Nuclear magnetic resonance investigation of the heavy fermion system Ce2CoAl7Ge4

Abstract

We present nuclear magnetic resonance (NMR) and nuclear quadrupole resonance (NQR) measurements performed on single crystalline , a member of a recently discovered family of heavy fermion materials Ce2MAl7Ge4 (M = Co, Ir, Ni, or Pd). Previous measurements indicated a strong Kondo interaction as well as magnetic order below TM = 1.8 K. Our NMR spectral measurements show that the Knight shift K is proportional to the bulk magnetic susceptibility at high temperatures. A clear Knight shift anomaly (K ) is observed at coherence temperatures T* 17.5 K for H0 c and 10 K for H0 a at the 59Co site, and T* 12.5 K at the 27Al(3) site for H0 a characteristic of the heavy fermion nature of this compound. At high temperatures the 59Co NMR spin-lattice relaxation rate T1-1 is dominated by spin fluctuations of the 4f local moments with a weak metallic background. The spin fluctuations probed by 59Co NMR are anisotropic and larger in the basal plane than in the c direction. Furthermore, we find (T1TK)-1 T-1/2 at the 59Co site as expected for a Kondo system for T > T* and T> TK. 59Co NQR measurements at low temperatures indicate slowing down of spin fluctuations above the magnetic ordering temperature TM 1.8 K. A weak ferromagnetic character of fluctuations around q=0 is evidenced by an increase of T versus T above the magnetic ordering temperature. We also find good agreement between the observed and calculated electric field gradients at all observed sites.