Abstract The influence of magnetocrystalline anisotropy in antiferromagnets is evident in a spin flip or flop transition.Contrary to spin flops, a spin-flip transition has been scarcely presented Footwear due to its specific condition of relatively strong magnetocrystalline anisotropy and the role of spin-flips on anisotropic phenomena has not been investigated in detail.In this study, we present antiferromagnet-based functional properties on an itinerant Ising antiferromagnet Ca0.9Sr0.
1Co2As2.In the presence of a rotating magnetic field, anomalous Hall conductivity and anisotropic magnetoresistance are demonstrated, the effects of which are maximized above the spin-flip transition.Moreover, a joint experimental and theoretical study is conducted to provide an efficient tool to identify various spin states, which can be Hst Longboard useful in spin-processing functionalities.