We presented results of electrical resistivity, magnetoresistivity and Seebek effect measurements done in the paramagnetic state of an antiferromagnetically ordering intermetalfic compound Trains. It was found that th...We presented results of electrical resistivity, magnetoresistivity and Seebek effect measurements done in the paramagnetic state of an antiferromagnetically ordering intermetalfic compound Trains. It was found that the magnetic part of the electrical resistivity showed maximum at 18 K and the lgT dependence in temperature range 20〈T〈100 K. The magnetoresistivity was negative. The txansversal magnetoresistivity fulfilled the single-ion Kondo scaling for temperatures 2〈(T+0.5 K)〈28 K. Thermcelectricpower displayed a sharp minimum at 10 K. Electrical properties indicated that Tmln3 is likely a dense Kondo system.展开更多
文摘We presented results of electrical resistivity, magnetoresistivity and Seebek effect measurements done in the paramagnetic state of an antiferromagnetically ordering intermetalfic compound Trains. It was found that the magnetic part of the electrical resistivity showed maximum at 18 K and the lgT dependence in temperature range 20〈T〈100 K. The magnetoresistivity was negative. The txansversal magnetoresistivity fulfilled the single-ion Kondo scaling for temperatures 2〈(T+0.5 K)〈28 K. Thermcelectricpower displayed a sharp minimum at 10 K. Electrical properties indicated that Tmln3 is likely a dense Kondo system.
