Title: Mechanism of femtosecond laser induced ultrafast demagnetization in ultrathin film magnetic multilayers.
Authors: Pan, Santanu; Ganss, Fabian; Panda, Suryanarayan; Sellge, Gabriel; Banerjee, Chandrima; Sinha, Jaivardhan; Hellwig, Olav; Barman, Anjan
Abstract: Ever since its discovery ultrafast demagnetization has remained one of the most intriguing research areas in magnetism. Here, we demonstrate that in [Co (tCo)/Pd (0.9 nm)]8 multilayers, the characteristic decay time in femtosecond timescale varies non-monotonically with tCo in the range 0.07 nm ≤ tCo ≤ 0.75 nm. Further investigation reveals higher spin fluctuation at higher ratio of electron to Curie temperature to be responsible for this. Microscopic three-temperature modelling unravels a similar trend in the spin–lattice interaction strength, which strongly supports our experimental observation. The knowledge of the femtosecond magnetization decay mechanism in ultrathin ferromagnetic films is unique and important for the advancement of fundamental magnetism besides their potential applications in ultrahigh speed spintronic devices.
Subjects: THIN films; MAGNETIC films; DEMAGNETIZATION; MULTILAYERS; FEMTOSECOND lasers; CURIE temperature
Publication: Journal of Materials Science, 2022, Vol 57, Issue 11, p6212
ISSN: 0022-2461
Publication type: Academic Journal
DOI: 10.1007/s10853-022-07016-y

Mechanism of femtosecond laser induced ultrafast demagnetization in ultrathin film magnetic multilayers.

Pan, Santanu; Ganss, Fabian; Panda, Suryanarayan; Sellge, Gabriel; Banerjee, Chandrima; Sinha, Jaivardhan; Hellwig, Olav; Barman, Anjan