Projects

Activities

Sites and dynamics of hydrogen (deuterium) in metal hydrides (deuterides)

Effect of hydrogen on electronic properties of metals

Structure and magnetic properties of topologically frustrated systems

Spin state transition and magneto-electronic phase separation in doped rare-earth perovskites

Electronic properties of intermetallic Kondo and heavy fermionic compounds

Electronic properties of quasi one- and two-dimensional oxide materials

Evolution of ball-milled alloys

Ongoing Research Projects

1.         ²⁷A1 NMR studies in grain aligned CeNi₂A1₅ and LaNi₂A1₅

            Detailed ²⁷A1 NMR studies have been performed in CeNi₂A1₅ and compared with those of isostructural LaNi₂A1₅ in 7 tesla and in the temperature range 3.5-300 K. CeNi₂A1₅ is a dense Kondo compound which orders antiferromagnetically at 2.6 K. For the two inequivalent Al sites in this compound, the nuclear quadrupolar splitting frequency n_Q are 0.98 and 2.52 MHz. Knight shifts for both the sites are almost equal in magnitude and follow a linear relation with the molar susceptibility in the range 30-300 K. The transferred hyperfine coupling constant H_hf = 1.84 kOe/m_B is small compared to those in other Ce compounds. The behaviour of 1/T_1f for the two Al sites are widely different. For Al(1) site with one nearest neighbour Ce ion, the Ce-4f electron spin fluctuation process dominates over the Korringa contribution in relaxation below about 150 K. Such type of relaxation behaviour was observed for ²⁷A1 nuclear spin-lattice relaxation in the well-known Kondo compound CeA1₂. On the other hand, in the relaxation of ²⁷A1 nuclei in A1(2) site, which is in between two Ce near neighbours, the effect of spin fluctuation due to Kondo effect overcomes that due to the RKKY interaction in the range 12-300 K.  These widely different mechanisms in the nuclear spin lattice relaxation processes of two inequivalent Al sites over a large temperature range is an interesting observation in a dense Kondo system which exhibits magnetic ordering.

2.         ⁵¹V NMR study in quasi-one dimensional alternating chain compound BaCu₂V₂O₈

⁵¹V NMR studies in a polycrystalline sample of BaCu₂V₂O₈ reveal the existence of non-zero spin densities, with unequal magnitudes, at the two vanadium sites viz., V(1) and V(2) and hence the participation of VO₄ tetrahedra to the intra-chain and inter-chain exchange interaction. The behaviour of K_iso below 200 K provide a clear signature of the reduction of Cu²⁺ spin susceptibility within the chain. Furthermore, there exist different hyperfine coupling constants for V(1) and V(2) sites. The data confirms the existence of only one spin component and the ground state corresponds to a non-magnetic spin singlet. The T dependence of K_iso above 120 K follows the nature of cspin(T) proposed by Hatfield for alternating chain model. Below 80 K, it follows the expression for cspin of a one-dimensional chain with a spin-gap D which corresponds to about 215 - 3 K. The ⁵¹V spin-lattice relaxation rate, identical in both V sites, follows an Arrhenius type of temperature dependence in between 300-40 K, yielding a gap of D = 380 K, which is larger than that obtained from shift data.

3.         NMR study on the evolution of ball-milled Al-Cu-Nb alloy

            Aluminum based intermetallic alloys with high specific strength have applications in aviation and transport industry. Recently, a number of Al-Cu-Nb composites have been prepared through mechanical alloying in a planetary ball mill and characterized by different techniques. In this report, the technique of NMR has been used to monitor the changes in the atomic environment of the probed nucleus as a result of milling. ²⁷A1, ⁶³Cu, ⁶⁵Cu and ⁹³Nb NMR at different stages reveal alloy formation and partial solid state amorphization, followed/ accompanied by strain induced nucleation of nanocrystalline intermetallic phases.