Combining first-principles density-functional calculations and Moriya's self-consistent renormalization theory, we explain the recently reported counterintuitive appearance of an ordered magnetic state in uniaxially strained Sr2RuO4 beyond the Lifshitz transition. We show that strain weakens the quantum spin fluctuations, which destroy the static order, more strongly than the tendency to magnetism. A different rate of decrease of the spin fluctuations vs magnetic stabilization energy promotes the onset of a static magnetic order beyond a critical strain.
Kim, B., Khmelevskyi, S., Franchini, C., Mazin, I.I. (2023). Suppressed Fluctuations as the Origin of the Static Magnetic Order in Strained Sr2RuO4. PHYSICAL REVIEW LETTERS, 130(2), 1-6 [10.1103/PhysRevLett.130.026702].
Suppressed Fluctuations as the Origin of the Static Magnetic Order in Strained Sr2RuO4
Franchini, CPenultimo
Writing – Review & Editing
;
2023
Abstract
Combining first-principles density-functional calculations and Moriya's self-consistent renormalization theory, we explain the recently reported counterintuitive appearance of an ordered magnetic state in uniaxially strained Sr2RuO4 beyond the Lifshitz transition. We show that strain weakens the quantum spin fluctuations, which destroy the static order, more strongly than the tendency to magnetism. A different rate of decrease of the spin fluctuations vs magnetic stabilization energy promotes the onset of a static magnetic order beyond a critical strain.| File | Dimensione | Formato | |
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