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論文

The Joint evaluated fission and fusion nuclear data library, JEFF-3.3

Plompen, A. J. M.*; Cabellos, O.*; De Saint Jean, C.*; Fleming, M.*; Algora, A.*; Angelone, M.*; Archier, P.*; Bauge, E.*; Bersillon, O.*; Blokhin, A.*; et al.

European Physical Journal A, 56(7), p.181_1 - 181_108, 2020/07

本論文では、核分裂と核融合のための統合評価済み核データファイルのバージョン3.3(JEFF-3.3)について説明する。中性子との反応が重要な核種の$$^{235}$$U, $$^{238}$$U, $$^{239}$$Pu, $$^{241}$$Am, $$^{23}$$Na, $$^{59}$$Ni, Cr, Cu, Zr, Cd, Hf, Au, Pb, Biについて、新しい核データ評価結果を示す。JEFF-3.3には、核分裂収率, 即発核分裂スペクトル, 核分裂平均中性子発生数の新しいデータが含まれる。更に、放射崩壊, 熱中性子散乱, ガンマ線放出, 中性子による放射化, 遅発中性子, 照射損傷に関する新しいデータも含まれている。JEFF-3.3は、TENDLプロジェクトのファイルで補完しており、光子, 陽子, 重陽子, 三重陽子, $$^{3}$$He核, アルファ粒子による反応ライブラリについては、TENDL-2017から採用した。また、不確かさの定量化に対する要求の高まりから、多くの共分散データが新しく追加された。JEFF-3.3を用いた解析の結果と臨界性, 遅発中性子割合, 遮蔽, 崩壊熱に対するベンチマーク実験の結果を比較することにより、JEFF-3.3は幅広い原子核技術の応用分野、特に原子力エネルギーの分野において優れた性能を持っていることが分かった。

論文

The Temperature evolution of the magnetic correlations in pure and diluted spin ice Ho$$_{2-x}$$Y$$_{x}$$Ti$$_{2}$$O$$_{7}$$

Chang, L.-J.; Su, Y.*; Kao, Y.-J.*; Chou, Y. Z.*; 加倉井 和久; Mittal, R.*; Schneider, H.*; Br$"u$ckel, T.*; Balakrishnan, G.*; Lees, M. R.*

Physica B; Condensed Matter, 406(12), p.2393 - 2396, 2011/06

 被引用回数:1 パーセンタイル:93.41(Physics, Condensed Matter)

Diffuse polarized neutron scattering studies have been carried out on single crystals of pyrochlore spin ice Ho$$_{2-x}$$Y$$_{x}$$Ti$$_{2}$$O$$_{7}$$ (x = 0, 0.3, and 1) to investigate the effects of doping and anisotropy on spin correlations in the system. For all the samples studied the spin flip (SF) diffuse scattering (i.e. the in-plane component) reveals that the spin correlations can be described using a nearest-neighbour spin ice model (NNSM) at higher temperatures ($$T$$ = 3.6 K) and a dipolar spin ice model (DSM) as the temperature is reduced ($$T$$ = 30 mK). In this paper, we focus on the experimental results of the highly doped spin ice HoYTi$$_{2}$$O$$_{7}$$ and compare our results with pure spin ice Ho$$_{2}$$Ti$$_{2}$$O$$_{7}$$.

論文

Magnetic correlations in Ho$$_{x}$$Tb$$_{2-x}$$Ti$$_{2}$$O$$_{7}$$

Chang, L.-J.; Schweika, W.*; Kao, Y.-J.*; Chou, Y. Z.*; Per${ss}$on, J.*; Br$"u$ckel, T.*; Yang, H. C.*; Chen, Y. Y.*; Gardner, J. S.*

Physical Review B, 83(14), p.144413_1 - 144413_7, 2011/04

 被引用回数:3 パーセンタイル:80.94(Materials Science, Multidisciplinary)

Polycrystalline samples of Ho$$_{x}$$Tb$$_{2-x}$$Ti$$_{2}$$O$$_{7}$$ (0 $$<$$ $$x$$ $$<$$ 2) have been prepared and characterized for their structural and magnetic properties. The parent compounds of this solid solution are the spin ice Ho$$_{2}$$Ti$$_{2}$$O$$_{7}$$ and the spin liquid Tb$$_{2}$$Ti$$_{2}$$O$$_{7}$$. The results of specific heat, elastic and inelastic neutron scattering measurements suggest that the very strong single-ion effects of Ho$$_{2}$$Ti$$_{2}$$O$$_{7}$$ and Tb$$_{2}$$Ti$$_{2}$$O$$_{7}$$ persist in the Ho$$_{x}$$Tb$$_{2-x}$$Ti$$_{2}$$O$$_{7}$$ (0 $$<$$ $$x$$ $$<$$ 2) solid solution, whereas the Tb-Ho correlations are weak, resulting in small shifts in the energy scales but with no dramatic effect on the bulk properties.

口頭

Observations of the novel magnetic correlations in the Y doping dipolar spin ice Ho$$_{2-x}$$Y$$_{x}$$Ti$$_{2}$$O$$_{7}$$

Chang, L.-J.; Su, Y.*; Kao, Y.-J.*; Chou, Y. Z.*; Mittal, R.*; Schneider, H.*; Brueckel, T.*; Balakrishan, G.*; Lees, M. R.*

no journal, , 

Diffuse polarized neutron scatterings have been carried out on the pyrochlore spin ice Ho$$_{2-x}$$Y$$_{x}$$Ti$$_{2}$$O$$_{7}$$ (x = 0, 0.3 and 1) single crystals to investigate the doping effects and anisotropy of spin correlations in the system. The crystals were aligned in the (1-10) orientation to coincide with the direction of neutron polarization. The spin flip diffuse scattering (i.e. the in-plane component) reveals an anomalous crossover in the spin correlations from the nearest-neighbor spin ice correlation to a typical dipolar spin ice correlation as the temperature is reduced for all the samples. A signature of strong antiferromagnetic correlation is observed in the non-spin flip channel (i.e. the out-of-plane component), at the same temperatures where the dipolar spin ice correlation appears in the spin flip channel.

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