Laser-Driven Transient Phase Oscillations in Individual Spin Crossover Particles

Yaowei Hu¹, Matthieu Picher¹, Marlène Palluel², Nathalie Daro², Eric Freysz³, Laurentiu Stoleriu⁴, Cristian Enachescu⁴, Guillaume Chastanet², Florian Banhart¹

Affiliations

¹ Institut de Physique et Chimie des Matériaux UMR 7504, Université de Strasbourg & CNRS, Strasbourg, 67034, France.
² Université de Bordeaux, CNRS, Bordeaux INP (ICMCB-UMR 5026), Pessac, 33600, France.
³ Université de Bordeaux, CNRS UMR 5798, LOMA, Talence cedex, 33405, France.
⁴ Faculty of Physics, Alexandru Ioan Cuza University, Iasi, 700506, Romania.

PMID: 37246252
DOI: 10.1002/smll.202303701

Laser-Driven Transient Phase Oscillations in Individual Spin Crossover Particles

Yaowei Hu et al. Small. 2023 Sep.

. 2023 Sep;19(39):e2303701.

doi: 10.1002/smll.202303701. Epub 2023 May 28.

Authors

Yaowei Hu¹, Matthieu Picher¹, Marlène Palluel², Nathalie Daro², Eric Freysz³, Laurentiu Stoleriu⁴, Cristian Enachescu⁴, Guillaume Chastanet², Florian Banhart¹

Affiliations

¹ Institut de Physique et Chimie des Matériaux UMR 7504, Université de Strasbourg & CNRS, Strasbourg, 67034, France.
² Université de Bordeaux, CNRS, Bordeaux INP (ICMCB-UMR 5026), Pessac, 33600, France.
³ Université de Bordeaux, CNRS UMR 5798, LOMA, Talence cedex, 33405, France.
⁴ Faculty of Physics, Alexandru Ioan Cuza University, Iasi, 700506, Romania.

PMID: 37246252
DOI: 10.1002/smll.202303701

Abstract

An unusual expansion dynamics of individual spin crossover nanoparticles is studied by ultrafast transmission electron microscopy. After exposure to nanosecond laser pulses, the particles exhibit considerable length oscillations during and after their expansion. The vibration period of 50-100 ns is of the same order of magnitude as the time that the particles need for a transition from the low-spin to the high-spin state. The observations are explained in Monte Carlo calculations using a model where elastic and thermal coupling between the molecules within a crystalline spin crossover particle govern the phase transition between the two spin states. The experimentally observed length oscillations are in agreement with the calculations, and it is shown that the system undergoes repeated transitions between the two spin states until relaxation in the high-spin state occurs due to energy dissipation. Spin crossover particles are therefore a unique system where a resonant transition between two phases occurs in a phase transformation of first order.

Keywords: Monte Carlo calculations; phase transformations; spin crossover materials; ultrafast transmission electron microscopy.

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Laser-Driven Transient Phase Oscillations in Individual Spin Crossover Particles

Affiliations

Laser-Driven Transient Phase Oscillations in Individual Spin Crossover Particles

Authors

Affiliations

Abstract

References

Grants and funding

LinkOut - more resources

Full Text Sources

Miscellaneous