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Angular Dependent Torque Measurements on CeCoIn$_5$ Single Crystals

Strongly Correlated Electrons 2009-11-11 v1

Abstract

Angular dependent torque measurements were performed on single crystals of CeCoIn5_5, a heavy fermion superconductor (Tc0T_{c0} = 2.3 K), in the temperature, TT, range 1.9 K T\leq T \leq 20 K and magnetic fields HH up to 14 T. A large paramagnetic effect is found in the normal state. Torque measurements in the mixed state were also performed. The torque curves show sharp hysteresis peaks at θ=90o\theta = 90^{o} (θ\theta is the angle between HH and the cc-axis of the crystal), a result of intrinsic pinning of vortices. The anisotropy γmc/ma\gamma \equiv \sqrt{m_{c}/m_{a}} in the mixed state was determined from the reversible part of the vortex contribution to the torque signal using Kogan's model [Phys. Rev. B \textbf{38}, 7049 (1988)]. The anisotropy γ\gamma decreases with increasing magnetic field and temperature. The fact that γ\gamma is not a constant points towards a multiband scenario in this heavy fermion material.

Keywords

Cite

@article{arxiv.cond-mat/0604399,
  title  = {Angular Dependent Torque Measurements on CeCoIn$_5$ Single Crystals},
  author = {H. Xiao and T. Hu and T. A. Sayles and M. B. Maple and C. C. Almasan},
  journal= {arXiv preprint arXiv:cond-mat/0604399},
  year   = {2009}
}