Table 1 Fit parameters \(\lambda (0)\) and \(\varDelta (0)\) at 0 K, as resulting from a fit to Eq. (6) and/or (7) as shown in Figs. 3d and 5d.

From: Anisotropic superconductivity in the quasi-one-dimensional superconductor V2Ga5

p [kbar]

\(\lambda (0)\) [nm]

\(T_{c}\) [K]

\(\varDelta (0)\) [meV]

0

\(\lambda ^{\parallel }\) (14 mT) 207 (2)

3.26 (5)

\(\varDelta ^{\parallel }\)(14 mT) 0.43 (1)

0

\(\lambda ^{\perp }\) (14 mT)    209 (1)

3.35 (2)

\(\varDelta ^{\perp }_{1}\) (14 mT)    0.27 (4)

   

\(\varDelta ^{\perp }_{2}\) (14 mT)    0.45 (4)

0

\(\lambda ^{\perp }\) (50 mT)    273 (1)

3.25 (2)

\(\varDelta ^{\perp }\)(50 mT) 0.36 (4)

0      (in press. cell)

\(\lambda ^{\perp }\) (14 mT)    233 (3)

3.34 (5)

\(\varDelta ^{\perp }_{1}\) (14 mT)    0.23 (5)

   

\(\varDelta ^{\perp }_{2}\) (14 mT)    0.48 (7)

19.5 (in press. cell)

\(\lambda ^{\perp }\) (14 mT)    238 (3)

3.06 (7)

\(\varDelta ^{\perp }_{1}\) (14 mT)    0.21(5)

   

\(\varDelta ^{\perp }_{2}\) (14 mT)    0.44 (7)

  1. The high-pressure (GPD) datasets, as well as the data for \(\mu _0H^{\perp } = 14\) mT were analyzed by means of a global two s-wave model, with the relative weight \(\omega = 0.44(8)\) being a global fit parameter (see text for details).
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