Your search keyword '"Guerci, A."' showing total 5,823 results

1. Charge transfer spin-polarons and ferromagnetism in weakly doped AB-stacked TMD heterobilayers

Author

Guerci, Daniele, Pixley, J. H., and Millis, Andrew J.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We study the formation of ferromagnetic and magnetic polaron states in weakly doped heterobilayer transition metal dichalcogenides in the ``heavy fermion'' limit in which one layer hosts a dense set of local moments and the other hosts a low density of itinerant holes. We show that interactions among the carriers in the itinerant layer induces a ferromagnetic exchange. We characterize the ground state finding a competition, controlled by the carrier concentration and interlayer exchange, between a layer decoupled phase of itinerant carriers in a background of local moments, a fully polarized ferromagnet and a canted antiferromagnet. In the canted antiferromagnet phase the combination of the in-plane 120$^{\circ}$ N\'eel order and Ising spin orbit couplings induces winding in the electronic wavefunction giving rise to a topologically non-trivial spin texture and an observable anomalous Hall effect. At larger carrier density the ferromagnetically ordered phase transitions into a paramagnetic heavy Fermi liquid state. This theory enables a comprehensive understanding of the existing experimental observations while also making predictions including experimental signatures enabling direct imaging of spin polaron bound states with scanning tunneling microscopy. Our work shows that the prevailing paradigm of the (Doniach) phase diagram of heavy fermion metals is fundamentally modified in the low doping regime of heterobilayer transition metal dichalcogenides., Comment: 8+8 pages, 4+3 figures

Published

2024

2. Topological superconductivity from repulsive interactions in twisted WSe$_2$

Author

Guerci, Daniele, Kaplan, Daniel, Ingham, Julian, Pixley, J. H., and Millis, Andrew J.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

The recent observation of superconductivity in twisted bilayer WSe$_2$ raises intriguing questions concerning the origin and the properties of superconducting states realized in bands with non-trivial topological properties and repulsive electron-electron interactions. Using a continuum band structure model, we analyze a mechanism for Coulomb interaction-driven superconductivity in twisted bilayers of WSe$_2$. We discuss the symmetries and the phenomenological properties of the resulting superconducting phases and their evolution with interlayer potential difference, tunable via an out of plane electric field. The pairing strength is a non-monotonic function of interlayer potential, being larger at intermediate values due to mixing of singlet and triplet pairing. In contrast, at larger interlayer potential, the pairing tendency is suppressed due to enhanced Coulomb repulsion. The superconducting state is chiral in a large regime of parameters and undergoes a transition to a nodal nematic superconductor at a critical potential difference. The chiral state, characterized by an intervalley-symmetric superposition of triplet and singlet pairs, is classified as a topological superconductor within the Altland-Zirnbauer class C. At zero interlayer potential difference, the superconducting state is instead of class D, which hosts Majorana zero modes, making it a promising candidate for applications in quantum computation., Comment: 9+11 pages, 4+9 figures

Published

2024

3. Layer skyrmions for ideal Chern bands and twisted bilayer graphene

Author

Guerci, Daniele, Wang, Jie, and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Ideal $C=1$ Chern bands exhibit a Landau level correspondence: they factorize as a lowest Landau levels and a spinor wavefunction that spans the layer index. We demonstrate that, in single Dirac moir\'e models, the spinor develops generally a Skyrme texture in real space with an associated Berry phase which compensates exactly the magnetic phase of the Landau level. For ideal bands with higher Chern numbers $C>1$, we find that $C$ color Landau levels are carried by $C$ spinors with Skyrme textures. We identify a SU(C) gauge symmetry in the color space of spinors and an emergent non-Abelian connection in real space intimately linked to the Pontryagin winding index of the layer skyrmions. They result in a total real-space Chern number of $-1$, screening the magnetic phase, irrespective of $C$ and of the number of layers. The topologically robust Skyrme texture remains remarkably intact in twisted bilayer graphene, even far from the chiral limit, and for realistic values of corrugation, making it an experimentally testable feature. We verify our predictions at the first magic angle of twisted bilayer, trilayer, and monolayer-bilayer graphene., Comment: 8+13 pages, 6 figures

Published

2024

4. Topological Kondo semimetal and insulator in AB-stacked heterobilayer transition metal dichalcogenides

Author

Guerci, Daniele, Lucht, Kevin P., Crépel, Valentin, Cano, Jennifer, Pixley, J. H., and Millis, Andrew J.

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Recent experiments reported the realization of a heavy Fermi liquid in AB-stacked MoTe$_2$/WSe$_2$ heterobilayers. In this paper we show that the AB-stacked heterobilayer configuration is particularly suited to realize topological Kondo semimetal and topological Kondo insulator ground states at a doping of two holes per moir\'e unit cell. The small lattice mismatch between the MoTe$_2$ and WSe$_2$ monolayers and the different bandwidths of their highest lying moir\'e valence bands means that, in the experimentally relevant range of hole dopings, the MoTe$_2$ layer is effectively a Mott insulator with only low-lying magnetic excitations Kondo-coupled to more itinerant electrons in the WSe$_2$. The crucial consequence of the AB-stacking configuration is that the interlayer tunnelling connects orbitals of opposite parity in the two layers, leading to a chiral Kondo coupling. We show that the chiral Kondo coupling favors a topological Kondo semimetal at filling $\nu=1+1$, with a non-quantized spin Hall conductance arising from edge modes, whose spectrum and overlap with bulk states we determine. We further show that a spatially random strain field that locally breaks the rotation symmetry can convert the Kondo semimetal to a narrow gap topological Kondo insulator featuring a quantized spin Hall conductance., Comment: 12 pages, 11 figures

Published

2024

5. Electrical Transport in the Hatsugai-Kohmoto Model

Author

Guerci, Daniele, Sangiovanni, Giorgio, Millis, Andrew J., and Fabrizio, Michele

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We show that in models with the Hatsugai-Kohmoto type of interaction that is local in momentum space thus infinite-range in real space, Kubo formulas neither reproduce the correct thermodynamic susceptibilities, nor yield sensible transport coefficients. Using Kohn's trick to differentiate between metals and insulators by threading a flux in a torus geometry, we uncover the striking property that Hatsugai-Kohmoto models with an interaction-induced gap in the spectrum sustain a current that grows as the linear size at any non-zero flux and which can be either diamagnetic or paramagnetic., Comment: 7 pages, 1 figure

Published

2024

6. Helical trilayer graphene in magnetic field: Chern mosaic and higher Chern number ideal flat bands

Author

Datta, Anushree, Guerci, Daniele, Goerbig, Mark O., and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Helical trilayer graphene (hTG) exhibits a supermoir\'e pattern with large domains centered around stacking points ABA and BAB, where two well-separated low-energy bands appear with different total Chern numbers at each valley, forming a Chern mosaic pattern. In the chiral limit, the low-energy bands become exactly flat at zero energy for magic-angle twists. Here we investigate these zero-energy flat bands and their topological properties in the presence of a perpendicular magnetic field. We show that hTG retains the precise flatness of the zero-energy bands, even at finite magnetic fields. We find topological phase transitions at fields corresponding to unit and half magnetic flux leading to an emergence of higher Chern number flat bands. Consequently the Chern mosaic gets modified for finite magnetic fields. We further find the analytical forms of zero-energy wave functions and identify a set of hidden wave functions, which gives crucial insights into both the topological transitions and enhancement of Chern numbers across them. We also find topological transitions away from the chiral limit with finite corrugations and at different magic angles., Comment: 16 pages, 7 figures

Published

2024

7. Sublattice structure and topology in spontaneously crystallized electronic states

Author

Zeng, Yongxin, Guerci, Daniele, Crépel, Valentin, Millis, Andrew J., and Cano, Jennifer

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The prediction and realization of the quantum anomalous Hall effect are often intimately connected to honeycomb lattices in which the sublattice degree of freedom plays a central role in the nontrivial topology. Two-dimensional Wigner crystals, on the other hand, form triangular lattices without sublattice degrees of freedom, resulting in a topologically trivial state. In this Letter, we discuss the possibility of spontaneously formed honeycomb-lattice crystals that exhibit the quantum anomalous Hall effect. Starting from a single-band system with nontrivial quantum geometry, we derive the mean-field energy functional of a class of crystal states and express it as a model of sublattice pseudospins in momentum space. We find that nontrivial quantum geometry leads to extra terms in the pseudospin model that break an effective `time-reversal symmetry' and favor a topologically nontrivial pseudospin texture. When the effects of these extra terms dominate over the ferromagnetic exchange coupling between pseudospins, the anomalous Hall crystal state becomes energetically favorable over the trivial Wigner crystal state.

Published

2024

8. Absence of quantization in the circular photogalvanic effect in disordered chiral Weyl semimetals

Author

Wu, Ang-Kun, Guerci, Daniele, Fu, Yixing, Wilson, Justin H., and Pixley, J. H.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Disordered Systems and Neural Networks

Abstract

The circularly polarized photogalvanic effect (CPGE) is studied in chiral Weyl semimetals with short-ranged quenched disorder. Without disorder, the topological properties of chiral Weyl semimetals lead to the quantization of the CPGE, which is a second-order optical response. Using a combination of diagrammatic perturbation theory in the continuum and exact numerical calculations via the kernel polynomial method on a lattice model we show that disorder perturbatively destabilizes the quantization of the CPGE., Comment: 16 pages, 11 figures

Published

2023

9. Edge zeros and boundary spinons in topological Mott insulators

Author

Wagner, Niklas, Guerci, Daniele, Millis, Andrew J., and Sangiovanni, Giorgio

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We introduce a real-space slave rotor theory of the physics of topological Mott insulators, using the Kane-Mele-Hubbard model as an example, and use it to show that a topological gap in the Green function zeros corresponds to a gap in the bulk spinon spectrum and that a zero edge mode corresponds to a spinon edge mode. We then consider an interface between a topological Mott insulator and a conventional topological insulator showing how the spinon edge mode of the topological Mott insulator combines with the spin part of the conventional electron topological edge state leaving a non-Fermi liquid edge mode described by a gapless propagating holon and gapped spinon state. Our work demonstrates the physical meaning of Green function zeros and shows that interfaces between conventional and Mott topological insulators are a rich source of new physics., Comment: 7+5 pages, 4+3 figures

Published

2023

10. Heterogeneity of glycaemic phenotypes in type 1 diabetes

Author

Fagherazzi, Guy, Aguayo, Gloria A., Zhang, Lu, Hanaire, Hélène, Picard, Sylvie, Sablone, Laura, Vergès, Bruno, Hamamouche, Naïma, Detournay, Bruno, Joubert, Michael, Delemer, Brigitte, Guilhem, Isabelle, Vambergue, Anne, Gourdy, Pierre, Hadjadj, Samy, Velayoudom, Fritz-Line, Guerci, Bruno, Larger, Etienne, Jeandidier, Nathalie, Gautier, Jean-François, Renard, Eric, Potier, Louis, Benhamou, Pierre-Yves, Sola, Agnès, Bordier, Lyse, Bismuth, Elise, Prévost, Gaëtan, Kessler, Laurence, Cosson, Emmanuel, and Riveline, Jean-Pierre

Published

2024

11. Imaging Self-aligned Moir\'e Crystals and Quasicrystals in Magic-angle Bilayer Graphene on hBN Heterostructures

Author

Lai, Xinyuan, Guerci, Daniele, Li, Guohong, Watanabe, Kenji, Taniguchi, Takashi, Wilson, Justin, Pixley, Jedediah H., and Andrei, Eva Y.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Using scanning-tunneling-microscopy and theoretical modeling on heterostructures of twisted bilayer graphene and hexagonal Boron-Nitride, we show that the emergent super-moire structures display a rich landscape of moire-crystals and quasicrystals. We reveal a phase-diagram comprised of commensurate moire-crystals embedded in swaths of moire quasicrystals. The 1:1 commensurate crystal, expected to be a Chern insulator, should only exist at one point on the phase-diagram, implying that it ought to be practically undetectable. Surprisingly we find that the commensurate crystals exist over a much wider than predicted range, providing evidence of an unexpected self-alignment mechanism that is explained using an elastic-network model. The remainder of the phase-diagram, where we observe tunable quasicrystals, affords a new platform for exploring the unique electronic-properties of these rarely found in nature structures., Comment: 37 pages, 18 figures

Published

2023

12. Nature of even and odd magic angles in helical twisted trilayer graphene

Author

Guerci, Daniele, Mao, Yuncheng, and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Helical twisted trilayer graphene exhibits zero-energy flat bands with large degeneracy in the chiral limit. The flat bands emerge at a discrete set of magic twist angles and feature properties intrinsically distinct from those realized in twisted bilayer graphene. Their degeneracy and the associated band Chern numbers depend on the parity of the magic angles. Two degenerate flat bands with Chern numbers $C_A=2$ and $C_B=-1$ arise at odd magic angles, whereas even magic angles display four flat bands, with Chern number $C_{A/B}=\pm1$, together with a Dirac cone crossing at zero energy. All bands are sublattice polarized. We demonstrate the structure behind these flat bands and obtain analytical expressions for the wavefunctions in all cases. Each magic angle is identified with the vanishing of a zero-mode wavefunction at high-symmetry position and momentum. The whole analytical structure results from whether the vanishing is linear or quadratic for the, respectively, odd and even magic angle. The $C_{3z}$ and $C_{2y}T$ symmetries are shown to play a key role in establishing the flat bands. In contrast, the particle-hole symmetry is not essential, except from gapping out the crossing Dirac cone at even magic angles., Comment: 14 pages, 6 figures

Published

2023

13. Geometric Stiffness in Interlayer Exciton Condensates

Author

Verma, Nishchhal, Guerci, Daniele, and Queiroz, Raquel

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

Recent experiments have confirmed the presence of interlayer excitons in the ground state of transition metal dichalcogenide (TMD) bilayers. The interlayer excitons are expected to show remarkable transport properties when they undergo Bose condensation. In this work, we demonstrate that quantum geometry of Bloch wavefunctions plays an important role in the phase stiffness of the Interlayer Exciton Condensate (IEC). Notably, we identify a geometric contribution that amplifies the stiffness, leading to the formation of a robust condensate with an increased BKT temperature. Our results have direct implications for the ongoing experimental efforts on interlayer excitons in materials that have non-trivial quantum geometry. We provide quantitative estimates for the geometric contribution in TMD bilayers through a realistic continuum model with gated Coulomb interaction, and find that the substantially increased stiffness allows for an IEC to be realized at amenable experimental conditions., Comment: improved presentation

Published

2023

14. Navigating political minefields: applying frames of reference of the employment relation to access negotiations to workplace ethnographies

Author

Stefan, Jana, Hirst, Alison, Guerci, Marco, and Toraldo, Maria Laura

Published

2024

15. Consensus-driven protocol for transanal irrigation in patients with low anterior resection syndrome and functional constipation

Author

Martellucci, J., Falletto, E., Ascanelli, S., Bondurri, A., Borin, S., Bottini, C., Caproli, E., Carrera, M., Cestaro, G., Chimisso, L., Clarizia, G., Clementi, I., Cornaglia, S., Costa, S., Gallo, G., Guerci, C., Lambiase, C., Lauretta, A., Luffarelli, P., Neri, M. C., Piccolo, D., Rosati, E., Rossitti, P., Spolini, A., Torchia, G., Valloncini, E., Zattoni, D., Zucchi, E., Biotti, P., Cambareri, A., Coniglio, G., Coppola, A., Nepote Fus, K., Graziani, S., Grilli, M., Grego, A., Guerra, E., Livio, E., Manganini, L., Mazzeo, P., Minonne, A., Mirafiori, M., Negri, G., Palazzolo, V., Di Pasquale, C., and Tantolo, V.

Published

2024

16. Pain outcomes of outside-the-cage robotic thoracic surgery: a prospective matched-cohort study

Author

Streit, Arthur, Walsh, Lyndon C., Stasiak, Florent, Vautrin, Nicolas, Guerci, Philippe, Seitlinger, Joseph, and Renaud, Stéphane

Published

2024

17. Clinical impact of genetic alterations including germline DDX41 mutations in MDS/low-blast count AML patients treated with azacitidine-based regimens

Author

Sébert, Marie, Freiman, Lucie, Chaffaut, Cendrine, Guerci, Agnès, Peterlin, Pierre, Thépot, Sylvain, Beyne-Rauzy, Odile, Park, Sophie, Cluzeau, Thomas, Chermat, Fatiha, Fenaux, Pierre, Preudhomme, Claude, Clappier, Emmanuelle, Chevret, Sylvie, Adès, Lionel, Duployez, Nicolas, and Duchmann, Matthieu

Published

2024

18. Chiral model of twisted bilayer graphene realized in a monolayer

Author

Crépel, Valentin, Dunbrack, Aaron, Guerci, Daniele, Bonini, John, and Cano, Jennifer

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We demonstrate that a single layer of graphene subject to a superlattice potential nearly commensurate to a $\sqrt{3} \times \sqrt{3}$ supercell exactly maps to the chiral model of twisted bilayer graphene, albeit with half as many degrees of freedom. We comprehensively review the properties of this ``half-chiral model,'' including the interacting phases stabilized at integer fillings and the effects of substrate-induced symmetry breaking. We list candidate substrates that could produce a superlattice potential on graphene with the correct periodicity to access the flat band limit. Experimental measurements on a half-chiral moire heterostructure, in which valley-skyrmions cannot form, could yield insights on the physics they mediate in twisted bilayer graphene.

Published

2023

19. Chern mosaic and ideal flat bands in equal-twist trilayer graphene

Author

Guerci, Daniele, Mao, Yuncheng, and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We study trilayer graphene arranged in a staircase stacking configuration with equal consecutive twist angle. On top of the moir\'e cristalline pattern, a supermoir\'e long-wavelength modulation emerges that we treat adiabatically. For each valley, we find that the two central bands are topological with Chern numbers $C=\pm 1$ forming a Chern mosaic at the supermoir\'e scale. The Chern domains are centered around the high-symmetry stacking points ABA or BAB and they are separated by gapless lines connecting the AAA points, where the spectrum is fully connected. In the chiral limit and at a magic angle of $\theta \sim 1.69^\circ$, we prove that the central bands are exactly flat with ideal quantum curvature at ABA and BAB. Furthermore, we decompose them analytically as a superposition of an intrinsic color-entangled state with $\pm 2$ and a Landau level state with Chern number $\mp 1$. To connect with experimental configurations, we also explore the non-chiral limit with finite corrugation and find that the topological Chern mosaic pattern is indeed robust and the central bands are still well separated from remote bands., Comment: 7+7 pages, 5 figures

Published

2023

20. Topological superconductivity in doped magnetic moir\'e semiconductors

Author

Crépel, Valentin, Guerci, Daniele, Cano, Jennifer, Pixley, J. H., and Millis, Andrew

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We show that topological superconductivity may emerge upon doping of transition metal dichalcogenide heterobilayers above an integer-filling magnetic state of the topmost valence moir\'e band. The effective attraction between charge carriers is generated by an electric p-wave Feshbach resonance arising from interlayer excitonic physics and has a tuanble strength, which may be large. Together with the low moir\'e carrier densities reachable by gating, this robust attraction enables access to the long-sought p-wave BEC-BCS transition. The topological protection arises from an emergent time reversal symmetry occurring when the magnetic order and long wavelength magnetic fluctuations do not couple different valleys. The resulting topological superconductor features helical Majorana edge modes, leading to half-integer quantized spin-thermal Hall conductivity and to charge currents induced by circularly polarized light or other time-reversal symmetry-breaking fields., Comment: 5+2 pages, 4 figures

Published

2023

21. Time-dependent ghost-Gutzwiller non-equilibrium dynamics

Author

Guerci, Daniele, Capone, Massimo, and Lanatà, Nicola

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We introduce the time-dependent ghost Gutzwiller approximation (td-gGA), a non-equilibrium extension of the ghost Gutzwiller approximation (gGA), a powerful variational approach which systematically improves on the standard Gutzwiller method by including auxiliary degrees of freedom. We demonstrate the effectiveness of td-gGA by studying the quench dynamics of the single-band Hubbard model as a function of the number of auxiliary parameters. Our results show that td-gGA captures the relaxation of local observables, in contrast with the time-dependent Gutzwiller method. This systematic and qualitative improvement leads to an accuracy comparable with time-dependent Dynamical Mean-Field Theory which comes at a much lower computational cost. These findings suggest that td-gGA has the potential to enable extensive and accurate theoretical investigations of multi-orbital correlated electron systems in nonequilibrium situations, with potential applications in the field of quantum control, Mott solar cells, and other areas where an accurate account of the non-equilibrium properties of strongly interacting quantum systems is required., Comment: 8 pages, 2 figures

Published

2023

22. Medial Gradual Opening Osteotomy of the Tibia With Monolateral External Fixator for Correcting the Varus Deformity of the Tibia

Author

Flavio dos Santos Cerqueira, M.D., Felipe Holanda Junqueira, M.D., Guilherme Blois Vasconcelos Pereira, M.D., Larissa da Silva, M.D., Lucas Braga Teixeira, M.D., David Guerci Maia, M.D., Rafael Gouvea de Moraes Vivas, M.D., Jander Soares de Faria, M.D., Jose Leonardo Rocha de Faria, M.D., M.Sc., Leandro Lemgruber Kropf, M.D., M.Sc., Fernando dos Santos Cerqueira, M.D., M.Sc., Bruno Domenico Leonetti, M.D., and Diego Perez da Motta, M.D., M.Sc.

Subjects

Orthopedic surgery, RD701-811

Abstract

Correction of the varus deformities in the tibia is necessary because of the excessive pressure exerted on the medial compartment of the knee, which intensifies the degenerative process. Correction strategies encompass a variety of approaches and depend on the patient’s individual characteristics, age, soft tissue condition, and the orthopaedic surgeon’s experience with different surgical materials. Size and location of the deformity, whether gradual or acute, play crucial roles in choosing the most appropriate material and shape. The gradual correction is especially indicated for patients with severe deformities, soft tissue involvement, and a history of bone infections. This study aimed to introduce a gradual correction technique for varus deformities in the tibia using a unilateral external fixator and to describe the postoperative follow-up. This technique offers notable advantages, including accurate correction, better patient acceptance, lighter assembly, less risk of pseudarthrosis, and shorter distraction process owing to the use of a single piece. In addition, the operated limb can support the load on the day after surgery, and dynamic follow-up is performed on an outpatient basis.

Published

2024

23. Design and Development of an Autonomous Surface Vehicle for Supporting Underwater Navigation

Author

Boccalini, Lorenzo, Cavaliere, Chiara, Costanzi, Riccardo, Di Lorenzo, Giovanni, Guerci, Matteo, Lisi, Michele, Pollini, Lorenzo, Ruscio, Francesco, Ryals, Andrea Dan, Tani, Simone, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Concli, Franco, editor, Maccioni, Lorenzo, editor, Vidoni, Renato, editor, and Matt, Dominik T., editor

Published

2024

24. The Railway Anji-Kahad Bridge in the Indian Kashmire Region

Author

Petrangeli, Mario P., Vittozzi, Angelo, Polastri, Andrea, Guerci, Dario, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, and Menegotto, Marco, editor

Published

2024

25. Exploring representations of human resource management as moral dirty work: A film study.

Author

Carollo, Luca, Guerci, Marco, Della Torre, Edoardo, and Previtali, Giuseppe

Subjects

EMPLOYEE psychology, CORPORATE culture, PERSONNEL management, WORK environment, ETHICS, MOTION pictures, INTERPERSONAL relations, LABOR discipline, SOCIAL stigma, INDUSTRIAL relations, EMPLOYEE attitudes

Abstract

It has been claimed that the HR "profession" suffers from a chronic shortage of social legitimacy. In this article, we advance the idea that HR is also to some extent subject to public stigmatization for being immoral. In other words, we maintain that certain aspects of contemporary HR work can be conceptualized as morally dirty work. We provide empirical support for this contention by analyzing a set of 28 films portraying HR practitioners at work. The research results comprise both task‐related and method‐related filmic representations of HR work as immoral, thus furnishing a comprehensive and nuanced picture of the moral issues that can affect the HR profession. Furthermore, the results show that some of the HR characters analyzed—typically those who hold a role as (co‐)protagonists in the story—realize the immorality affecting their work and decide to distance themselves from it by either exiting the role, trying to reform it, or openly raising resistance against their employer. These research results suggest the need to integrate dirty work scholarship into study of the HR profession, while they provide important indications in terms of future HR research, practice and education. [ABSTRACT FROM AUTHOR]

Published

2024

26. Supermoir\'e low-energy effective theory of twisted trilayer graphene

Author

Mao, Yuncheng, Guerci, Daniele, and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Stacking three monolayers of graphene with a twist generally produces two moir\'e patterns. A moir\'e of moir\'e structure then emerges at larger distance where the three layers periodically realign. We devise here an effective low-energy theory to describe the spectrum at distances larger than the moir\'e lengthscale. In each valley of the underlying graphene, the theory comprises one Dirac cone at the ${\bf \Gamma}_M$ point of the moir\'e Brillouin zone and two weakly gapped points at ${\bf K}_M$ and ${\bf K}'_M$. The velocities and small gaps exhibit a spatial dependence in the moir\'e-of-moir\'e unit cell, entailing a non-abelian connection potential which ensures gauge invariance. The resulting model is numerically solved and a fully connected spectrum is obtained, which is protected by the combination of time-reversal and twofold-rotation symmetries., Comment: 17 pages, 15 figures

Published

2022

27. Adopting an Ecosystem Approach to Digitalization-driven Organizational Change ? Actionable Knowledge from a Collaborative Project

Author

Shaba, Emanuela, Guerci, Marco, Canterino, Filomena, Gilardi, Silvia, Cagliano, Raffaella, and Bartezzaghi, Emilio

Published

2023

28. Chiral Kondo Lattice in Doped MoTe$_2$/WSe$_2$ Bilayers

Author

Guerci, Daniele, Wang, Jie, Zang, Jiawei, Cano, Jennifer, Pixley, J. H., and Millis, Andrew

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We theoretically study the interplay between magnetism and a heavy Fermi liquid in the AB stacked transition metal dichalcogenide bilayer system MoTe$_2$/WSe$_2$ in the regime in which the Mo layer supports localized magnetic moments coupled by interlayer electron tunnelling to a weakly correlated band of itinerant electrons in the W layer. We show that the interlayer electron transfer leads to a chiral Kondo exchange, with consequences including a strong dependence of the Kondo temperature on carrier concentration, a topological hybridization gap and an anomalous Hall effect. The theoretical model exhibits two phases, a small Fermi surface magnet and a large Fermi surface heavy Fermi liquid; the transition between them is first order. A low-energy theory is developed for the the transport properties of the two states. Implications of our results for present and future experiments on MoTe$_2$/WSe$_2$ bilayer heterostructures are discussed., Comment: (7+9) pages, (4+6) figures

Published

2022

29. Designer Meron Lattice on the Surface of a Topological Insulator

Author

Guerci, Daniele, Wang, Jie, Pixley, J. H., and Cano, Jennifer

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We present a promising route to realize spontaneous magnetic order on the surface of a 3D topological insulator by applying a superlattice potential. The superlattice potential creates tunable van Hove singularities, which, when combined with strong spin-orbit coupling and Coulomb repulsion give rise to a topological meron lattice spin texture. The periodicity of this designer meron lattice can be tuned by varying the periodicity of the superlattice potential. We characterize the magnetic order using Ginzburg-Landau theory and show that the magnetic transition temperature reaches experimentally accessible values. Our work introduces a new direction to realize exotic quantum order by engineering interacting Dirac electrons in a superlattice potential, with promising applications to spintronics., Comment: 11 pages, 5 figures and 2 tables

Published

2022

30. Low dose lenalidomide versus placebo in non-transfusion dependent patients with low risk, del(5q) myelodysplastic syndromes (SintraREV): a randomised, double-blind, phase 3 trial

Author

Díez-Campelo, María, López-Cadenas, Félix, Xicoy, Blanca, Lumbreras, Eva, González, Teresa, del Rey González, Mónica, Sánchez-García, Joaquín, Coll Jordà, Rosa, Slama, Bohrane, Hernández-Rivas, Jose-Ángel, Thepot, Sylvain, Bernal, Teresa, Guerci-Bresler, Agnès, Bargay, Joan, Amigo, María Luz, Preudhomme, Claude, Fenwarth, Laurene, Platzbecker, Uwe, Götze, Katharina S, Arar, Ali, Toribio, Sofía, Del Cañizo, Consuelo, Hernández-Rivas, Jesús María, and Fenaux, Pierre

Published

2024

31. High Fidelity RF Clutter Modeling and Simulation

Author

Gogineni, Sandeep, Guerci, Joseph R., Nguyen, Hoan K., Bergin, Jameson S., Kirk, David R., Watson, Brian C., and Rangaswamy, Muralidhar

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

In this paper, we present a tutorial overview of state-of-the-art radio frequency (RF) clutter modeling and simulation (M&S) techniques. Traditional statistical approximation based methods will be reviewed followed by more accurate physics-based stochastic transfer function clutter models that facilitate site-specific simulations anywhere on earth. The various factors that go into the computation of these transfer functions will be presented, followed by several examples across multiple RF applications. Finally, we introduce a radar challenge dataset generated using these tools that can enable testing and benchmarking of all cognitive radar algorithms and techniques., Comment: submitted to IEEE Aerospace and Electronic Systems Magazine

Published

2022

32. Actualisation de la prise de position des experts français sur l’insulinothérapie automatisée en boucle fermée

Author

Renard, Éric, Tubiana-Rufi, Nadia, Chaillous, Lucy, Bonnemaison, Élisabeth, Hanaire, Hélène, Bismuth, Élise, Joubert, Michael, Coutant, Régis, Schaepelynck, Pauline, Beltrand, Jacques, Reznik, Yves, Authier, Florence, Borot, Sophie, Brunot, Sophie, Calvez, Claire, Charpentier, Guillaume, Dalla-Vale, Fabienne, Delawoevre, Anne, Delemer, Brigitte, Desserprix, Agnès, Durain, Danielle, Fendri, Salha, Franc, Sylvia, Godot, Cécile, Gouet, Didier, Guenego, Agathe, Guerci, Bruno, Guilhem, Isabelle, Jeandidier, Nathalie, Lablanche, Sandrine, Le Tallec, Claire, Malwe, Mathilde, Meyer, Laurent, Morin, Carole, Penfornis, Alfred, Picard, Sylvie, Riveline, Jean-Pierre, Rossignol, Valérie, Smati, Sarra, Sola-Gazagnes, Agnès, Thivolet, Charles, Villard, Orianne, and Benhamou, Pierre Yves

Published

2024

33. Prospective randomized double-blind study to evaluate the superiority of Vasopressin versus Norepinephrine in the management of the patient at renal risk undergoing cardiac surgery with cardiopulmonary bypass (NOVACC trial)

Author

Nguyen, Maxime, Durand, Bastien, Martin, Audrey, Berthoud, Vivien, Constandache, Tiberiu, Grosjean, Sandrine, Radhouani, Mohamed, Anciaux, Jean-Baptiste, Voizeux, Pierre, Appriou, Anouck, Kabout, Valentin, Marcand, Jules, Nays, Florian, Guilhot, Maxime, Alardin, Rudy, Ilic, Dejan, Senot, Thomas, Christophe, Beyls, Guillaume, Bayart, Clément, Lagarde, Florent, Leviel, Thomas, Lefebvre, Guillaume, Haye, Aurore, Huguetto, Helene, David, Tommy, Grelet, Lucas, Pereira, Zoé, Zaepffel, Maxime, Guilhot, Amélie, Bataillard, Rudy, Alardin, Thomas, Senot, Aleksandra, Jelicic, Dejan, Ilic, Bronnert, Michel, Tissot, Charles, Fouace, Guinot, Pierre-Grégoire, Desebbe, Olivier, Besch, Guillaume, Guerci, Philippe, Gaudard, Philippe, Lena, Diane, Mertes, Paul Michel, Abou-Arab, Osama, and Bouhemad, Belaid

Published

2024

34. Combination of serum and peritoneal 1.3-beta-d-glucan can rule out intra-abdominal candidiasis in surgical critically ill patients: a multicenter prospective study

Author

Novy, Emmanuel, Rivière, Jérémie, Nguyen, Maxime, Arfeuille, Gaëlle, Louis, Guillaume, Bouhemad, Bélaïd, Pottecher, Julien, Hecketsweiler, Stéphane, Germain, Adeline, Laithier, François-Xavier, Losser, Marie-Reine, Debourgogne, Anne, Bernard, Yohann, Rousseau, Hélène, Baumann, Cédric, Luc, Amandine, Birckener, Julien, Machouart, Marie-Claire, and Guerci, Philippe

Published

2023

35. Reappraisal of intra-abdominal candidiasis: insights from peritoneal fluid analysis

Author

Novy, Emmanuel, Esposito, Mathieu, Birckener, Julien, Germain, Adeline, Losser, Marie-Reine, Machouart, Marie-Claire, and Guerci, Philippe

Published

2023

36. Thoracic epidural analgesia in intensive care unit patients with acute pancreatitis: the EPIPAN multicenter randomized controlled trial

Author

Jabaudon, Matthieu, Genevrier, Alexandra, Jaber, Samir, Windisch, Olivier, Bulyez, Stéphanie, Laterre, Pierre-François, Escudier, Etienne, Sossou, Achille, Guerci, Philippe, Bertrand, Pierre-Marie, Danin, Pierre-Eric, Bonnassieux, Martin, Bühler, Leo, Heidegger, Claudia Paula, Chabanne, Russell, Godet, Thomas, Roszyk, Laurence, Sapin, Vincent, Futier, Emmanuel, Pereira, Bruno, and Constantin, Jean-Michel

Published

2023

37. Is it possible to predict the severity of acute appendicitis? Reliability of predictive models based on easily available blood variables

Author

Afzal, Barza, Cirocchi, Roberto, Dawani, Aruna, Desiderio, Jacopo, Di Cintio, Antonio, Di Nardo, Domenico, Farinacci, Federico, Fung, James, Gemini, Alessandro, Guerci, Lorenzo, Kam, Sen Yin Melina, Lakunina, Svetlana, Madi, Lee, Mazzetti, Stefano, Nadyrshine, Bakhtiar, Shams, Ola, Ranucci, Maria Chiara, Ricci, Francesco, Sharmin, Afroza, Trastulli, Stefano, Yasin, Tanzela, Bond-Smith, Giles, and Tebala, Giovanni D.

Published

2023

38. Norepinephrine formulation for equivalent vasopressive score

Author

Mongardon, Nicolas, de Roux, Quentin, Leone, Marc, and Guerci, Philippe

Published

2023

39. Combining glucagon-like peptide-1 receptor agonists (GLP-1RAs) and sodium-glucose cotransporter-2 inhibitors (SGLT2is) in patients with type 2 diabetes mellitus (T2DM)

Author

Gourdy, Pierre, Darmon, Patrice, Dievart, François, Halimi, Jean-Michel, and Guerci, Bruno

Published

2023

40. Clinical factors affecting short- and long-term mortality in older patients with COVID-19: a retrospective cohort study

Author

Benedetta Pennella, Francesca Rotunno, Martina Mercuri, Marco Guerci, Mauro Molteni, Marta Biancucci, Clelia Berton, Francesca Troian, Paolo Maria Tripodi, Alessia Gilio, Antea Milano, Daniela Dalla Gasperina, Francesco Dentali, Aldo Bonaventura, and Andrea Maria Maresca

Subjects

COVID-19, SARS-CoV-2, older patients, mortality, frailty, Medicine

Abstract

The majority of fatal cases of SARS-CoV-2 was concentrated among older patients. We aimed at assessing risk factors contributing to mortality in this population. A retrospective study including 584 COVID-19 patients aged ≥80 years hospitalized between October 10th 2020 to May 4th 2021 at Ospedale di Circolo (Varese, Italy) and Ospedale Galmarini (Tradate, Italy) was conducted. Evaluation of risk factors associated with in-hospital mortality was the primary endpoint. 509 patients were considered. Median age was 86 [82-89] years. Almost half of the patients (n=241) suffered from ≥3 comorbidities. Overall in-hospital mortality was 39.7% (n=202). Age, chronic kidney disease (CKD), peripheral oxygen saturation at admission, and high-flow oxygen during hospital stay independently predicted in-hospital mortality. Overall mortality at 6 months was 57.8% (n=294) and increased with increasing age and number of comorbidities (P

Published

2024

41. The Railway Anji-Kahad Bridge in the Indian Kashmire Region

Author

Petrangeli, Mario P., primary, Vittozzi, Angelo, additional, Polastri, Andrea, additional, and Guerci, Dario, additional

Published

2023

42. Higher-order van Hove singularity in magic-angle twisted trilayer graphene

Author

Guerci, Daniele, Simon, Pascal, and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

We study the presence of higher-order van Hove singularities in mirror-symmetric twisted trilayer graphene. This geometry has recently emerged experimentally as a fascinating playground for studying correlated and exotic superconducting phases. We find that the trilayer hosts a zero-energy higher-order van Hove singularity with an exponent -1/3. The singularity is protected by the threefold rotation symmetry and a combined mirror-particle-hole symmetry and it can be tuned with only the twist angle and a perpendicular electric field. It arises from the combined merging of van Hove singularities and Dirac cones at zero energy, beyond the recent classifications of van Hove singularities. Moreover, we find that varying a third parameter such as corrugation brings the system to a topological Lifshitz transition, with anomalous exponent -2/5, separating regions of locally open and closed semiclassical orbits., Comment: 18 pages, 13 figures

Published

2021

43. Effect of non-invasive ventilation after extubation in critically ill patients with obesity in France: a multicentre, unblinded, pragmatic randomised clinical trial

Author

DE JONG, AUDREY, BIGNON, ANNE, STEPHAN, FRANÇOIS, GODET, THOMAS, CONSTANTIN, JEAN-MICHEL, ASEHNOUNE, KARIM, SYLVESTRE, AUDE, SAUTILLET, JULIETTE, BLONDONNET, RAIKO, FERRANDIERE, MARTINE, SEGUIN, PHILIPPE, LASOCKI, SIGISMOND, ROLLE, AMELIE, FAYOLLE, PIERRE-MARIE, MULLER, LAURENT, PARDO, EMMANUEL, TERZI, NICOLAS, RAMIN, SEVERIN, JUNG, BORIS, ABBACK, PAER-SELIM, GUERCI, PHILIPPE, SARTON, BENJAMINE, ROZE, HADRIEN, DUPUIS, CLAIRE, COUSSON, JOEL, FAUCHER, MARION, LEMIALE, VIRGINIE, CHOLLEY, BERNARD, CHANQUES, GERALD, BELAFIA, FOUAD, HUGUET, HELENA, FUTIER, EMMANUEL, GNIADEK, CLAUDINE, VONARB, AURELIE, PRADES, ALBERT, JAILLET, CARINE, CAPDEVILA, XAVIER, CHARBIT, JONATHAN, GENTY, THIBAUT, REZAIGUIA-DELCLAUX, SAIDA, IMBERT, AUDREY, PILORGE, CATHERINE, CALYPSO, ROMAN, BOUTEAU-DURAND, ASTRID, CARLES, MICHEL, MEHDAOUI, HOSSEN, SOUWEINE, BERTRAND, CALVET, LAURE, JABAUDON, MATTHIEU, RIEU, BENJAMIN, CANDILLE, CLARA, SIGAUD, FLORIAN, RIU, BEATRICE, PAPAZIAN, LAURENT, VALERA, SABINE, MOKART, DJAMEL, CHOW CHINE, LAURENT, BISBAL, MAGALI, POULIQUEN, CAMILLE, DE GUIBERT, JEAN-MANUEL, TOURRET, MAXIME, MALLET, DAMIEN, LEONE, MARC, ZIELESKIEWICZ, LAURENT, COSSIC, JEANNE, ASSEFI, MONA, BARON, ELODIE, QUEMENEUR, CYRIL, MONSEL, ANTOINE, BIAIS, MATTHIEU, OUATTARA, ALEXANDRE, BONNARDEL, ELINE, MONZIOLS, SIMON, MAHUL, MARTIN, LEFRANT, JEAN-YVES, ROGER, CLAIRE, BARBAR, SABER, LAMBIOTTE, FABIEN, SAINT-LEGER, PIEHR, PAUGAM, CATHERINE, POTTECHER, JULIEN, LUDES, PIERRE-OLIVIER, DARRIVERE, LUCIE, GARNIER, MARC, KIPNIS, ERIC, LEBUFFE, GILLES, GAROT, MATTHIAS, FALCONE, JEREMY, CHOUSTERMAN, BENJAMIN, COLLET, MAGALI, GAYAT, ETIENNE, DELLAMONICA, JEAN, MFAM, WILLY-SERGE, OCHIN, EVELINA, NEBLI, MOHAMED, TILOUCHE, NEJLA, MADEUX, BENJAMIN, BOUGON, DAVID, AARAB, YASSIR, GARNIER, FANNY, AZOULAY, ELIE, MOLINARI, NICOLAS, JABER, SAMIR, De Jong, Audrey, Bignon, Anne, Stephan, François, Godet, Thomas, Constantin, Jean-Michel, Asehnoune, Karim, Sylvestre, Aude, Sautillet, Juliette, Blondonnet, Raiko, Ferrandière, Martine, Seguin, Philippe, Lasocki, Sigismond, Rollé, Amélie, Fayolle, Pierre-Marie, Muller, Laurent, Pardo, Emmanuel, Terzi, Nicolas, Ramin, Séverin, Jung, Boris, Abback, Paer-Selim, Guerci, Philippe, Sarton, Benjamine, Rozé, Hadrien, Dupuis, Claire, Cousson, Joel, Faucher, Marion, Lemiale, Virginie, Cholley, Bernard, Chanques, Gerald, Belafia, Fouad, Huguet, Helena, Futier, Emmanuel, Azoulay, Elie, Molinari, Nicolas, and Jaber, Samir

Published

2023

44. Reappraisal of intra-abdominal candidiasis: insights from peritoneal fluid analysis

Author

Emmanuel Novy, Mathieu Esposito, Julien Birckener, Adeline Germain, Marie-Reine Losser, Marie-Claire Machouart, and Philippe Guerci

Subjects

Secondary peritonitis, Candida, Virulence, Critically ill patient, Pathogenicity, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background The understanding of high mortality associated with intra-abdominal candidiasis (IAC) remains limited. While Candida is considered a harmless colonizer in the digestive tract, its role as a true pathogen in IAC is still debated. Evidence regarding Candida virulence in the human peritoneal fluid are lacking. We hypothesized that during IAC, Candida albicans develops virulence factors to survive to new environmental conditions. The objective of this observational exploratory monocentric study is to investigate the influence of peritoneal fluid (PF) on the expression of C. albicans virulence using a multimodal approach. Materials and methods A standardized inoculum of a C. albicans (3.106 UFC/mL) reference strain (SC5314) was introduced in vitro into various PF samples obtained from critically ill patients with intra-abdominal infection. Ascitic fluids (AFs) and Sabouraud medium (SBD) were used as control groups. Optical microscopy and conventional culture techniques were employed to assess the morphological changes and growth of C. albicans. Reverse transcriptase qPCR was utilized to quantify the expression levels of five virulence genes. The metabolic production of C. albicans was measured using the calScreener™ technology. Results A total of 26 PF samples from patients with secondary peritonitis were included in the study. Critically ill patients were mostly male (73%) with a median age of 58 years admitted for urgent surgery (78%). Peritonitis was mostly hospital-acquired (81%), including 13 post-operative peritonitis (50%). The infected PF samples predominantly exhibited polymicrobial composition. The findings revealed substantial variability in C. albicans growth and morphological changes in the PF compared to ascitic fluid. Virulence gene expression and metabolic production were dependent on the specific PF sample and the presence of bacterial coinfection. Conclusions This study provides evidence of C. albicans virulence expression in the peritoneal fluid. The observed variability in virulence expression suggests that it is influenced by the composition of PF and the presence of bacterial coinfection. These findings contribute to a better understanding of the complex dynamics of intra-abdominal candidiasis and advocate for personalized approach for IAC patients. Trial registration https://clinicaltrials.gov/ (NCT05264571; February 22, 2022) Graphical Abstract

Published

2023

45. Emergency surgical treatment of colonic acute diverticulitis: a multicenter observational study on behalf of the Italian society of colorectal surgery (SICCR) Lombardy committee

Author

Ferrara, Francesco, Guerci, Claudio, Bondurri, Andrea, Spinelli, Antonino, and De Nardi, Paola

Published

2023

46. Place de l’analgésie péridurale dans la chirurgie de l’aorte à ciel ouvert en France : étude multicentrique AP2A

Author

Soulé, Christelle, Moussa, Mouhamed, Leviel, Florent, Le Gac, Grégoire, Daccache, Gérard, Le Moal, Charlène, Parigi, Claire, Gouel, Aurélie, Montandrau, Olivier, Joffredo, Jean-Baptiste, Todorova, Violeta, Guerci, Philippe, de Mollien, Louis, Siaudeau, Hélène, Orion, François, Lesvier, Benoit, Mongardon, Nicolas, Maurel, Blandine, Rozec, Bertrand, Brisard, Laurent, and Cinotti, Raphaël

Published

2024

47. Grossesse chez la patiente atteinte d’un diabète de type 1 : résultats métaboliques et obstétricaux avant l’utilisation de la boucle fermée hybride

Author

Cindy, Guichard, Guerci, Bruno, Morel, Olivier, Solange, Pruilh, Bourgeois, Caroline, and Langbour-Remy, Christelle

Published

2024

48. Moir\'e lattice effects on the orbital magnetic response of twisted bilayer graphene and Condon instability

Author

Guerci, Daniele, Simon, Pascal, and Mora, Christophe

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We analyze the orbital magnetic susceptibility from the band structure of twisted bilayer graphene. Close to charge neutrality, the out-of-plane susceptibility inherits the strong diamagnetic response from graphene. Increasing the doping, a crossover from diamagnetism to paramagnetism is obtained and a logarithmic divergence develops at the van Hove singularity of the Moir\'e lattice in the first band. The enhanced paramagnetism at the van Hove singularity is stronger for relatively large angle but gets suppressed by the flat spectrum towards the vicinity of the first magic angle. A diverging paramagnetic susceptibility indicates an instability towards orbital ferromagnetism with an orbital out-of-plane magnetization and a Landau level structure. The region of instability is however found to be practically very small, parametrically suppressed by the ratio of the electron velocity to the speed of light. We also discuss the in-plane orbital susceptibility at charge neutrality where we find a paramagnetic response and a logarithmic divergence at the magic angle. The paramagnetic response is associated with negative counterflow current in the two layers and does not admit a semiclassical description., Comment: 19 pages, 13 figures

Published

2021

49. Sustainable HRM and class-based inequality

Author

Guerci, Marco, Hauff, Sven, Panichella, Nazareno, and Radaelli, Giovanni

Published

2023

50. Unpacking the Link Between Intrinsic Motivational Orientation and Innovative Performance: A Social Network Perspective

Author

Carnabuci, Gianluca, Nedkovski, Vojkan, Guerci, Marco, Gerbasi, Alexandra, editor, Emery, Cécile, editor, and Parker, Andrew, editor

Published

2023