Abstract
An ultrasonic pulse echo technique was employed to measure the single-crystal elastic constants and their temperature dependence in the vicinity of an intermediate phase transition at 265 K in a MnGa single crystal. The measured elastic constants at 300 K (in units of dyn/) are as follows: =10.3, =0.445, and =25.0, where =1/2(-) and =1/2(++2). The present ultrasonic results differ from a earlier ultrasonic study and provide the first direct determination of the elastic constant . All three elastic constants soften as the premartensitic transformation temperature is approached, and the ultrasonic attenuation also increases dramatically as the intermediate phase transition is approached. The behavior of the elastic constants and the ultrasonic attenuation is consistent with inelastic neutron-scattering results and confirms the existence of the intermediate phase. The ultrasonic results are compared with the neutron data, with earlier ultrasonic results in MnGa, and with studies of the martensitic phase transition in NiAl alloys. © 1996 The American Physical Society.
- Received 16 July 1996
DOI:https://doi.org/10.1103/PhysRevB.54.15695
©1996 American Physical Society