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Exploring a quantum-information-relevant magnonic material: Ultralow damping at low temperature in the organic ferrimagnet V[TCNE]x.
- Source :
- AVS Quantum Science; Jun2021, Vol. 3 Issue 2, p1-7, 7p
- Publication Year :
- 2021
-
Abstract
- Quantum information science and engineering require novel low-loss magnetic materials for magnon-based quantum-coherent operations. The search for low-loss magnetic materials, traditionally driven by applications in microwave electronics near room temperature, has gained additional constraints from the need to operate at cryogenic temperatures for many applications in quantum information science and technology. Whereas yttrium iron garnet (YIG) has been the material of choice for decades, the emergence of molecule-based materials with robust magnetism and ultra-low damping has opened new avenues for exploration. Specifically, thin films of vanadium tetracyanoethylene (V[TCNE]<subscript>x</subscript>) can be patterned into the multiple, connected structures needed for hybrid quantum elements and have shown roomtemperature Gilbert damping (α=4x10<superscript>-5</superscript>) that rivals the intrinsic (bulk) damping otherwise seen only in highly polished YIG spheres (far more challenging to integrate into arrays). Here, the authors present a comprehensive and systematic study of the low-temperature magnetization dynamics for V[TCNE]<subscript>x</subscript> thin films, with implications for their application in quantum systems. These studies reveal a temperaturedriven, strain-dependent magnetic anisotropy that compensates the thin-film shape anisotropy and the recovery of a magnetic resonance linewidth at 5K that is comparable to room-temperature values (roughly 2G at 9.4 GHz). The authors can account for these variations of the V[TCNE]<subscript>x</subscript> linewidth within the context of scattering from very dilute paramagnetic impurities and anticipate additional linewidth narrowing as the temperature is further reduced. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 26390213
- Volume :
- 3
- Issue :
- 2
- Database :
- Complementary Index
- Journal :
- AVS Quantum Science
- Publication Type :
- Academic Journal
- Accession number :
- 151185868
- Full Text :
- https://doi.org/10.1116/5.0044193