Regensburg 2010 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 16: CE: Quantum-Critical Phenomena 1

TT 16.2: Vortrag

Dienstag, 23. März 2010, 14:15–14:30, H19

Magnetocaloric effect in Yb(Rh_0.93Co_0.07)₂Si₂ — •Alexander Steppke, Niels Oeschler, Cornelius Krellner, Manuel Brando, Christoph Geibel, and Frank Steglich — Max-Planck-Institut für Chemische Physik fester Stoffe Nöthnitzer Str. 40, 01187 Dresden, Germany

The magnetic Grüneisen ratio is defined as Γ_H = −(dM/dT)_H/C_H=1/T(dT/dH)_S. Investigation of the magnetocaloric effect (MCE) therefore provides a direct measure of Γ_H. At a field-induced quantum critical point (QCP) the critical part of Γ_H, Γ_H^cr, is expected to diverge and to change its sign across the QCP, indicating the accumulation of entropy [1]. The heavy-fermion compound Yb(Rh_0.93Co_0.07)₂Si₂ is a prototype system which allows us to study a field-induced QCP [2]. In zero field this compound exhibits two antiferromagnetic transitions at T_N=0.4 K and T_L=0.07 K, which can be continuously suppressed by small magnetic fields µ₀ H_N=0.24 T and µ₀ H_L=0.05 T, respectively. At these fields a maximum in S(H), i.e. a minimum in dT/dH(H), is anticipated. We measured the MCE and the specific heat of Yb(Rh_0.93Co_0.07)₂Si₂ down to 0.025 K. Across both T_N and T_L, Γ_H^cr changes sign, since dT/dH shows a kink or a minimum. The kink at T_N follows the phase boundary T_N(H) and disappears for T → 0. However, the minimum at T_L is more pronounced in dT/dH, indicating a significant change in entropy. This change in entropy seems to be located near to but not at the phase boundary T_L(H).

[1] L. Zhu et al., PRL 91 (2003) 066404; M. Garst and A. Rosch, PRB 72 (2005) 205129

[2] S. Friedemann et al., Nat. Phys. 5 (2009) 465.