Azusa Iwai scite author profile

Azusa Iwai

4Publications

97Citation Statements Received

20Citation Statements Given

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Hokkaido University

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Microscopically homogeneous magnetic structure ofLa1−xSrxMnO
Kumagai
¹
,
Iwai
²
,
Tomioka
³

et al. 1999
Phys. Rev. B
42
7
50
1
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A 139 La NMR study was carried out on melt-grown samples of La 1Ϫx Sr x MnO 3 (0рxр0.15). The microscopic magnetic structure of the parent LaMnO 3 was identified as a homogeneous antiferromagnet at low temperatures. Substituted compounds with xу0.1 demonstrate the homogeneous ferromagnetic phase. Only a lightly doped sample with xϭ0.05 shows the coexistence of NMR lines from ferromagnetic and antiferromagnetic phases. ͓S0163-1829͑99͒15901-0͔The lanthanum manganite LaMnO 3 is an antiferromagnetically correlated insulator ͑Mott insulator͒ at all temperatures. It is a parent material for a wide range of the manganites families which are so popular now. Stoichiometric LaMnO 3 below the Néel temperature T N Ϸ140 K exhibits a layerlike antiferromagnetic order; i.e., the ferromagnetically coupled spins within ac planes ͑space group P nma ͒ are antiferromagnetically coupled along b. 1 The low-temperature magnetic structure for real LaMnO 3 samples has been variously reported as spin-canted antiferromagnetic ͑AFM͒, ferromagnetic ͑FM͒, or a domain mixture of the two. This discrepancy is a result of the strong dependence of magnetic properties on the very small variations of the La/Mn ratio and of the oxygen content.Upon substitution of Sr 2ϩ for La 3ϩ , holes are induced at the Fermi level. As a result, the Mn spins first tilt until the system becomes a FM metal at high doping. The most detailed electronic and magnetic phase diagram for La 1Ϫx Sr x MnO 3 based on macroscopic magnetic and transport measurements was published in Ref. 2. It shows a canted AFM insulator for xϽ0.1, FM insulator for 0.1рx Ͻ0.17, and FM metal at xу0.2. The colossal magnetoresistance is typical for the latter part of the diagram which has attracted the main experimental ͑see Ref. 3, and references therein͒ and theoretical 4 interest. The low doping part of the phase diagram received much less attention.As to the microscopic magnetic structure ͑especially in the insulating part of the diagram͒ there has been no complete agreement until now. Recent neutron 5 and NMR ͑Refs. 6 and 7͒ studies came to very different conclusions about the doping range for coexistence of AFM and FM phases in manganites. It should be noted that the question about the real microscopic magnetic structure of this materials seems to be of principal importance in a long discussion between two theoretical models. One of the models was proposed by de Gennes 8 and predicts for undoped and lightly doped LaMnO 3 a homogeneous canted AFM phase at low temperatures. This canted structure allows us to explain the presence of FM peaks in neutron experiments. 1 The alternative model is based on the coexistence of FM and AFM phases and was proposed by Wollan and Koehler. 1 Recently the latter model was developed by Nagaev 9 who considered this phase coexistence as intrinsic feature of the material with its origin to an electronic phase separation similar to high-T c superconductors. 10 NMR of 139 La with its reasonable gyromagnetic ratio (␥ ϭ6.0146 MHz/T), moderate quadrupole moment (Qϭ0....

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³¹P-NMR Study of Low-Energy Spin Excitations in Spin Ladder(VO)₂P₂O₇and Spin DimerVO(HPO₄)0.5H₂OSystems

et al. 1996

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Heat capacity of the electron-doped Pr2−xCexCuO4

Iwai

Abe

Nakajima

et al. 1991

Physica C: Superconductivity

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NMR study on the spin gap in (VO)2P2O7 and VO(HPO4)0.5H2O

et al. 1996

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Azusa Iwai

Microscopically homogeneous magnetic structure ofLa1−xSrxMnO
Kumagai
¹
,
Iwai
²
,
Tomioka
³

et al. 1999
Phys. Rev. B
42
7
50
1
View full text Add to dashboard Cite

³¹P-NMR Study of Low-Energy Spin Excitations in Spin Ladder(VO)₂P₂O₇and Spin DimerVO(HPO₄)0.5H₂OSystems

Heat capacity of the electron-doped Pr2−xCexCuO4

NMR study on the spin gap in (VO)2P2O7 and VO(HPO4)0.5H2O

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Azusa Iwai

Microscopically homogeneous magnetic structure ofLa1−xSrxMnOKumagai1, Iwai2, Tomioka3 et al. 1999Phys. Rev. B427501View full textAdd to dashboardCite

31P-NMR Study of Low-Energy Spin Excitations in Spin Ladder(VO)2P2O7and Spin DimerVO(HPO4)0.5H2OSystems

Heat capacity of the electron-doped Pr2−xCexCuO4

NMR study on the spin gap in (VO)2P2O7 and VO(HPO4)0.5H2O

Contact Info

Product

Resources

About

Microscopically homogeneous magnetic structure ofLa1−xSrxMnO
Kumagai
¹
,
Iwai
²
,
Tomioka
³

et al. 1999
Phys. Rev. B
42
7
50
1
View full text Add to dashboard Cite

³¹P-NMR Study of Low-Energy Spin Excitations in Spin Ladder(VO)₂P₂O₇and Spin DimerVO(HPO₄)0.5H₂OSystems