Measurements of the rf penetration depth λ(T, H, θ) are used to study the superconducting order parameter, vortex dynamics in the mixed state and delineate critical fields in the borocarbide superconductor YNi2B2C. The lower critical field has an anomalous T dependence, Hc1(T ) = 1.12 [1 − (T /Tc)] kOe, which is however consistent with independent superfluid density measurements at microwave frequencies. The vortex response is dominated by viscous flux flow, indicative of extremely weak pinning, and is parametrized by a field scale H c2, eff . The angular dependence of the vortex contribution λ(θ) is in good agreement with the Coffey-Clem model. Structure is seen in the depairing transition in the vicinity of the upper critical field, with the existence of well-defined critical fields Hc2a, H c2b and Hc2c, with the vortex field scale H c2, eff closest to H c2b . Overall the measurements indicate that YNi2B2C has a rich and unusual field dependence of its transport parameters.
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