HIGHLIGHTS
- who: uff1a et al. from the (School of Rare Earths, University of Science and Technology of China, Hefei, China) have published the research: u91cdu91d1u5c5eu7f13u51b2u5c42u548cu8986u76d6u5c42u5bf9 TbFeCo u8d85u8584u819cu78c1u6027u53cau70edu7a33u5b9au6027u7684 u5f71u54cd, in the Journal: (JOURNAL)
- what: With large PMA, presence of magnetic compensation, and excellent thermal robustness revealed in W/ultrathin TbFeCo/W films, this study provides a promising heavy metal/RE-TM heterostructure for spintronic applications.
SUMMARY
Amorphous rare earth (RE)-transition metal (TM) ferrimagnetic alloy films have been intensively reexplored recently in spintronics and ultrafast information storage due to the large perpendicular magnetic . . .
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