%A Du Qian-Heng (杜乾衡), Chen Guo-Fu (陈国富), Yang Wen-Yun (杨文云), Hua Mu-Xin (华慕欣), Du Hong-Lin (杜红林), Wang Chang-Sheng (王常生), Liu Shun-Quan (刘顺荃), Han Jing-Zhi (韩景智), Zhou Dong (周栋), Zhang Yan (张焱), Yang Jin-Bo (杨金波) %T Influences of P doping on magnetic phase transition and structure in MnCoSi ribbon %0 Journal Article %D 2015 %J Chin. Phys. B %R 10.1088/1674-1056/24/6/067502 %P 67502-067502 %V 24 %N 6 %U {https://cpb.iphy.ac.cn/CN/abstract/article_117547.shtml} %8 2015-06-05 %X The structure and magnetic properties of MnCoSi1-xPx (x=0.05–0.50) are systematically investigated. With P content increasing, the lattice parameter a increases monotonically while both b and c decrease. At the same time, the temperature of metamagnetic transition from a low-temperature non-collinear ferromagnetic state to a high-temperature ferromagnetic state decreases and a new magnetic transition from a higher-magnetization ferromagnetic state to a lower-magnetization ferromagnetic state is observed in each of these compounds for the first time. This is explained by the changes of crystal structure and distance between Mn and Si atoms with the increase of temperature according to the high-temperature XRD result. The metamagnetic transition is found to be a second-order magnetic transition accompanied by a low inversed magnetocaloric effect (1.0 J·kg-1·K-1 at 5 T) with a large temperature span (190 K at 5 T) compared with the scenario of MnCoSi. The changes in the order of metamagnetic transition and structure make P-doped MoCoSi compounds good candidates for the study of magnetoelastic coupling and the modulation of magnetic phase transition.