S. Y. Li scite author profile

S. Y. Li

5Publications

118Citation Statements Received

103Citation Statements Given

How they've been cited

199

How they cite others

Affiliations

University of Science and Technology of China

Publications

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Anisotropic resistivities of single-crystalBi2Sr2CaCu2
Chen
¹
,
Yu
²
,
Ruan
³

et al. 1998
Phys. Rev. B
52
6
43
0
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The in-plane resistivity ab (T) and the out-of-plane c (T) have been extensively measured for the pure single-crystal Bi 2 Sr 2 CaCu 2 O 8ϩ␦ (Bi2212) annealed at different oxygen pressure. The c (T) and anisotropy ͓ c (T)/ ab (T)͔ decreases rapidly with increasing carrier concentration. It is found that the out-of-plane resistivity decreases linearly with temperature down to about 120 K for the overdoped sample; its resistivity anisotropy is a weak temperature dependence. In the ab plane, the anisotropy is very weak and nearly independent of temperature. The data of c (T) and c (T)/ ab (T) are well fitted by the bipolaron theory proposed by Alexandrov and Mott. ͓S0163-1829͑98͒05945-1͔

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Normal state resistivity, upper critical field, and Hall effect in superconducting perovskiteMgCNi3

Fan

Chen

et al. 2001

Phys. Rev. B

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The normal state resistivtity, upper critical field H c2 and Hall coefficientAbove 70 K, ρ(T ) fits well curve predicted by Bloch-Grüneisen theory consistently with electron-phonon scattering. H c2 (0) was estimated to be about 15.0 Tesla within the weak-coupling BCS theory, and the superconducting coherence length ξ(0) is approximately 47Å. R H of M gCN i 3 is negative for the whole temperature range which definitely indicates that the carrier in M gCN i 3 is electron-type. R H is temperature independent between T c and ∼ 140 K. Above ∼ 140 K, the magnitude of R H decreases as temperature rises. At T = 100 K, the carrier density is 1.0 × 10 22 /cm 3 , which is comparable with that in perovskite (Ba, K)BiO 3 , and less than that of the metallic binary M gB 2 .

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Transport properties and specific heat ofRuSr2GdCu2
Chen
¹
,
Sun
²
,
Wang
³

et al. 2001
Phys. Rev. B
52
5
13
0
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Effects of doping on phonon Raman scattering in the Bi-based 2212 system

et al. 1998

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have been characterized by x-ray-diffraction and Ramanscattering measurements. It is found that the c-axis parameter decreases with increasing doping concentration ͑Pr or La͒ or oxygen content. The softening of the O(2) Sr A g mode corresponds to the decrease of the c-axis parameter. The effect of Pr substitution for Ca on this mode is smaller than that of La substitution for Sr. The shift of the O(1) Cu B 1g mode is related to the ionic size of the doping element. The O(3) Bi A g mode does not exhibit remarkable frequency shift since the Bi-O(3)-Bi force constant nearly remains unchanged upon doping. The effect of oxygen content on the O(2) Sr A g mode in the Bi2212 system is in contrast to that on the corresponding O(4) Ba A g mode in the Y123 system. Change in valence is the dominating effect causing the frequency shift of the O(2) Sr A g mode.

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Thermopower and thermal conductivity of superconducting perovskiteMgCNi3

et al. 2002

Phys. Rev. B

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The thermopower and thermal conductivity of superconducting perovskite M gCN i 3 (T c ≈ 8 K) have been studied. The thermopower is negative from room temperature to 10 K. Combining with the negative Hall coefficient reported previously, the negative thermopower definetly indicates that the carrier in M gCN i 3 is electron-type. The nonlinear temperature dependence of thermopower below 150 K is explained by the electron-phonon interaction renormalization effects. The thermal conductivity is of the order for intermetallics, larger than that of borocarbides and smaller than M gB 2 . In the normal state, the electronic contribution to the total thermal conductivity is slightly larger than the lattice contribution. The transverse magnetoresistance of M gCN i 3 is also measured. It is found that the classical Kohler's rule is valid above 50 K. An electronic crossover occures at T * ∼ 50K, resulting in the abnormal behavior of resistivity, thermopower, and magnetoresistance below 50 K.

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S. Y. Li

Anisotropic resistivities of single-crystalBi2Sr2CaCu2
Chen
¹
,
Yu
²
,
Ruan
³

et al. 1998
Phys. Rev. B
52
6
43
0
View full text Add to dashboard Cite

Normal state resistivity, upper critical field, and Hall effect in superconducting perovskiteMgCNi3

Transport properties and specific heat ofRuSr2GdCu2
Chen
¹
,
Sun
²
,
Wang
³

et al. 2001
Phys. Rev. B
52
5
13
0
View full text Add to dashboard Cite

Effects of doping on phonon Raman scattering in the Bi-based 2212 system

Thermopower and thermal conductivity of superconducting perovskiteMgCNi3

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S. Y. Li

Anisotropic resistivities of single-crystalBi2Sr2CaCu2Chen1, Yu2, Ruan3 et al. 1998Phys. Rev. B526430View full textAdd to dashboardCite

Normal state resistivity, upper critical field, and Hall effect in superconducting perovskiteMgCNi3

Transport properties and specific heat ofRuSr2GdCu2Chen1, Sun2, Wang3 et al. 2001Phys. Rev. B525130View full textAdd to dashboardCite

Effects of doping on phonon Raman scattering in the Bi-based 2212 system

Thermopower and thermal conductivity of superconducting perovskiteMgCNi3

Contact Info

Product

Resources

About

Anisotropic resistivities of single-crystalBi2Sr2CaCu2
Chen
¹
,
Yu
²
,
Ruan
³

et al. 1998
Phys. Rev. B
52
6
43
0
View full text Add to dashboard Cite

Transport properties and specific heat ofRuSr2GdCu2
Chen
¹
,
Sun
²
,
Wang
³

et al. 2001
Phys. Rev. B
52
5
13
0
View full text Add to dashboard Cite