Add to ORKGMomentum resolved inverse photoemission spectroscopy measurements show that the dispersion of the unoccupied bands of Ni2MnGa is significant in the austenite phase. In the martensite phase, it is markedly reduced, which is possibly related to the structural transition to an incommensurate modulated state in the martensite phase. Based on the first principle calculations of the electronic structure of Ni–Mn–Ga, we show that the modification of the spectral shape with surface composition is related to change in the hybridization between the Mn 3d and Ni 3d-like states that dominate the unoccupied conduction band
The two main effects underlying the magnetic shape memory effect in Ni2MnGa are martensitic transfor...
The precise determination of the stability of different martensitic phases is an essential task in t...
The two main effects underlying the magnetic shape memory effect in Ni2MnGa are martensitic transfor...
Momentum resolved inverse photoemission spectroscopy measurements show that the dispersion of the un...
We have revealed the underlying mechanism of the martensitic phase transition (MPT) in a new class o...
We have revealed the underlying mechanism of the martensitic phase transition (MPT) in a new class o...
Ultraviolet-photoemission (UPS) measurements and supporting specific-heat, thermal-expansion, resist...
The (1 0 0) surface of Ni2MnGa and Mn2NiGa ferromagnetic shape memory alloys have been studied by ph...
In recent years there has been an increased demand for the development of smart and functional mater...
We report periodic modulation on (001) surface of Ni2MnGa ferromagnetic shape memory alloy. For the ...
A combined study employing density functional theory (DFT) using the experimentally determined modul...
Magnetic shape memory (MSM) alloys are novel smart materials which exhibit magnetic field induced st...
Mn2NiGa is reported to be a shape memory material with a martensite-austenite phase transition. Temp...
Mn2NiGa is reported to be a shape memory material with a martensite-austenite phase transition. Temp...
We demonstrate the existence of a charge-density-wave (CDW) associated with an incommensurate period...
The two main effects underlying the magnetic shape memory effect in Ni2MnGa are martensitic transfor...
The precise determination of the stability of different martensitic phases is an essential task in t...
The two main effects underlying the magnetic shape memory effect in Ni2MnGa are martensitic transfor...
Momentum resolved inverse photoemission spectroscopy measurements show that the dispersion of the un...
We have revealed the underlying mechanism of the martensitic phase transition (MPT) in a new class o...
We have revealed the underlying mechanism of the martensitic phase transition (MPT) in a new class o...
Ultraviolet-photoemission (UPS) measurements and supporting specific-heat, thermal-expansion, resist...
The (1 0 0) surface of Ni2MnGa and Mn2NiGa ferromagnetic shape memory alloys have been studied by ph...
In recent years there has been an increased demand for the development of smart and functional mater...
We report periodic modulation on (001) surface of Ni2MnGa ferromagnetic shape memory alloy. For the ...
A combined study employing density functional theory (DFT) using the experimentally determined modul...
Magnetic shape memory (MSM) alloys are novel smart materials which exhibit magnetic field induced st...
Mn2NiGa is reported to be a shape memory material with a martensite-austenite phase transition. Temp...
Mn2NiGa is reported to be a shape memory material with a martensite-austenite phase transition. Temp...
We demonstrate the existence of a charge-density-wave (CDW) associated with an incommensurate period...
The two main effects underlying the magnetic shape memory effect in Ni2MnGa are martensitic transfor...
The precise determination of the stability of different martensitic phases is an essential task in t...
The two main effects underlying the magnetic shape memory effect in Ni2MnGa are martensitic transfor...