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161 results on '"Menghini, Mariela"'

1. Influence of carrier density and disorder on the Quantum Hall plateau widths in epitaxial graphene

Author

Figueruelo-Campanero, Ignacio, Baba, Yuriko, Jimeno-Pozo, Alejandro, García-Pérez, Julia, González, Elvira M., Miranda, Rodolfo, Guinea, Francisco, Cánovas, Enrique, Granados, Daniel, Pantaleón, Pierre, Burset, Pablo, and Menghini, Mariela

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Since its discovery, graphene has been one of the most prominent 2D materials due to its unique properties and broad range of possible applications. In particular, the half-integer Quantum Hall Effect (HI-QHE) characterized by the quantization of Hall resistivity as a function of applied magnetic field, offers opportunities for advancements in quantum metrology and the understanding of topological quantum states in this 2D material. While the role of disorder in stabilizing quantum Hall plateaus (QHPs) is widely recognized, the precise interplay between the plateaus width, disorder, mobility and carrier density remains less explored. In this work, we investigate the width of the $\nu=6$ QHP in epitaxial graphene Hall bars, focusing on two distinct regions of the device with markedly different electronic mobilities. Depending on the storage conditions, it is possible to modify the carrier density of graphene QHE devices and consequently increase or reduce the mobility. Our experiments reveal mobility variations of up to 200$\%$ from their initial value. In particular, the sample storage time and ambient conditions cause also noticeable changes in the positions and extension of the QHPs. Our results show that the QHP extension for $\nu=6$ differs significantly between the two regions, influenced by both mobility and disorder, rather than solely by carrier density. Transport simulations based on the Landauer-B\"uttiker formalism with Anderson disorder in a scaled model reveal the critical role of impurities in shaping graphene transport properties defining the extension of the QHPs. This study provides valuable insights into the interplay between mobility, disorder, and quantum transport in graphene systems., Comment: 9 pages, 4 figures, regular research article

Published
2025

2. Apparent color and Raman vibrational modes of the unconventional superconductor Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$ exfoliated flakes

Author

Figueruelo-Campanero, Ignacio, del Campo, Adolfo, Nieva, Gladys, González, Elvira M., Serrano, Aida, and Menghini, Mariela

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Studying and controlling the properties of individual exfoliated materials is one of the first steps towards the fabrication of complex van der Waals systems. However, prolonged exposure to ambient conditions can affect the properties of very thin exfoliated materials altering their physical properties. For this reason, it is imperative to employ versatile characterization strategies compatible with reduced ambient exposure times. In this work, we demonstrate that optical microscopy and Raman spectroscopy are quick and non-invasive techniques to study flakes of the high-temperature superconductor Bi$_2$Sr$_2$CaCu$_2$O$_{8+\delta}$ (BSCCO-2212). The apparent color of BSCCO-2212 exfoliated flakes on SiO$_2$/Si has been studied allowing a rough and fast identification of the number of layers. Moreover, we find that thin flakes have a refractive index of around 1.7 in the visible range and 0.5 for the absorption coefficient near the maximum at 550 nm. We determine the optimal combination of illumination wavelength and substrate properties for the identification of different numbers of unit cells of BSCCO-2212. In addition, we report the hardening of the characteristic Raman modes at 116 cm$^{-1}$ and 460 cm$^{-1}$ as flake thickness decreases, possibly due to strain in the BiO and CuO$_2$ planes, respectively. Moreover, the evolution of the Raman modes establishes a second approach to determine the thickness of BSCCO-2212 thin flakes. As BSCCO-2212 is a challenging material to be due to its sensitivity to ambient conditions deriving in an insulating state, the present work provides a guide for the fabrication and characterization of complex van der Waals systems paving the way for studying heterostructures based on unconventional superconductors in the 2D limit.

Published
2024

3. Mott resistive switching initiated by topological defects

Author

Milloch, Alessandra, Figueruelo-Campanero, Ignacio, Hsu, Wei-Fan, Mor, Selene, Mellaerts, Simon, Maccherozzi, Francesco, Veiga, Larissa Ishibe, Dhesi, Sarnjeet S., Spera, Mauro, Seo, Jin Won, Locquet, Jean-Pierre, Fabrizio, Michele, Menghini, Mariela, and Giannetti, Claudio

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Resistive switching is the fundamental process that triggers the sudden change of the electrical properties in solid-state devices under the action of intense electric fields. Despite its relevance for information processing, ultrafast electronics, neuromorphic devices, resistive memories and brain-inspired computation, the nature of the local stochastic fluctuations that drive the formation of metallic nuclei out of the insulating state has remained hidden. Here, using operando X-ray nano-imaging, we have captured the early-stages of resistive switching in a V2O3-based device under working conditions. V2O3 is a paradigmatic Mott material, which undergoes a first-order metal-to-insulator transition coupled to a lattice transformation that breaks the threefold rotational symmetry of the rhombohedral metal phase. We reveal a new class of volatile electronic switching triggered by nanoscale topological defects of the lattice order parameter of the insulating phase. Our results pave the way to the use of strain engineering approaches to manipulate topological defects and achieve the full control of the electronic Mott switching. The concept of topology-driven reversible electronic transition is of interest for a broad class of quantum materials, comprising transition metal oxides, chalcogenides and kagome metals, that exhibit first-order electronic transitions coupled to a symmetry-breaking order.

Published
2024
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4. Confinement-Induced Isosymmetric Metal-Insulator Transition in Ultrathin Epitaxial V2O3 Films

Author

Mellaerts, Simon, Bellani, Claudio, Hsu, Wei-Fan, Binetti, Alberto, Schouteden, Koen, Recaman-Payo, Maria, Menghini, Mariela, Zuazo, Juan Rubio, Sánchez, Jesús López, Seo, Jin Won, Houssa, Michel, and Locquet, Jean-Pierre

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Dimensional confinement has shown to be an effective strategy to tune competing degrees of freedom in complex oxides. Here, we achieved atomic layered growth of trigonal vanadium sesquioxide (V2O3) by means of oxygen-assisted molecular beam epitaxy. This led to a series of high-quality epitaxial ultrathin V2O3 films down to unit cell thickness, enabling the study of the intrinsic electron correlations upon confinement. By electrical and optical measurements, we demonstrate a dimensional confinement-induced metal-insulator transition in these ultrathin films. We shed light on the Mott-Hubbard nature of this transition, revealing an abrupt vanishing of the quasiparticle weight as demonstrated by photoemission spectroscopy. Furthermore, we prove that dimensional confinement acts as an effective out-of-plane stress. This highlights the structural component of correlated oxides in a confined architecture, while opening an avenue to control both in-plane and out-of-plane lattice components by epitaxial strain and confinement, respectively.

Published
2023
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5. Coherent control of the orbital occupation driving the insulator-to-metal Mott transition in V$_2$O$_3$

Author

Franceschini, Paolo, Policht, Veronica R., Milloch, Alessandra, Ronchi, Andrea, Mor, Selene, Mellaerts, Simon, Hsu, Wei-Fan, Pagliara, Stefania, Ferrini, Gabriele, Banfi, Francesco, Fabrizio, Michele, Menghini, Mariela, Locquet, Jean-Pierre, Conte, Stefano Dal, Cerullo, Giulio, and Giannetti, Claudio

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics, Quantum Physics
Abstract

Managing light-matter interactions on timescales faster than the loss of electronic coherence is key for achieving full quantum control of the final products in solid-solid transformations. In this work, we demonstrate coherent electronic control of the photoinduced insulator-to-metal transition in the prototypical Mott insulator V$_2$O$_3$. Selective excitation of a specific interband transition with two phase-locked light pulses manipulates the orbital occupation of the correlated bands in a way that depends on the coherent evolution of the photoinduced superposition of states. A comparison between experimental results and numerical solutions of the optical Bloch equations provides an electronic coherence time on the order of 5 fs. Temperature-dependent experiments suggest that the electronic coherence time is enhanced in the vicinity of the insulator-to-metal transition critical temperature, thus highlighting the role of fluctuations in determining the electronic coherence. These results open new routes to selectively switch the functionalities of quantum materials and coherently control solid-solid electronic transformations.

Published
2022
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6. Nanoscale self-organisation and metastable non-thermal metallicity in Mott insulators

Author

Ronchi, Andrea, Franceschini, Paolo, De Poli, Andrea, Homm, Pía, Fitzpatrick, Ann, Maccherozzi, Francesco, Ferrini, Gabriele, Banfi, Francesco, Dhesi, Sarnjeet S., Menghini, Mariela, Fabrizio, Michele, Locquet, Jean-Pierre, and Giannetti, Claudio

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Mott transitions in real materials are first order and almost always associated with lattice distortions, both features promoting the emergence of nanotextured phases. This nanoscale self-organization creates spatially inhomogeneous regions, which can host and protect transient non-thermal electronic and lattice states triggered by light excitation. Here, we combine time-resolved X-ray microscopy with a Landau-Ginzburg functional approach for calculating the strain and electronic real-space configurations. We investigate V$_2$O$_3$, the archetypal Mott insulator in which nanoscale self-organization already exists in the low-temperature monoclinic phase and strongly affects the transition towards the high-temperature corundum metallic phase. Our joint experimental-theoretical approach uncovers a remarkable out-of-equilibrium phenomenon: the photo-induced stabilisation of the long sought monoclinic metal phase, which is absent at equilibrium and in homogeneous materials, but emerges as a metastable state solely when light excitation is combined with the underlying nanotexture of the monoclinic lattice.

Published
2021
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7. Two-dimensional honeycomb-kagome V2O3: a robust room-temperature magnetic Chern insulator interfaced with graphene

Author

Mellaerts, Simon, Meng, Ruishen, Menghini, Mariela, Afanasiev, Valeri, Seo, Jin Won, Houssa, Michel, and Locquet, Jean-Pierre

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

The possibility of dissipationless chiral edge states without the need of an external magnetic field in the quantum anomalous Hall effect (QAHE) offers a great potential in electronic/spintronic applications. The biggest hurdle for the realization of a room-temperature magnetic Chern insulator is to find a structurally stable material with a sufficiently large energy gap and Curie temperature that can be easily implemented in electronic devices. This work based on first-principle methods shows that a single atomic layer of V2O3 with honeycomb-kagome (HK) lattice is structurally stable with a spin-polarized Dirac cone which gives rise to a room-temperature QAHE by the existence of an atomic on-site spin-orbit coupling (SOC). Moreover, by a strain and substrate study, it was found that the quantum anomalous Hall system is robust against small deformations and can be supported by a graphene substrate., Comment: Accepted at NPJ 2D Materials & Applications

Published
2021
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8. Non-thermal light-assisted resistance collapse in a V$_2$O$_3$-based Mott-insulator device

Author

Ronchi, Andrea, Franceschini, Paolo, Homm, Pia, Gandolfi, Marco, Ferrini, Gabriele, Pagliara, Stefania, Banfi, Francesco, Menghini, Mariela, Locquet, Jean-Pierre, and Giannetti, Claudio

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The insulator-to-metal transition in Mott insulators is the key mechanism for a novel class of electronic devices, belonging to the Mottronics family. Intense research efforts are currently devoted to the development of specific control protocols, usually based on the application of voltage, strain, pressure and light excitation. The ultimate goal is to achieve the complete control of the electronic phase transformation, with dramatic impact on the performance, for example, of resistive switching devices. Here, we investigate the simultaneous effect of external voltage and excitation by ultrashort light pulses on a single Mottronic device based on a V$_2$O$_3$ epitaxial thin film. The experimental results, supported by finite-element simulations of the thermal problem, demonstrate that the combination of light excitation and external electrical bias drives a volatile resistivity drop which goes beyond the combined effect of laser and Joule heating. Our results impact on the development of protocols for the non-thermal control of the resistive switching transition in correlated materials.

Published
2020
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9. Temporal dynamics of all-optical switching in hybrid VO2/Si waveguides

Author

Parra, Jorge, Ivanova, Todora, Menghini, Mariela, Homm, Pia, Locquet, Jean-Pierre, and Sanchis, Pablo

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Vanadium dioxide (VO2) is one of the most promising materials for developing hybrid photonic integrated devices (PICs). However, despite switching times as low as a few femtoseconds have been reported, the all-optical temporal dynamics of VO2 embedded in a waveguide using an in-plane optical signal remain still hidden. Here, we experimentally investigate this behavior in hybrid VO2/Si waveguides by using pump-probe measurements at telecom wavelengths. Our results show switching times in the micro and nanosecond range, suggesting that the phase transition is triggered thermally from the light absorbed by the VO2 and the temporal response is governed by thermal conductive dynamics. By properly engineering the optical pulse, we prospect switching times of nanoseconds with an energy consumption of a few nanojoules. Our results unveil a new temporal dynamic that would be useful for developing future all-optical VO2 photonic integrated devices.

Published
2020

10. Early-stage dynamics of metallic droplets embedded in the nanotextured Mott insulating phase of V$_2$O$_3$

Author

Ronchi, Andrea, Homm, Pía, Menghini, Mariela, Franceschini, Paolo, Maccherozzi, Francesco, Banfi, Francesco, Ferrini, Gabriele, Cilento, Federico, Parmigiani, Fulvio, Dhesi, Sarnjeet S., Fabrizio, Michele, Locquet, Jean-Pierre, and Giannetti, Claudio

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Unveiling the physics that governs the intertwining between the nanoscale self-organization and the dynamics of insulator-to-metal transitions (\textit{IMT}) is key for controlling on demand the ultrafast switching in strongly correlated materials and nano-devices. A paradigmatic case is the \textit{IMT} in V$_2$O$_3$, for which the mechanism that leads to the nucleation and growth of metallic nano-droplets out of the supposedly homogeneous Mott insulating phase is still a mystery. Here, we combine X-ray photoemission electron microscopy and ultrafast non-equilibrium optical spectroscopy to investigate the early stage dynamics of isolated metallic nano-droplets across the \textit{IMT} in V$_2$O$_3$ thin films. Our experiments show that the low-temperature monoclinic antiferromagnetic insulating phase is characterized by the spontaneous formation of striped polydomains, with different lattice distortions. The insulating domain boundaries accommodate the birth of metallic nano-droplets, whose non-equilibrium expansion can be triggered by the photo-induced change of the 3$d$-orbital occupation. We address the relation between the spontaneous nanotexture of the Mott insulating phase in V$_2$O$_3$ and the timescale of the metallic seeds growth. We speculate that the photoinduced metallic growth can proceed along a non-thermal pathway in which the monoclinic lattice symmetry of the insulating phase is partially retained., Comment: 17 pages, text+figures+methods+supplementary

Published
2018
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11. Ultrafast orbital manipulation and Mott physics in multi-band correlated materials

Author

Ronchi, Andrea, Franceschini, Paolo, Fanfarillo, Laura, Homm, Pía, Menghini, Mariela, Peli, Simone, Ferrini, Gabriele, Banfi, Francesco, Cilento, Federico, Damascelli, Andrea, Parmigiani, Fulvio, Locquet, Jean-Pierre, Fabrizio, Michele, Capone, Massimo, and Giannetti, Claudio

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

Multiorbital correlated materials are often on the verge of multiple electronic phases (metallic, insulating, super- conducting, charge and orbitally ordered), which can be explored and controlled by small changes of the external parameters. The use of ultrashort light pulses as a mean to transiently modify the band population is leading to fundamentally new results. In this paper we will review recent advances in the field and we will discuss the pos- sibility of manipulating the orbital polarization in correlated multi-band solid state systems. This technique can provide new understanding of the ground state properties of many interesting classes of quantum materials and offers a new tool to induce transient emergent properties with no counterpart at equilibrium. We will address: the discovery of high-energy Mottness in superconducting copper oxides and its impact on our understanding of the cuprate phase diagram; the instability of the Mott insulating phase in photoexcited vanadium oxides; the manipulation of orbital-selective correlations in iron-based superconductors; the pumping of local electronic excitons and the consequent transient effective quasiparticle cooling in alkali-doped fullerides. Finally, we will discuss a novel route to manipulate the orbital polarization in a a k-resolved fashion.

Published
2018
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12. Mott resistive switching initiated by topological defects

Author

Giannetti, Claudio, primary, Milloch, Alessandra, additional, Figueruelo-Campanero, Ignacio, additional, Hsu, Wei-Fan, additional, Mor, Selene, additional, Mellaerts, Simon, additional, Maccherozzi, Francesco, additional, Veiga, Larissa Ishibe, additional, Dhesi, Sarnjeet, additional, Spera, Mauro, additional, Seo, Jin, additional, Locquet, Jean-Pierre, additional, Fabrizio, Michele, additional, and Menghini, Mariela, additional

Published
2024
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14. Collapse of the low temperature insulating state in Cr-doped V$_2$O$_3$ thin films

Author

Homm, Pía, Dillemans, Leander, Menghini, Mariela, Van Bilzen, Bart, Bakalov, Petar, Su, Chen-Yi, Lieten, Ruben, Houssa, Michel, Esfahani, Davoud Nasr, Covaci, Lucian, Peeters, Francois, Seo, Jin Won, and Locquet, Jean-Pierre

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We have grown epitaxial Cr-doped V$_2$O$_3$ thin films with Cr concentrations between $0$ and $20\%$ on $(0001)$-Al$_2$O$_3$ by oxygen-assisted molecular beam epitaxy. For the highly doped samples (> $3\%$), a regular and monotonous increase of the resistance with decreasing temperature is measured. Strikingly, in the low doping samples (between $1\%$ and $3\%$), a collapse of the insulating state is observed with a reduction of the low temperature resistivity by up to 5 orders of magnitude. A vacuum annealing at high temperature of the films recovers the low temperature insulating state for doping levels below $3\%$ and increases the room temperature resistivity towards the values of Cr-doped V$_2$O$_3$ single crystals. It is well-know that oxygen excess stabilizes a metallic state in V$_2$O$_3$ single crystals. Hence, we propose that Cr doping promotes oxygen excess in our films during deposition leading to the collapse of the low temperature insulating state at low Cr concentrations. These results suggest that slightly Cr-doped V$_2$O$_3$ films can be interesting candidates for field effect devices., Comment: 4 pages, 4 figures

Published
2015
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15. Confinement-Induced Isosymmetric Metal–Insulator Transition in Ultrathin Epitaxial V2O3 Films

Author

Mellaerts, Simon, primary, Bellani, Claudio, additional, Hsu, Wei-Fan, additional, Binetti, Alberto, additional, Schouteden, Koen, additional, Recaman-Payo, Maria, additional, Menghini, Mariela, additional, Rubio-Zuazo, Juan, additional, López-Sánchez, Jesús, additional, Seo, Jin Won, additional, Houssa, Michel, additional, and Locquet, Jean-Pierre, additional

Published
2024
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17. Avalanches and Self-Organized Criticality in Superconductors

Author

Wijngaarden, Rinke J., Welling, Marco S., Aegerter, Christof M., and Menghini, Mariela

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Superconductivity
Abstract

We review the use of superconductors as a playground for the experimental study of front roughening and avalanches. Using the magneto-optical technique, the spatial distribution of the vortex density in the sample is monitored as a function of time. The roughness and growth exponents corresponding to the vortex landscape are determined and compared to the exponents that characterize the avalanches in the framework of Self-Organized Criticality. For those situations where a thermo-magnetic instability arises, an analytical non-linear and non-local model is discussed, which is found to be consistent to great detail with the experimental results. On anisotropic substrates, the anisotropy regularizes the avalanches.

Published
2005
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20. (Invited) Hybrid Nanodevices for Technology and Fun

Author

García Pérez, Cristina, primary, García Pérez, Julia, additional, Marzoa, Victor, additional, Caballero, Gabriel, additional, Martínez, Sandra, additional, Sánchez Toural, Juan Luis, additional, Calero de Ory, Marina, additional, Rodriguez, David, additional, Magaz, Maite, additional, Jiménez-Urbanos, Fernado, additional, Acebrón, María, additional, Rodríguez Osorio, Manuel, additional, Cánovas, Enrique, additional, Menghini, Mariela, additional, Gómez, Alicia, additional, Bernardo-Gavito, Ramón, additional, and Granados, Daniel, additional

Published
2023
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21. Raman spectroscopy and phonon dynamics in strained V2O3

Author

Hsu, Wei-Fan, primary, Mellaerts, Simon, additional, Bellani, Claudio, additional, Homm, Pia, additional, Uchida, Noriyuki, additional, Menghini, Mariela, additional, Houssa, Michel, additional, Seo, Jin Won, additional, and Locquet, Jean-Pierre, additional

Published
2023
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24. Enhancement of vortex liquid phase and reentrant behavior in NiBi3 single crystals

Author

Rollano V., de Ory M.C., Gomez A., Gonzalez E.M., Pribulová Z., Marcin M., Samuely P., Sanchez-Santolino G., Torres-Pardo A., Mompean F., García-Hernández M., Guillamón I., Suderow H., Menghini, Mariela, Vicent, José Luis, Rollano V., de Ory M.C., Gomez A., Gonzalez E.M., Pribulová Z., Marcin M., Samuely P., Sanchez-Santolino G., Torres-Pardo A., Mompean F., García-Hernández M., Guillamón I., Suderow H., Menghini, Mariela, and Vicent, José Luis

Published
2023

25. Coherent control of the orbital occupation driving the insulator-to-metal Mott transition in V2 O3

Author

Franceschini P., Policht V.R., Milloch A., Ronchi A., Mor S., Mellaerts S., Hsu W.-F., Pagliara S., Ferrini G., Banfi F., Fabrizio M., Menghini, Mariela, Locquet J.-P., Dal Conte S., Cerullo G., Giannetti C., Franceschini P., Policht V.R., Milloch A., Ronchi A., Mor S., Mellaerts S., Hsu W.-F., Pagliara S., Ferrini G., Banfi F., Fabrizio M., Menghini, Mariela, Locquet J.-P., Dal Conte S., Cerullo G., and Giannetti C.

Published
2023

26. Raman spectroscopy and phonon dynamics in strained V2 O3

Author

Hsu W.-F., Mellaerts S., Bellani C., Homm P., Uchida N., Menghini, Mariela, Houssa M., Seo J.W., Locquet J.-P., Hsu W.-F., Mellaerts S., Bellani C., Homm P., Uchida N., Menghini, Mariela, Houssa M., Seo J.W., and Locquet J.-P.

Published
2023

27. Coherent control of the orbital occupation driving the insulator-to-metal Mott transition in V2O3

Author

Franceschini, Paolo, primary, Policht, Veronica R., additional, Milloch, Alessandra, additional, Ronchi, Andrea, additional, Mor, Selene, additional, Mellaerts, Simon, additional, Hsu, Wei-Fan, additional, Pagliara, Stefania, additional, Ferrini, Gabriele, additional, Banfi, Francesco, additional, Fabrizio, Michele, additional, Menghini, Mariela, additional, Locquet, Jean-Pierre, additional, Dal Conte, Stefano, additional, Cerullo, Giulio, additional, and Giannetti, Claudio, additional

Published
2023
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31. Quantum Conductance in Memristive Devices: Fundamentals, Developments, and Applications (Adv. Mater. 32/2022)

Author

Milano, Gianluca, primary, Aono, Masakazu, additional, Boarino, Luca, additional, Celano, Umberto, additional, Hasegawa, Tsuyoshi, additional, Kozicki, Michael, additional, Majumdar, Sayani, additional, Menghini, Mariela, additional, Miranda, Enrique, additional, Ricciardi, Carlo, additional, Tappertzhofen, Stefan, additional, Terabe, Kazuya, additional, and Valov, Ilia, additional

Published
2022
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32. Nanoscale self-organization and metastable non-thermal metallicity in Mott insulators

Author

Ronchi, Andrea, primary, Franceschini, Paolo, additional, De Poli, Andrea, additional, Homm, Pía, additional, Fitzpatrick, Ann, additional, Maccherozzi, Francesco, additional, Ferrini, Gabriele, additional, Banfi, Francesco, additional, Dhesi, Sarnjeet S., additional, Menghini, Mariela, additional, Fabrizio, Michele, additional, Locquet, Jean-Pierre, additional, and Giannetti, Claudio, additional

Published
2022
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33. Nanoscale self-organization and metastable non-thermal metallicity in Mott insulators

Author

Ronchi A., Franceschini P., De Poli A., Homm P., Fitzpatrick A., Maccherozzi F., Ferrini G., Banfi F., Dhesi S.S., Menghini, Mariela, Fabrizio M., Locquet J.-P., Giannetti C., Ronchi A., Franceschini P., De Poli A., Homm P., Fitzpatrick A., Maccherozzi F., Ferrini G., Banfi F., Dhesi S.S., Menghini, Mariela, Fabrizio M., Locquet J.-P., and Giannetti C.

Published
2022

35. Quantum Conductance in Memristive Devices: Fundamentals, Developments, and Applications

Author

Milano G., Aono M., Boarino L., Celano U., Hasegawa T., Kozicki M., Majumdar S., Menghini, Mariela, Miranda E., Ricciardi C., Tappertzhofen S., Terabe K., Valov I., Milano G., Aono M., Boarino L., Celano U., Hasegawa T., Kozicki M., Majumdar S., Menghini, Mariela, Miranda E., Ricciardi C., Tappertzhofen S., Terabe K., and Valov I.

Published
2022

37. Nanoscale self-organization and metastable non-thermal metallicity in Mott insulators

Author

Ronchi, Andrea, Franceschini, Paolo, De Poli, Andrea, Homm, Pía, Fitzpatrick, Ann, Maccherozzi, Francesco, Ferrini, Gabriele, Banfi, Francesco, Dhesi, Sarnjeet S., Menghini, Mariela, Fabrizio, Michele, Locquet, Jean-Pierre, Giannetti, Claudio, Andrea Ronchi, Paolo Franceschini, Gabriele Ferrini (ORCID:0000-0002-5062-9099), Claudio Giannetti (ORCID:0000-0003-2664-9492), Ronchi, Andrea, Franceschini, Paolo, De Poli, Andrea, Homm, Pía, Fitzpatrick, Ann, Maccherozzi, Francesco, Ferrini, Gabriele, Banfi, Francesco, Dhesi, Sarnjeet S., Menghini, Mariela, Fabrizio, Michele, Locquet, Jean-Pierre, Giannetti, Claudio, Andrea Ronchi, Paolo Franceschini, Gabriele Ferrini (ORCID:0000-0002-5062-9099), and Claudio Giannetti (ORCID:0000-0003-2664-9492)

Abstract

Mott transitions in real materials are first order and almost always associated with lattice distortions, both features promoting the emergence of nanotextured phases. This nanoscale self-organization creates spatially inhomogeneous regions, which can host and protect tran- sient non-thermal electronic and lattice states triggered by light excitation. Here, we combine time-resolved X-ray microscopy with a Landau-Ginzburg functional approach for calculating the strain and electronic real-space configurations. We investigate V2O3, the archetypal Mott insulator in which nanoscale self-organization already exists in the low-temperature monoclinic phase and strongly affects the transition towards the high-temperature corundum metallic phase. Our joint experimental-theoretical approach uncovers a remarkable out-of- equilibrium phenomenon: the photo-induced stabilisation of the long sought monoclinic metal phase, which is absent at equilibrium and in homogeneous materials, but emerges as a metastable state solely when light excitation is combined with the underlying nanotexture of the monoclinic lattice.

Published
2022

42. Nanoscale self-organisation in Mott insulators: a richness in disguise

Author

Ronchi, Andrea, primary, Franceschini, Paolo, additional, De Poli, Andrea, additional, Homm, Pia, additional, Fitzpatrick, Ann, additional, Maccherozzi, Francesco, additional, Ferrini, Gabriele, additional, Banfi, Francesco, additional, Dhesi, Sarnjeet, additional, Menghini, Mariela, additional, Fabrizio, Michele, additional, Locquet, Jean-Pierre, additional, and Giannetti, Claudio, additional

Published
2021
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