Bin Qian scite author profile

The new alpha-Fe(Te,Se) superconductors share the common iron building block and ferminology with the LaFeAsO and BaFe(2)As(2) families of superconductors. In contrast with the predicted commensurate spin-density-wave order at the nesting wave vector (pi, 0), a completely different magnetic order with a composition tunable propagation vector (deltapi, deltapi) was determined for the parent compound Fe_{1+y}Te in this powder and single-crystal neutron diffraction study. The new antiferromagnetic order survives as a short-range one even in the highest T_{C} sample. An alternative to the prevailing nesting Fermi surface mechanism is required to understand the latest family of ferrous superconductors.

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Superconductivity close to magnetic instability inFe(Se1−xTex)
Fang
¹
,
Pham
²
,
Qian
³

et al. 2008
Phys. Rev. B
656
52
586
0
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We report our study of the evolution of superconductivity and the phase diagram of the ternary Fe(Se 1-x Te x ) 0.82 (0 ≤ x ≤ 1.0) system. We discovered a new superconducting phase with T c , max = 14 K in the 0.3 < x < 1.0 range. This superconducting phase is suppressed when the sample composition approaches the end member FeTe 0.82 , which exhibits an incommensurate antiferromagnetic order. We discuss the relationship between the superconductivity and magnetism of this material system in terms of recent results from neutron scattering measurements. Our results and analyses suggest that superconductivity in this new class of Fe-based compounds is associated with magnetic fluctuations, and therefore may be unconventional in nature.

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From (π,0) magnetic order to superconductivity with (π,π) magnetic resonance in Fe1.02Te1−xSex

et al. 2010

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The iron chalcogenide Fe(1+y)(Te(1-x)Se(x)) is structurally the simplest of the Fe-based superconductors. Although the Fermi surface is similar to iron pnictides, the parent compound Fe(1+y)Te exhibits antiferromagnetic order with an in-plane magnetic wave vector (pi,0) (ref. 6). This contrasts the pnictide parent compounds where the magnetic order has an in-plane magnetic wave vector (pi,pi) that connects hole and electron parts of the Fermi surface. Despite these differences, both the pnictide and chalcogenide Fe superconductors exhibit a superconducting spin resonance around (pi,pi) (refs 9, 10, 11). A central question in this burgeoning field is therefore how (pi,pi) superconductivity can emerge from a (pi,0) magnetic instability. Here, we report that the magnetic soft mode evolving from the (pi,0)-type magnetic long-range order is associated with weak charge carrier localization. Bulk superconductivity occurs as magnetic correlations at (pi,0) are suppressed and the mode at (pi, pi) becomes dominant for x>0.29. Our results suggest a common magnetic origin for superconductivity in iron chalcogenide and pnictide superconductors.

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Spin Gap and Resonance at the Nesting Wave Vector in SuperconductingFeSe0.4Te0.6

et al. 2009

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Neutron scattering is used to probe magnetic excitations in FeSe_{0.4}Te_{0.6} (T_{c} = 14 K). Low energy spin fluctuations are found with a characteristic wave vector (1/21/2L) that corresponds to Fermi surface nesting and differs from Q_{m} = (delta01/2) for magnetic ordering in Fe_{1+y}Te. A spin resonance with variant Planck's over 2piOmega_{0} = 6.51(4) meV approximately 5.3k_{B}T_{c} and variant Planck's over 2piGamma = 1.25(5) meV develops in the superconducting state from a normal state continuum. We show that the resonance is consistent with a bound state associated with s_{+/-} superconductivity and imperfect quasi-2D Fermi surface nesting.

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Charge-carrier localization induced by excess Fe in the superconductorFe1+yTe1−xSex
Liu
¹
,
Ke
²
,
Qian
³

et al. 2009
Phys. Rev. B
251
52
238
2
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We have investigated the effect of Fe nonstoichiometry on properties of the Fe 1+y (Te, Se) superconductor system by means of resistivity, Hall coefficient, magnetic susceptibility, and specific heat measurements. We find that the excess Fe at interstitial sites of the (Te, Se) layers not only suppresses superconductivity, but also results in a weakly localized electronic state. We argue that these effects originate from the magnetic coupling between the excess Fe and the adjacent Fe square planar sheets, which favors a short-range magnetic order.

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Bin Qian

Tunable (δπ,δπ)-Type Antiferromagnetic Order inα-Fe(Te,Se) Superconductors

Superconductivity close to magnetic instability inFe(Se1−xTex)
Fang
¹
,
Pham
²
,
Qian
³

et al. 2008
Phys. Rev. B
656
52
586
0
View full text Add to dashboard Cite

From (π,0) magnetic order to superconductivity with (π,π) magnetic resonance in Fe1.02Te1−xSex

Spin Gap and Resonance at the Nesting Wave Vector in SuperconductingFeSe0.4Te0.6

Charge-carrier localization induced by excess Fe in the superconductorFe1+yTe1−xSex
Liu
¹
,
Ke
²
,
Qian
³

et al. 2009
Phys. Rev. B
251
52
238
2
View full text Add to dashboard Cite

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Bin Qian

Tunable (δπ,δπ)-Type Antiferromagnetic Order inα-Fe(Te,Se) Superconductors

Superconductivity close to magnetic instability inFe(Se1−xTex)Fang1, Pham2, Qian3 et al. 2008Phys. Rev. B656525860View full textAdd to dashboardCite

From (π,0) magnetic order to superconductivity with (π,π) magnetic resonance in Fe1.02Te1−xSex

Spin Gap and Resonance at the Nesting Wave Vector in SuperconductingFeSe0.4Te0.6

Charge-carrier localization induced by excess Fe in the superconductorFe1+yTe1−xSexLiu1, Ke2, Qian3 et al. 2009Phys. Rev. B251522382View full textAdd to dashboardCite

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Superconductivity close to magnetic instability inFe(Se1−xTex)
Fang
¹
,
Pham
²
,
Qian
³

et al. 2008
Phys. Rev. B
656
52
586
0
View full text Add to dashboard Cite

Charge-carrier localization induced by excess Fe in the superconductorFe1+yTe1−xSex
Liu
¹
,
Ke
²
,
Qian
³

et al. 2009
Phys. Rev. B
251
52
238
2
View full text Add to dashboard Cite