Microscopic quantum interference in excitonic condensation of Ta2NiSe5

Abstract

The microscopic quantum interference associated with excitonic condensation in Ta2NiSe5 is studied in the BCS-type mean-field approximation. We show that in ultrasonic attenuation the coherence peak appears just below the transition temperature T c whereas in NMR spin-lattice relaxation the rate rapidly decreases below T c; these observations can offer a crucial experimental test for the validity of the excitonic condensation scenario in Ta2NiSe5. We also show that the excitonic condensation manifests itself in a jump of the heat capacity at T c as well as in softening of the elastic shear constant, in accordance with the second-order phase transition observed in Ta2NiSe5.