Superconductivity in Bismuth Oxide Compounds

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Presentation transcript:

Superconductivity in Bismuth Oxide Compounds Kitaoka Lab. Takashi MATSUMURA Mirza H. K. Rubel Angewandte Chemie International Edition Volume 53, Issue 14 B. A. Baumert Journal of Superconductivity, Vol. 8, No. 1, 1995 H. Matsuura and K. Miyake, J. Phys. Soc. Jpn. 81 (2012) 113705 R. A. Schweinfurth et al., Appl. Phys. Lett. 61 (1992)

Contents Introduction Bismuth oxide compounds Summary Superconductors Bi-oxide compared with Cuprate Bismuth oxide compounds Ba 1−x K x Bi O 3 ( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12 Summary

What is Superconductors Zero resistivity Perfect diamagnetism Superconductivity is caused by formation of an electron pair. Introduction http://allnewscience.blogspot.jp/2010/07/anti-gravity.html

History of Superconductors 1975 Tcmax~12K spin BaPbXBi1-XO3 1988 TCmax~30K Spin + orbital Ba1-XKXBiO3 phonon Introduction

High 𝑇 𝑐 Superconductors Introduction

Bi-oxide compared with Cuprate Ba 1−x K x Bi O 3 LaSrCuO 3D 2D Introduction

Bi-oxide compared with Cuprate ＥｎｅｒｇｙＥｎｅｒｇｙ ? (6s)? (3d)9 (5d)10 Bi Cu Introduction

Valence skipping element Bi [Xe](4f)14(5d)10 Bi4+ Bi4+ (6s) Ｅｎｅｒｇｙ (6 S) 0 (6 S) 1 (6 S) 2 Bi3+ Bi5+ Introduction

BaBiO3 Ba 2+ Bi 4+ Bi 3+ Bi 5+ / O 2− ×3 Ba 1−x K x Bi O 3

BaBiO3 In one dimension charge density wave(CDW) state q Bi5+ -2e Bi3+ Ba 1−x K x Bi O 3

Ba 1−x K x Bi O 3 Ba 2+ → K + (Hole Doping) Electron number is reduced

In one dimension Hole Doping ( Ba 2+ → K + )×2 Bi3+ Bi5+ Bi3+ Bi5+ Ba 1−x K x Bi O 3

In one dimension Hole Doping ( Ba 2+ → K + )×2 Bi3+ Bi5+ Bi5+ Bi5+ Ba 1−x K x Bi O 3

In one dimension Hole Doping ( Ba 2+ → K + )×2 Bi3+ Bi5+ Bi5+ Bi5+ Ba 1−x K x Bi O 3

K doping quantity vs 𝑇 𝑐 Superconductivity Ba 1−x K x Bi O 3

K doping quantity vs 𝑇 𝑐 C D W ? S C Ba 1−x K x Bi O 3

Crystal structure Bi3+ Bi5+ ( Ba 2+ → K + )×2 Ba 1−x K x Bi O 3

Crystal structure K concentration X x=0 x=0.04 x=0.4 Ba 1−x K x Bi O 3

Crystal structure x=0 x=0.04 x=0.4 Ba 1−x K x Bi O 3

After doping Bi3+ Bi5+ Ba 1−x K x Bi O 3

After doping Bi3+ Bi5+ Ba 1−x K x Bi O 3

After doping Bi5+ Bi3+ Ba 1−x K x Bi O 3

After doping Bi5+ Bi3+ Ba 1−x K x Bi O 3

Over doping Bi5+ Bi5+ Bi5+ Bi5+ Bi5+ Bi5+ No electron Cannot be superconductor Ba 1−x K x Bi O 3

Average Bi valence vs 𝑇 𝑐 Average Bi valence is related to 𝑇 𝑐 ! Ba 1−x K x Bi O 3

( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12 BaBi O 3 Ba 4 Bi 4 O 12 Double Perovskite structure ( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12

( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12 High 𝑇 𝑐 Superconductor

Average Bi valence vs 𝑇 𝑐 (BKBO) Similar Behavior!! ( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12

Bi-oxide compounds’ 𝑇 𝑐

Bi-oxide compounds’ 𝑇 𝑐 ( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12 CDW

Summary The theoretical calculation suggests the novel superconductivity with high 𝑇 𝑐 in BKBO is mediated by the CDW fluctuation. It is suggested that ( Na 0.25 K 0.45 ) Ba 3 Bi 4 O 12 has same superconductivity mechanism as BKBO.