Saved in:
Bibliographic Details
Main Authors: del Valle, Javier, Rischau, Carl Willem, Korshunov, Artem, Ambrosi, David, Martin-Luengo, Aitana Tarazaga, Yousef, Ibraheem, Lopez-Paz, Sara A., Neyshtadt-Ronel, Shany, Gariglio, Stefano, Bosak, Alexei, Kalcheim, Yoav
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.15037
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866915812516823040
author del Valle, Javier
Rischau, Carl Willem
Korshunov, Artem
Ambrosi, David
Martin-Luengo, Aitana Tarazaga
Yousef, Ibraheem
Lopez-Paz, Sara A.
Neyshtadt-Ronel, Shany
Gariglio, Stefano
Bosak, Alexei
Kalcheim, Yoav
author_facet del Valle, Javier
Rischau, Carl Willem
Korshunov, Artem
Ambrosi, David
Martin-Luengo, Aitana Tarazaga
Yousef, Ibraheem
Lopez-Paz, Sara A.
Neyshtadt-Ronel, Shany
Gariglio, Stefano
Bosak, Alexei
Kalcheim, Yoav
contents VO2 features concomitant structural and metal-insulator transitions. This poses a challenge for understanding the underlying mechanism: is the transition triggered by a structural or by an electronic instability? The two scenarios are expected to produce very different pre-transitional fluctuations above TC. By combining magnetic susceptibility, IR reflectivity and X-ray diffuse scattering measurements, we observe that metallic VO2 features strong electronic and structural fluctuations towards the insulating monoclinic phase. By measuring resonant diffuse X-ray scattering across the Vanadium K-edge, we search for a potential decoupling between electronic and structural ordering in these fluctuations, finding no evidence of it. While our results do not completely rule out pure electronic fluctuations, they constrain them, favoring the interpretation that the VO2 metal-insulator transition is triggered by a structural instability. Our work offers a novel approach to solve similar problems in other strongly correlated systems.
format Preprint
id arxiv_https___arxiv_org_abs_2501_15037
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Disentangling pre-transitional fluctuations in metallic VO2
del Valle, Javier
Rischau, Carl Willem
Korshunov, Artem
Ambrosi, David
Martin-Luengo, Aitana Tarazaga
Yousef, Ibraheem
Lopez-Paz, Sara A.
Neyshtadt-Ronel, Shany
Gariglio, Stefano
Bosak, Alexei
Kalcheim, Yoav
Strongly Correlated Electrons
VO2 features concomitant structural and metal-insulator transitions. This poses a challenge for understanding the underlying mechanism: is the transition triggered by a structural or by an electronic instability? The two scenarios are expected to produce very different pre-transitional fluctuations above TC. By combining magnetic susceptibility, IR reflectivity and X-ray diffuse scattering measurements, we observe that metallic VO2 features strong electronic and structural fluctuations towards the insulating monoclinic phase. By measuring resonant diffuse X-ray scattering across the Vanadium K-edge, we search for a potential decoupling between electronic and structural ordering in these fluctuations, finding no evidence of it. While our results do not completely rule out pure electronic fluctuations, they constrain them, favoring the interpretation that the VO2 metal-insulator transition is triggered by a structural instability. Our work offers a novel approach to solve similar problems in other strongly correlated systems.
title Disentangling pre-transitional fluctuations in metallic VO2
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2501.15037