Luciana Vidas scite author profile

Many ultrafast solid phase transitions are treated as chemical reactions that transform the structures between two different unit cells along a reaction coordinate, but this neglects the role of disorder. Although ultrafast diffraction provides insights into atomic dynamics during such transformations, diffraction alone probes an averaged unit cell and is less sensitive to randomness in the transition pathway. Using total scattering of femtosecond x-ray pulses, we show that atomic disordering in photoexcited vanadium dioxide (VO2) is central to the transition mechanism and that, after photoexcitation, the system explores a large volume of phase space on a time scale comparable to that of a single phonon oscillation. These results overturn the current understanding of an archetypal ultrafast phase transition and provide new microscopic insights into rapid evolution toward equilibrium in photoexcited matter.

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Does Vo2 Host a Transient Monoclinic Metallic Phase?

Vidas

Schick

Martínez

et al. 2020

Phys. Rev. X

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Ultrafast phase transitions induced by femtosecond light pulses present a new opportunity for manipulating the properties of materials. Understanding how these transient states are different from, or similar to, their thermal counterparts is key to determining how materials can exhibit properties that are not found in equilibrium. In this paper, we reexamine the case of the light-induced insulator-metal phase transition in the prototypical, strongly correlated material VO 2 , for which a nonthermal Mott-Hubbard transition has been claimed. Here, we show that heat, even on the ultrafast timescale, plays a key role in the phase transition. When heating is properly accounted for, we find a single phase-transition threshold corresponding to the thermodynamic structural insulator-metal phase transition, and we find no evidence of a hidden transient Mott-Hubbard nonthermal phase. The interplay between the initial thermal state and the ultrafast transition may have implications for other transient states of matter.

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Imaging Nanometer Phase Coexistence at Defects During the Insulator–Metal Phase Transformation in VO₂ Thin Films by Resonant Soft X-ray Holography

et al. 2018

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We use resonant soft X-ray holography to image the insulator-metal phase transition in vanadium dioxide with element and polarization specificity and nanometer spatial resolution. We observe that nanoscale inhomogeneity in the film results in spatial-dependent transition pathways between the insulating and metallic states. Additional nanoscale phases form in the vicinity of defects which are not apparent in the initial or final states of the system, which would be missed in area-integrated X-ray absorption measurements. These intermediate phases are vital to understand the phase transition in VO, and our results demonstrate how resonant imaging can be used to understand the electronic properties of phase-separated correlated materials obtained by X-ray absorption.

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Quantitative hyperspectral coherent diffractive imaging spectroscopy of a solid-state phase transition in vanadium dioxide

et al. 2021

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Solid-state systems can host a variety of thermodynamic phases that can be controlled with magnetic fields, strain, or laser excitation. Many phases that are believed to exhibit exotic properties only exist on the nanoscale, coexisting with other phases that make them challenging to study, as measurements require both nanometer spatial resolution and spectroscopic information, which are not easily accessible with traditional x-ray spectromicroscopy techniques. Here, we use coherent diffractive imaging spectroscopy (CDIS) to acquire quantitative hyperspectral images of the prototypical quantum material vanadium oxide across the vanadium L2,3 and oxygen K x-ray absorption edges with nanometer-scale resolution. We extract the full complex refractive indices of the monoclinic insulating and rutile conducting phases of VO2 from a single sample and find no evidence for correlation-driven phase transitions. CDIS will enable quantitative full-field x-ray spectromicroscopy for studying phase separation in time-resolved experiments and other extreme sample environments where other methods cannot operate.

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Probing the lattice anharmonicity of superconducting YBa2Cu3O7−δ via phonon harmonics

et al. 2019

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We examine coherent phonons in a strongly driven sample of optimally-doped high temperature superconductor YBa2Cu3O 7−δ . We observe a non-linear lattice response of the 4.5 THz copperoxygen vibrational mode at high excitation densities, evidenced by the observation of the phonon third harmonic and indicating the mode is strongly anharmonic. In addition, we observe how highamplitude phonon vibrations modify the position of the electronic charge transfer resonance. Both of these results have important implications for possible phonon-driven non-equilibrium superconductivity.

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Luciana Vidas

Ultrafast disordering of vanadium dimers in photoexcited VO ₂

Does Vo2 Host a Transient Monoclinic Metallic Phase?

Imaging Nanometer Phase Coexistence at Defects During the Insulator–Metal Phase Transformation in VO₂ Thin Films by Resonant Soft X-ray Holography

Quantitative hyperspectral coherent diffractive imaging spectroscopy of a solid-state phase transition in vanadium dioxide

Probing the lattice anharmonicity of superconducting YBa2Cu3O7−δ via phonon harmonics

Contact Info

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Resources

About

Luciana Vidas

Ultrafast disordering of vanadium dimers in photoexcited VO 2

Does Vo2 Host a Transient Monoclinic Metallic Phase?

Imaging Nanometer Phase Coexistence at Defects During the Insulator–Metal Phase Transformation in VO2 Thin Films by Resonant Soft X-ray Holography

Quantitative hyperspectral coherent diffractive imaging spectroscopy of a solid-state phase transition in vanadium dioxide

Probing the lattice anharmonicity of superconducting YBa2Cu3O7−δ via phonon harmonics

Contact Info

Product

Resources

About

Ultrafast disordering of vanadium dimers in photoexcited VO ₂

Imaging Nanometer Phase Coexistence at Defects During the Insulator–Metal Phase Transformation in VO₂ Thin Films by Resonant Soft X-ray Holography