首页> 外文OA文献 >Static and dynamic interaction between pi and d electrons in organic superconductor beta ''-(BEDT-TTF)(4)(H3O)Fe(C2O4)(3) center dot C6H5Br studied by C-13 NMR spectroscopy

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Static and dynamic interaction between pi and d electrons in organic superconductor beta ''-(BEDT-TTF)(4)(H3O)Fe(C2O4)(3) center dot C6H5Br studied by C-13 NMR spectroscopy

机译：通过C-13 NMR光谱研究有机超导体β''-（BEDT-TTF）（4）（H3O）Fe（C2O4）（3）中心点C6H5Br中pi电子和d电子之间的静态和动态相互作用

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We present the results of C-13 NMR experiments in an organic superconductor with localized Fe spins beta ''-(BEDT-TTF)(4)[(H3O)Fe(C2O4)(3)] center dot C6H5Br. We reveal the antiferromagnetic coupling between Fe d spins and pi spins, which creates an exchange field antiparallel to the external field direction at the pi electrons. In addition to the static effects of Fe spins, we show from the nuclear spin-lattice relaxation rate measurement that the magnetic fluctuations generated by Fe spins are suppressed at low temperatures and high magnetic fields. These conditions are suitable to stabilize the field-induced superconductivity by the field compensation mechanism. After the suppression of Fe-spin dynamics by a magnetic field of 19 T, we observed the underlying pi-electron contribution. We discuss a possible anomaly in the pi-electron system.

机译：我们提出的有机超导体与局部Fe自旋β''-（BEDT-TTF）（4）[（H3O）Fe（C2O4）（3）]中心点C6H5Br的C-13 NMR实验结果。我们揭示了Fe d自旋和pi自旋之间的反铁磁耦合，这会在pi电子处创建一个与外场方向反平行的交换场。除了铁自旋的静态影响外，我们从核自旋晶格弛豫率测量结果还表明，在低温和高磁场下，铁自旋产生的磁波动得到了抑制。这些条件适合于通过场补偿机制来稳定场感应的超导性。在19 T磁场抑制Fe自旋动力学之后，我们观察到了潜在的pi电子贡献。我们讨论了π电子系统中可能存在的异常。

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Ihara Y.; Futami Y.; Kawamoto A.; Matsui K.; Goto T.; Sasaki T.; Benmansour S.; Gomez-Garcia C. J.;
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年度 2016
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1. Static and dynamic interaction between pi and d electrons in organic superconductor beta ''-(BEDT-TTF)(4)[(H3O)Fe(C2O4)(3)] center dot C6H5Br studied by C-13 NMR spectroscopy [J] . Ihara Y., Futami Y., Kawamoto A., Physical review, B . 2016,第6期

机译：C-13 NMR光谱研究有机超导体β''-（BEDT-TTF）（4）[（H3O）Fe（C2O4）（3）]中心点C6H5Br中pi电子与d电子之间的静态和动态相互作用
2. Static and dynamic interaction between π and d electrons in organic superconductor β"-(BEDT-TTF)_4[(H_3O)Fe(C_2O_4)3] • C_6H_5Br studied by ~(13)C NMR spectroscopy [J] . Y. Ihara, Y. Futami, A. Kawamoto, Physical review. B, Condensed Matter And Materals Physics . 2016,第6期

机译：〜（13）C NMR光谱研究有机超导体β“-（BEDT-TTF）_4 [（H_3O）Fe（C_2O_4）3]•C_6H_5Br中π电子和d电子之间的静态和动态相互作用
3. New superconducting charge-transfer salts (BEDT-TTF)(4)[A center dot M(C2O4)(3)]center dot C6H5NO2 (A = H3O or NH4, M = Cr or Fe, BEDT-TTF = bis(ethylenedithio)tetrathiafulvalene) [J] . Rashid S., Day P., Howard JAK., Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology . 2001,第9期

机译：新的超导电荷转移盐（BEDT-TTF）（4）[中心点M（C2O4）（3）]中心点C6H5NO2（A = H3O或NH4，M = Cr或Fe，BEDT-TTF =双（乙撑二硫）四硫富瓦烯
4. Carrier dynamics of electrons in n-type modulation-doped InAs/GaAs quantum dot structure studied using THz time-domain spectroscopy [C] . Seung Jae Oh, Chul Kang, In Hee Maeng, International Conference on the Physics of Semiconductors . 2007

机译：使用THz时域光谱研究的N型调制掺杂INAS / GAAS量子点结构中电子的载体动力学
5. Electron relaxation and electron transfer dynamics in semiconductor quantum dots studied by femtosecond time-resolved spectroscopy. [D] . Blackburn, Jeffrey Lee. 2004

机译：飞秒时间分辨光谱学研究半导体量子点中的电子弛豫和电子转移动力学。
6. Ultraviolet photochemical reaction of Fe(III)(C2O4)33− in aqueous solutions studied by femtosecond time-resolved X-ray absorption spectroscopy using an X-ray free electron laser [O] . Y. Ogi, Y. Obara, T. Katayama, 2015

机译：飞秒时间分辨X射线吸收光谱法使用X射线自由电子激光研究Fe（III）（C2O4）3 3-在水溶液中的紫外光化学反应
7. C-13 NMR study of the charge-ordered state near the superconducting transition in the organic superconductor β"-(BEDT-TTF)(4)[(H3O)Ga(C2O4)(3)]⋅C6H5NO2 [O] . Ihara, Y., Jeong, M., Mayaffre, H., 2014

机译：C-13 NMR研究有机超导体β“-（BEDT-TTF）（4）[（H3O）Ga（C2O4）（3）]·C6H5NO2中超导转变附近的电荷有序状态

Static and dynamic interaction between pi and d electrons in organic superconductor beta ''-(BEDT-TTF)(4)(H3O)Fe(C2O4)(3) center dot C6H5Br studied by C-13 NMR spectroscopy

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