22 results on '"Jansen, L."'
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2. On the nature of superconductivity in magnesium diboride MgB2. Quantitative analysis on the basis of indirect-exchange pairing
3. On superconductivity of hole-doped C60 and comparison with electron-doped X3C60 (X=alkali atom)
4. On the relation between (maximum) critical temperature and c-axis layered structure in cuprates.
5. Effect of iodine intercalation on superconductivity in the high-TC series Bi2Sr2CaN−1CuNO2N+4+δ, N=1–3, and in the yttrium doped N=2 compound. A quantitative analysis on the basis of indirect exchange pairing
6. Common origin of superconductivity in hole- and electron-doped cuprates based on indirect-exchange coupling. Doping dependence of chemical potentials
7. Effect of uniaxial stress on critical temperatures of superconducting cuprates: an indirect-exchange approach
8. Indirect-exchange coupling and high-TC superconductivity: analysis of TC as a function of pressure in Hg1−xAuxBa2Ca2Cu3Oy. Comparison with other Hg-cuprates
9. Indirect-exchange coupling as a basic pairing mechanism of high-temperature superconductivity: Quantitative analysis of TC(x) in electron-doped Nd1+xBa2−xCu3Oy and YBa2Cu3O7−x
10. On superconductivity in (YBa2Cu3O7−δ)m/(PrBa2Cu3O7−δ)n superlattices. A quantitative analysis based on indirect-exchange pairing
11. Effect of pressure and of doping on superconductivity in the double-mercury-layer cuprate Hg2 (N = 2). A quantitative analysis based on indirect-exchange pairing
12. On the occurrence of plateaus in the dependence of critical temperatures on oxygen content in HTSC cuprates Quantitative analysis for Bi2Sr2CaCu2O8+x on the basis of indirect-exchange pairing
13. On the crystal structure problem for heavy rare-gas solids: A three-atom exchange perturbation analysis
14. Effect of pressure and of oxygen content on superconductivity in the cuprate HgBa2CuO4+δ. A quantitative analysis based on indirect-exchange pairing
15. Effect of iodine intercalation on superconductivity in the high-TC series Bi2Sr2CaN-1CuNO2N+4+d, N=1-3, and in the yttrium doped N=2 compound. A quantitative analysis on the basis of indirect exchange pairing
16. Indirect-exchange coupling and high-T~C superconductivity: analysis of T~C as a function of pressure in Hg~1~-~xAu~xBa~2Ca~2Cu~3O~y. Comparison with other Hg-cuprates
17. On superconductivity in (YBa~2Cu~3O~7~-~d)~m/(PrBa~2Cu~3O~7~-~d)~n superlattices. A quantitative analysis based on indirect-exchange pairing
18. Effect of pressure and of doping on superconductivity in the double-mercury-layer cuprate Hg~2 (N=2). A quantitative analysis based on indirect-exchange pairing
19. Indirect-exchange coupling as a basic pairing mechanism of high-temperature superconductivity: Quantitative analysis of T~C(x) in electron-doped Nd~1~+~xBa~2~-~xCu~3O~y and YBa~2Cu~3O~7~-~x
20. Analysis of superconductivity in Ba~1~-~xK~xBiO~3 on the basis of indirect-exchange mediated pairing
21. Quantitative analysis of superconductivity in the Hg-cuprates: Comparison with the Tl~2-series
22. Effect of iodine intercalation on superconductivity in the high-T~c series Bi~2Sr~2Ca~N~-~1Cu~NO~2~N~+~4~+~d, N = 1, 2 and 3, and in the yttrium doped N = 2 compound. An indirect exchange analysis
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