Katukuri, Vamshi Mohan2011-05-092011-05-092011-03https://hdl.handle.net/11299/104196University of Minnesota M.S. thesis. March 2011. Major: Material science and engineering. Advisor: Matteo Cococcioni. 1 computer file (PDF); vii, 58 pages.We have studied the structural, electronic and magnetic properties of the magnetic shape memory alloy Ni2MnGa using Hubbard-rooted DFT+U functional and recent extensions. Both austenite and martensite phases corresponding to high temperature and low temperature phases respectively have been investigated. The obtained results are compared with the results of standard DFT (GGA) calculations and available experiments. DFT+U method is particularly useful in predicting the energy landscape of the tetragonally distorted martensite from which the total energy minimum for c/a = 1.23, that has been obtained with GGA functionals, but not observed in experiments, disappears. Our results indicate that, the better description of the energitics of the tetragonal phase can be attributed to a longer extent of localization of electrons due to the Hubbard correction. Phonon dispersion study of austenite show a soft mode along the [110] direction indicating an instability of austenite at low temperatures.en-USMaterial science and engineeringThesis or Dissertation