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17 results on '"Engetsu, F."'

1. High-$T_c$ Iron-phosphide Superconductivity Enhanced by Reemergent Antiferromagnetic Spin Fluctuations in (Sr$_4$Sc$_2$O$_6$)Fe$_2$(As$_{1-x}$P$_{x}$)$_2$ probed by NMR

Author

Sakano, F., Nakamura, K., Kouchi, T., Shiota, T., Engetsu, F., Suzuki, K., Horikawa, R., Yashima, M., Miyasaka, S., Tajima, S., Iyo, A., Guo, Y. -F., Yamaura, K., Takayama-Muromachi, E., Yogi, M., and Mukuda, H.

Subjects
Condensed Matter - Superconductivity
Abstract

We report a systematic NMR study on [Sr$_4$Sc$_2$O$_6$]Fe$_2$(As$_{1-x}$P$_x$)$_2$, for which the local lattice parameters of the iron-pnictogen (Fe$Pn$) layer are similar to those of the series LaFe(As$_{1-x'}$P$_{x'}$)O, which exhibit two segregated antiferromagnetic (AFM) order phases, AFM1 at $x'$=0-0.2 and AFM2 at $x'$=0.4-0.7. Our results revealed that the parent AFM1 phase at $x$=0 disappears at $x$=0.3-0.4, corresponding to a pnictogen height ($h_{pn}$) from the Fe-plane of 1.3-1.32 \AA, which is similar to that of LaFe(As$_{1-x'}$P$_{x'}$)O and various parent Fe-pnictides. By contrast, the AFM2 order reported for LaFe(As$_{0.4}$P$_{0.6}$)O does not appear at $x\sim$0.8, although the local lattice parameters of the Fe$Pn$ layer and the microscopic electronic states are quite similar. Despite the absence of the {\it static} AFM2 order, reemergent {\it dynamical} AFM spin fluctuations were observed at approximately $x\sim$0.8, which can be attributed to the instability of the AFM2 phase. We suggest this re-enhancement of AFM spin fluctuations to play a significant role in enhancing the $T_c$ to 17 K for $x$=0.8-1. Finally, we discuss the universality and diversity of the complicated magnetic ground states from a microscopic point of view, including the difference in the origins of the AFM1 and AFM2 phases, and their relations with the high superconducting transitions in Fe-pnictides., Comment: 10 pages, 8 figures

Published
2019
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3. Evolution of the Phase Diagram of LaFeP$_{1-x}$As$_{x}$O$_{1-y}$F$_{y}$ ($y$ = 0 -- 0.1)

Author

Lai, K. T., Takemori, A., Miyasaka, S., Engetsu, F., Mukuda, H., and Tajima, S.

Subjects
Condensed Matter - Superconductivity
Abstract

P/As-substitution effects on the transport properties of polycrystalline LaFeP$_{1-x}$As$_{x}$O$_{1-y}$F$_{y}$ with $x$ = 0 -- 1.0 and $y$ = 0 -- 0.1 have been studied. In the F-free samples ($y$ = 0), a new superconducting (SC) dome with a maximum $T_{c}$ of 12 K is observed around $x$ = 0 -- 0.3. This is separated from another SC dome with $T_{c}$ $\sim$10 K at $x$ = 0.6 -- 0.8 by an antiferromagnetic region ($x$ = 0.3 -- 0.6), giving a two-dome feature in the $T_{c}-x$ phase diagram. As $y$ increases, the two SC domes merge together, changing to a double peak structure at $y$ = 0.05 and a single dome at $y$ = 0.1. This proves the presence of two different Fermi surface states in this system., Comment: accepted by PRB

Published
2014
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5. Enhancement of Superconducting Transition Temperature Due to Antiferromagnetic Spin Fluctuations in Iron-pnictides LaFe(As_{1-x}P_x)(O_{1-y}F_y) : 31P-NMR Studies

Author

Mukuda, H., Engetsu, F., Yamamoto, K., Lai, K. T., Yashima, M., Kitaoka, Y., Takemori, A., Miyasaka, S., and Tajima, S.

Subjects
Condensed Matter - Superconductivity
Abstract

Systematic P-NMR studies on LaFe(As_{1-x}P_x)(O_{1-y}F_y) with y=0.05 and 0.1 have revealed that the antiferromagnetic spin fluctuations (AFMSFs) at low energies are markedly enhanced around x=0.6 and 0.4, respectively, and as a result, Tc exhibits respective peaks at 24 K and 27 K against the P-substitution for As. This result demonstrates that the AFMSFs are responsible for the increase in Tc for LaFe(As_{1-x}P_x)(O_{1-y}F_y) as a primary mediator of the Cooper pairing. From a systematic comparison of AFMSFs with a series of (La_{1-z}Y_z)FeAsO_{\delta} compounds in which Tc reaches 50 K for z=0.95, we remark that a moderate development of AFMSFs causes the Tc to increase up to 50 K under the condition that the local lattice parameters of FeAs tetrahedron approaches those of the regular tetrahedron. We propose that the T_c of Fe-pnictides exceeding 50 K is maximized under an intimate collaboration of the AFMSFs and other factors originating from the optimization of the local structure., Comment: 6 pages, 8 figures, Accepted for publication in Phys. Rev. B

Published
2014
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6. Unconventional multiband superconductivity with nodes in single-crystalline SrFe2(As_0.65P_0.35)2 as seen via 31P-NMR and specific heat

Author

Dulguun, T., Mukuda, H., Kobayashi, T., Engetsu, F., Kinouchi, H., Yashima, M., Kitaoka, Y., Miyasaka, S., and Tajima, S.

Subjects
Condensed Matter - Superconductivity
Abstract

We report 31P-NMR and specific heat measurements on an iron (Fe)-based superconductor SrFe2(As0.65P0.35)2 with Tc=26 K, which have revealed the development of antiferromagnetic correlations in the normal state and the unconventional superconductivity(SC) with nodal gap dominated by the gapless low-lying quasiparticle excitations. The results are consistently argued with an unconventional multiband SC state with the gap-size ratio of different bands being significantly large; the large full gaps in s\pm-wave state keep Tc high, whereas a small gap with a nodal-structure causes gapless feature under magnetic field. The present results will develop an insight into the strong material dependence of SC-gap structure in Fe-based superconductors., Comment: 6 pages, 5 figures, 1 table

Published
2011
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7. High- Tc iron phosphide superconductivity enhanced by reemergent antiferromagnetic spin fluctuations in [Sr4Sc2O6]Fe2(As1−xPx)2 probed by NMR

Author

Sakano, F., primary, Nakamura, K., additional, Kouchi, T., additional, Shiota, T., additional, Engetsu, F., additional, Suzuki, K., additional, Horikawa, R., additional, Yashima, M., additional, Miyasaka, S., additional, Tajima, S., additional, Iyo, A., additional, Guo, Y. -F., additional, Yamaura, K., additional, Takayama-Muromachi, E., additional, Yogi, M., additional, and Mukuda, H., additional

Published
2019
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14. Enhancement of superconducting transition temperature due to antiferromagnetic spin fluctuations in iron pnictides LaFe(As1-xPx)(O1-yFy): 31P-NMR studies.

Author

Mukuda, H., Engetsu, F., Yamamoto, K., Lai, K. T., Yashima, M., Kitaoka, Y., Takemori, A., Miyasaka, S., and Tajima, S.

Subjects
*ANTIFERROMAGNETIC materials, *SPIN-spin interactions, *CRYSTAL lattices, *THERMAL conductivity, *MAGNETIC fields
Abstract

Systematic 31P-NMR studies on LaFe(As1-xPx)(O1-yFy) with y=0.05 and 0.1 have revealed that the antiferromagnetic spin fluctuations (AFMSFs) at low energies are markedly enhanced around x=0.6 and 0.4, respectively, and as a result, Tc exhibits respective peaks at 24 and 27 K against the P substitution for As. This result demonstrates that the AFMSFs are responsible for the increase in Tc for LaFe(As1-xPx)(O1-yFy) as a primary mediator of the Cooper pairing. From a systematic comparison of AFMSFs with a series of (La1-zYz)FeAsOδ compounds in which Tc reaches 50 K for z=0.95, we remark that a moderate development of AFMSFs causes Tc to increase up to 50 K under the condition that the local lattice parameters of the FeAs tetrahedron approach those of the regular tetrahedron. We propose that Tc of Fe-pnictides exceeding 50 K is maximized under an intimate collaboration of the AFMSFs and other factors originating from the optimization of the local structure. [ABSTRACT FROM AUTHOR]

Published
2014
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16. Evolution of the phase diagram of LaFeP1-xAsxO1-yFy (y = 0-0.1).

Author

Lai, K. T., Takemori, A., Miyasaka, S., Engetsu, F., Mukuda, H., and Tajima, S.

Subjects
*POLYCRYSTALLINE semiconductors, *POLYCRYSTALLINE silicon, *ANTIFERROMAGNETISM, *ANTIFERROMAGNETIC materials, *CONDENSED matter physics, *CONDENSED matter
Abstract

P/As substitution effects on the transport properties of polycrystalline LaFeP1-xAsxO1-yFy with x = 0-1.0 and y = 0-0.1 have been studied. In the F-free samples (y = 0), a superconducting (SC) dome with a maximum Tc of 12 K is observed around x = 0-0.3. This is separated from another SC dome with Tc ∼ 10 K at x = 0.6-0.8 by an antiferromagnetic region (x = 0.3-0.6), giving a two-dome feature in the Tc - x phase diagram. As y increases, the two SC domes merge together, changing to a double-peak structure at y = 0.05 and a single dome at y = 0.1. This proves the presence of two different Fermi surface states in this system. [ABSTRACT FROM AUTHOR]

Published
2014
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17. Unconventional multiband superconductivity with nodes in single-crystalline SrFe2(As0.65P0.35)2 as seen via 31P NMR and specific heat.

Author

Dulguun, T., Mukuda, H., Kobayashi, T., Engetsu, F., Kinouchi, H., Yashima, M., Kitaoka, Y., Miyasaka, S., and Tajima, S.

Subjects
*SUPERCONDUCTIVITY, *SINGLE crystals, *NUCLEAR magnetic resonance, *SPECIFIC heat, *ANTIFERROMAGNETISM, *QUASIPARTICLES
Abstract

We report 31P-NMR and specific-heat measurements on an iron (Fe) based superconductor SrFe2(As0.65P0.35)2 with Tc = 26 K, which have revealed the development of antiferromagnetic correlations in the normal state and unconventional superconductivity (SC) with the nodal gap dominated by the gapless low-lying quasiparticle excitations. The results are consistently argued with an unconventional multiband SC state with the gap-size ratio of different bands being significantly large; the large full gaps in the s±-wave state keep Tc high, whereas a small gap with a nodal structure causes a gapless feature under magnetic field. The present results will help develop insight into the strong material dependence of the SC gap structure in Fe-based superconductors. [ABSTRACT FROM AUTHOR]

Published
2012
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