A. Zarebski, M. Zavertyaev, M. Zdybal, O. Zenaiev, M. Zeng, D. Zhang, L. Zhang, S. Zhang, Y. Zhang, Y. Zhang, A. Zhelezov, Y. Zheng, X. Zhou, Y. Zhou, X. Zhu, V Zhukov, J. B. Zonneveld, S. Zucchelli, D. Zuliani, G. Zunica

Summary: Measurements of CP observables in B-+/- -> D(*) K-+/- and B-+/- -> D(*) pi(+/-) decays are presented, including the first observations of partially reconstructed decays and a new decay mode with a significance of 6.1 standard deviations. These measurements provide strong constraints on the CKM angle gamma and are measured with world-best precision.

JOURNAL OF HIGH ENERGY PHYSICS (2021)

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Article Chemistry, Physical

A redshifted photonic bandgap and wide-angle polarization selection in an all-hyperbolic-metamaterial one-dimensional photonic crystal

Feng Wu, Dejun Liu, Hongju Li, Mingku Feng

Summary: According to Bragg scattering theory, photonic bandgaps (PBGs) in one-dimensional (1D) all-dielectric photonic crystals (PhCs) are polarization-insensitive. In this study, we theoretically investigate the angle dependence of PBGs in a novel type of 1D PhC made entirely of all-hyperbolic-metamaterials (all-HMMs). The PBGs in all-HMM 1D PhCs exhibit a redshift property under transverse magnetic polarization and a blueshift property under transverse electric polarization as the incident angle increases. The polarization-sensitive property of PBGs enables wide-angle high-performance polarization selection, which can be useful in liquid crystal displays, quantum interferometers, and Q-switched lasers.

PHYSICAL CHEMISTRY CHEMICAL PHYSICS (2023)

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Article Astronomy & Astrophysics

Asymptotic observables and the swampland

Tom Rudelius

Summary: Constraints on scalar field potentials and light massive states in asymptotic limits of scalar field space are correlated with defining asymptotic observables in expanding cosmologies, which could shed light on the swampland program and the weak gravity conjecture in cosmology.

PHYSICAL REVIEW D (2021)

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Article Physics, Condensed Matter

The fifty years it has taken to understand the dynamics of UO2in its ordered state

G. H. Lander, R. Caciuffo

JOURNAL OF PHYSICS-CONDENSED MATTER (2020)

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Article Chemistry, Multidisciplinary

Tris-{hydridotris(1-pyrazolyl)borato}actinide Complexes: Synthesis, Spectroscopy, Crystal Structure, Bonding Properties and Magnetic Behaviour

Christos Apostolidis, Attila Kovacs, Olaf Walter, Eric Colineau, Jean-Christophe Griveau, Alfred Morgenstern, Jean Rebizant, Roberto Caciuffo, Petra J. Panak, Thomas Rabung, Bernd Schimmelpfennig, Mauro Perfetti

CHEMISTRY-A EUROPEAN JOURNAL (2020)

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Article Physics, Condensed Matter

Optical and hidden transport properties of BaFe1.91Ni0.09As2 film

Yu A. Aleshchenko, A. Muratov, G. A. Ummarino, S. Richter, A. Anna Thomas, R. Huehne

Summary: Optical spectroscopy was used to study the electrodynamics and hidden transport properties of a BaFe1.91Ni0.09As2 thin superconducting film. In the superconducting state, two gaps were formed from the narrow component while the broad component remained ungapped. The changes in electron-boson coupling and representative energy between the normal and superconducting states were typical of other iron-based materials and high-temperature superconducting cuprates.

JOURNAL OF PHYSICS-CONDENSED MATTER (2021)

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Article Physics, Condensed Matter

Resonant inelastic x-ray spectroscopy on UO2 as a test case for actinide materials

G. H. Lander, M. Sundermann, R. Springell, A. C. Walters, A. Nag, M. Garcia-Fernandez, K. J. Zhou, G. van der Laan, R. Caciuffo

Summary: Resonant inelastic x-ray spectroscopy has been used to reveal excitations in UO2 up to 1 eV at the uranium N-4 absorption edge. The study confirms earlier research on crystal-field states within the H-3(4) multiplet and establishes the first excited state of the F-3(2) multiplet. This successful application of soft x-ray spectroscopy to an actinide sample resolves a question in UO2 that has been discussed for 50 years.

JOURNAL OF PHYSICS-CONDENSED MATTER (2021)

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Article Physics, Multidisciplinary

Possible Alterations of Local Gravitational Field Inside a Superconductor

Giovanni Alberto Ummarino, Antonio Gallerati

Summary: In this study, the potential interaction between a superconductor and the Earth's gravitational fields was calculated using the gravito-Maxwell formalism and the time-dependent Ginzburg-Landau theory. The researchers aimed to determine the most favorable conditions for enhancing the effect by optimizing the superconductor parameters of the chosen sample. Additionally, a qualitative comparison was made between the behavior of high-Tc and classical low-Tc superconductors in the context of gravity/superfluid interplay.

ENTROPY (2021)

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Article Chemistry, Multidisciplinary

A terminal neptunium(V)-mono(oxo) complex

Michal S. Dutkiewicz, Conrad A. P. Goodwin, Mauro Perfetti, Andrew J. Gaunt, Jean-Christophe Griveau, Eric Colineau, Attila Kovacs, Ashley J. Wooles, Roberto Caciuffo, Olaf Walter, Stephen T. Liddle

Summary: Neptunium, the first artificially synthesized actinide, has been less studied compared to its famous neighbors uranium and plutonium. This study reports the synthesis, isolation, and characterization of a stable molecular neptunium(V)-mono(oxo) triamidoamine complex, demonstrating the possibility of stabilizing and studying high-oxidation-state transuranic complexes with a single metal-ligand bond.

NATURE CHEMISTRY (2022)

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Article Materials Science, Multidisciplinary

Superconductor in static gravitational, electric and magnetic fields with vortex lattice

Giovanni Alberto Ummarino, Antonio Gallerati

Summary: This study estimated the conjectured interaction between the Earth's gravitational field and a superconductor immersed in external, static electric and magnetic fields, proposing multiple measurable effects. The analysis included the local effect of the gravitational field inside the superconductor and the generation of a new component of a generalized electric field within the sample.

RESULTS IN PHYSICS (2021)

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Article Multidisciplinary Sciences

Superconductors and Gravity

Antonio Gallerati, Giovanni Alberto Ummarino

Summary: This paper reviews recent developments on the unconventional interaction between superconducting systems and the local gravitational field, focusing on the subtle superfluid back-reaction on the surrounding gravitational field and analyzing specific favorable situations.

SYMMETRY-BASEL (2022)

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Article Physics, Applied

s± plus d wave multiband Eliashberg theory for the iron pnictides

G. A. Ummarino, D. Torsello

Summary: In this study, we calculated the critical temperature and order parameter symmetry of a multiband system using the s +/- + d-wave Eliashberg theory. We found that the system exhibits twofold in-plane symmetry and undergoes a transition from nodal to fully gapped state with increasing temperature.

PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS (2022)

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Article Chemistry, Inorganic & Nuclear

Mathematical and Physical Properties of Three-Band s± Eliashberg Theory for Iron Pnictides

Giovanni Alberto Ummarino

Summary: The phenomenology of the iron pnictide superconductor can be described by the three-band s +/- Eliashberg theory, where the coupling mechanism is mediated by antiferromagnetic spin fluctuations and the characteristic energy omega(0) scales with T-c according to the empirical law omega(0) = 4.65k(B)T(c). This model exhibits universal characteristics, independent of the critical temperature, such as the link between the two free parameters lambda(13) and lambda(23), and the ratio delta(i)/k(B)T(c).

MAGNETOCHEMISTRY (2023)

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Review Physics, Multidisciplinary

Synchrotron radiation techniques and their application to actinide materials

R. Caciuffo, G. H. Lander, G. van der Laan

Summary: Research on actinide materials has been greatly advanced by the general techniques available from high-intensity photon beams from x-ray synchrotron sources, which can work with minute samples and reduce the radioactive hazards. The article discusses the form and encapsulation procedures used for different techniques and presents the basic theory for interpreting the results. It also reviews a selection of experiments to demonstrate the potential of synchrotron radiation techniques for studying actinide materials.

REVIEWS OF MODERN PHYSICS (2023)

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Article Physics, Condensed Matter

Strong-Coupling Behavior of the Critical Temperature of Pb/Ag, Pb/Cu and Pb/Al Nanocomposites Explained by Proximity Eliashberg Theory

Giovanni Alberto Ummarino

Summary: The experimental results show that the critical temperature of the systems of superconducting (Pb) and normal (Ag, Cu and Al) nanoparticles, with sizes smaller than their respective coherence lengths and randomly distributed, is determined by the proximity effect. Although the initial observation suggests a weak coupling behavior between the superconducting components, a closer analysis using Eliashberg's theory reveals a strong coupling nature. Interestingly, the theory requires no free parameters and explains the experimental data well by assuming that the density of states at the Fermi level of silver and copper nanoparticles is equal to that of lead.

CONDENSED MATTER (2023)

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Article Materials Science, Multidisciplinary

Anisotropy in cubic UO2 caused by electron-lattice interactions

Luigi Paolasini, Daniel Chaney, Alexei Bosak, Gerard H. Lander, Roberto Caciuffo

Summary: Despite many years of research, the full complexity of the electron-lattice interactions in UO2 is not fully understood. X-ray inelastic scattering at low temperature reveals that the interaction between electronic degrees of freedom and transverse acoustic phonons is strong only along the reciprocal space direction [100]. The anisotropy in phonon-linewidth broadening leads to an anisotropy in thermal conductivity, which is observed even above the Neel temperature, but cannot be explained with existing models for a cubic material.

PHYSICAL REVIEW B (2021)

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Article Physics, Condensed Matter

Standard Behaviour of Bi2Sr2CaCu2O8+δ Overdoped

Giovanni Alberto Ummarino

Summary: The study found that cuprates in the overdoped regime can be well described by standard d-wave Eliashberg theory with coupling provided by antiferromagnetic spin fluctuations; excellent agreement was observed between the experimental data and theoretical calculations.

CONDENSED MATTER (2021)

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Article Materials Science, Multidisciplinary

Transuranium compounds probed by nonresonant inelastic x-ray scattering

M. Sundermann, L. Simonelli, S. Huotari, R. Eloirdi, G. H. Lander, R. Caciuffo, G. van der Laan

PHYSICAL REVIEW B (2020)

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Article Materials Science, Multidisciplinary

H dissolution and desorption near He-V complexes in W surfaces with different orientations

Liuming Wei, Jingwen Li, Yonggang Li, Qirong Zheng, Fan Cheng, Chuanguo Zhang, Jingyu Li, Gaofeng Zhao, Zhi Zeng

Summary: This study investigates the influence of He-V complexes on H behaviors on different W surfaces using DFT calculations. The results show that H dissolution is most difficult but H trapping is easiest on the W (110) surface, while the opposite is true on the W (111) surface. Moreover, the presence of He-V complexes increases the difficulty of H diffusion from bulk to surface and desorption.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Effect of deposition parameters on characteristics and oxidation behavior of magnetron sputtered Cr coatings

Yan Meng, Song Zeng, Chen Chen, Chaowen Zhu, Huahai Shen, Xiaosong Zhou, Xiaochun Han

Summary: The characteristics of magnetron sputtered Cr coatings vary with different temperature, bias voltage, and pressure. Coatings with random orientation, good crystallinity, and small grain size exhibit favorable oxidation behavior, while coatings with strong (200) texture, poor crystallinity, and large grains have many intrinsic defects that are detrimental to the protection property of the Cr coatings.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Automated analysis of grain morphology in TEM images using convolutional neural network with CHAC algorithm

Xinyuan Xu, Zefeng Yu, Wei-Ying Chen, Aiping Chen, Arthur Motta, Xing Wang

Summary: This study presents an automated approach for characterizing grain morphology in TEM images recorded during ion irradiation. By combining a machine learning model and a computer vision algorithm, comparable results to human analysis can be achieved with significantly reduced analysis time. Researchers can train their own models following the procedures described in this study to automate grain morphology analysis of their own TEM images.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Model development for oxidation and degradation behavior of accident tolerant Cr coating on Zr alloy cladding under high temperature steam atmosphere

Shihao Wu, Dong Wang, Yapei Zhang, Koji Okamoto, Marco Pellegrini, Wenxi Tian, Suizheng Qiu, G. H. Su

Summary: The oxidation and degradation mechanisms of Cr coating on Zr alloy cladding under high temperature steam atmosphere are summarized, and a mathematical analysis model is established to predict the changes in coating thickness. The model is applied in the analysis of structure evolution under different conditions.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Numerical and experimental development of cupronickel filler brazed joints for divertor and first wall components in DEMO fusion reactor

V. Diaz-Mena, J. de Prado, M. Roldan, I. Izaguirre, M. Sanchez, M. Rieth, A. Urena

Summary: The brazeability of a cupronickel alloy was evaluated as a filler alloy for high-temperature joining of tungsten to steel. The study investigated the brazing conditions and the impact of the selected filler on the joint quality using numerical software. The results showed different metallurgical interactions and diffusion phenomena between the filler alloy and the base materials at different temperatures. The study emphasized the importance of selecting a suitable filler to mitigate residual stresses in the joints.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Defect-specific strength factors and superposition model for predicting strengthening of ion irradiated Fe18Cr alloy

Pengcheng Zhu, Yajie Zhao, Yan-Ru Lin, Jean Henry, Steven J. Zinkle

Summary: This study investigates the effect of heavy-ion irradiation on radiation hardening in high-purity binary alloy Fe18Cr. Nanoindentation testing and high-quality TEM imaging were conducted to extract hardness and microstructure information. The strength factor was accurately calculated based on the detailed TEM characterization of irradiated microstructures, and a refined hardening superposition method was applied to quantify the mechanical properties of ion-irradiated materials.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Synthesis and characterization of sodium-aluminophosphate based glass-ceramics containing NZP phase for HLW immobilization

Bin Wu, Haixia Ning, Hanzhen Zhu, Jianjun Chen, Kang Wang, Daiyu Zhang, Fu Wang, Qilong Liao

Summary: This study discusses the effects of ZrO2 and B2O3 on the phase composition and properties of SAP-based glass-ceramics. The results show that ZrO2 addition improves the formation of NZP phase while restricting the crystallization of AlPO4 phases. The correct ratios of ZrO2 and B2O3 allow only the formation of NZP phase within the SAP glass.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

High temperature oxidation of cold spray Cr-coated accident tolerant zirconium-alloy cladding with Nb diffusion barrier layer

Hwasung Yeom, Greg Johnson, Benjamin Maier, Tyler Dabney, Kumar Sridharan

Summary: Cr-Nb bilayer coatings were developed using cold spray deposition to improve the limiting operational temperature of Cr-coated Zr-alloy system. The coatings exhibited outstanding oxidation resistance at high temperatures and formed continuous intermetallic compound layers at the interfaces.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Irradiation creep measurement and microstructural analysis of chromium nitride-coated zirconium alloy using pressurized tubes

Padhraic L. Mulligan, Andrew T. Nelson, Chad M. Parish, Patrick A. Champlin, Xiang Chen, Daniel Morrall, Jason M. Harp

Summary: Environmental barrier coatings are being developed to reduce oxidation and embrittlement in Zr-based materials. Chromium nitride is a candidate for this application, but understanding its impact on irradiation-induced creep and microstructure is critical.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Determination of impurity distribution in IG-11/110 nuclear graphite using TOF-SIMS

Dexuan Yan, Xinlei Cao, Ke Shen

Summary: This study investigated the purification mechanism of polycrystalline graphite by comparing IG-11 graphite with IG-110 nuclear grade graphite. The analysis revealed that metallic impurities in IG-11 were primarily segregated within graphite porosities, while IG-110 demonstrated a significant reduction in impurities. This research contributes to the development of innovative graphite purification techniques for greater purity and stronger oxidation resistance.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Study of multi-pebble oxidation process in high-temperature gas-cooled reactor

Wei Xu, Wei Peng, Lei Shi, Qi Sun

Summary: This paper investigates the oxidation and shape evolution of matrix graphite in high temperature gas-cooled reactors during air-ingress accidents. A reaction kinetics model is established and computational fluid dynamics with a dynamic mesh method is used to simulate the oxidation process. The results show that the geometric shape of graphite changes significantly with increasing flow rate, and the graphite pebbles tend to form a structure with a narrow front and wide tail.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Synthesis and characterization of super occluded LiCl-KCl in zeolite-4A as a chloride salt waste form intermediate

Allison Harward, Casey Elliott, Michael Shaltry, Krista Carlson, Tae-Sic Yoo, Guy Fredrickson, Michael Patterson, Michael F. Simpson

Summary: This paper investigates the hygroscopic properties of eutectic LiCl-KCl absorbed into zeolite-4A. The study finds that water absorption and corrosion worsen with increasing salt loading. It also suggests that the salt can be stored in a non-inert atmosphere for a certain period of time.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Hermeticity of SiC/SiC composite and monolithic SiC tubes irradiated under radial high-heat flux

Takaaki Koyanagi, Xunxiang Hu, Christian M. Petrie, Gyanender Singh, Caen Ang, Christian P. Deck, Weon-Ju Kim, Daejong Kim, James Braun, Yutai Katoh

Summary: This study provides critical experimental data on the effects of irradiation on the hermeticity of SiC composite cladding, finding that irradiation can cause a decrease in hermeticity and cracking, and coating the outer surface can mitigate the cracking issue.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Theoretical estimation of multiple hydrogen isotope content in metal layers slowly co-deposited from plasmas

S. Krat, A. Prishvitsyn, Yu. Gasparyan

Summary: This study proposes a probabilistic and diffusion-based model to describe the co-deposition of multiple hydrogen isotopes with slowly grown metal layers. The model calculates the relative concentrations of different hydrogen isotopes in the co-deposited metal layers. It is found that if hydrogen isotopes have different detrapping energies, only the isotope with the highest detrapping energy shows a monotonic decrease in concentration with deposition temperature. Furthermore, the study evaluates the uncertainty of tritium concentration in the co-deposited layer based on the uncertainty in detrapping energy of tritium and deuterium, predicting a >10% tritium concentration uncertainty for a 0.01 eV difference.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Computational study of thermophysical properties of cerium doped UO2: Effect of oxidation states

Tijo Vazhappilly, Arup Kumar Pathak

Summary: This study investigates the effect of Ce atom substitution in UO2 on its thermophysical properties using density functional theory. The results show that the Ce substitution levels and the oxidation state of Ce/U atoms strongly influence the band structure and specific heat capacity of the UO2 lattice. These findings provide important insights into the fuel properties of UO2 under reactor conditions.

JOURNAL OF NUCLEAR MATERIALS (2024)

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