Tc max
2.0 K
Tc ambient
2.0 K
arXiv year
2022
Papers
2
Tc exp.
2.0 K
Tc theo.
—
Evidence
experimental
Tc max measured at single_crystal, resistivity, DOI: 10.1103/PhysRevB.105.134523, confirmed by 2 papers
Evidence (5 records from 2 papers)
the flat columns above are aggregates — each line here is one paper's claim| Tc (K) | P (GPa) | Sample | Method | Pairing | Year | Tier | Paper |
|---|---|---|---|---|---|---|---|
| 2.0 | — | single_crystal | resistivity | s-wave | 2023 | T3 | 2301.01467 |
| 2.0 | — | single_crystal | resistivity | s-wave | 2022 | T1 | DOI: 10.1103/PhysRevB.105.134523 |
| 1.9 | — | single_crystal | specific_heat | s-wave | 2023 | T3 | 2301.01467 |
| 1.9 | — | single_crystal | specific_heat, muSR | s-wave | 2022 | T1 | DOI: 10.1103/PhysRevB.105.134523 |
| — | — | single_crystal | susceptibility, muSR | s-wave | 2023 | T3 | 2301.01467 |
Structure
- Crystal structure
- ZrNiAl-type
- Space group
- P6-2m
Superconducting parameters
- Pairing symmetry
- s-wave
- Gap structure
- full_gap
- Hc2
- 0.2 T (0 K)
- λ_eph (e–ph coupling)
- 0.52
Samples & pressure
- Sample form
- single_crystal