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495 results on '"Moser, S."'

1. Low Cross-Talk Optical Addressing of Trapped-Ion Qubits Using a Novel Integrated Photonic Chip

Author

Sotirova, A. S., Sun, B., Leppard, J. D., Wang, A., Wang, M., Vazquez-Brennan, A., Nadlinger, D. P., Moser, S., Jesacher, A., He, C., Pokorny, F., Booth, M. J., and Ballance, C. J.

Subjects
Quantum Physics, Physics - Atomic Physics, Physics - Optics
Abstract

Individual optical addressing in chains of trapped atomic ions requires generation of many small, closely spaced beams with low cross-talk. Furthermore, implementing parallel operations necessitates phase, frequency, and amplitude control of each individual beam. Here we present a scalable method for achieving all of these capabilities using a novel integrated photonic chip coupled to a network of optical fibre components. The chip design results in very low cross-talk between neighbouring channels even at the micrometre-scale spacing by implementing a very high refractive index contrast between the channel core and cladding. Furthermore, the photonic chip manufacturing procedure is highly flexible, allowing for the creation of devices with an arbitrary number of channels as well as non-uniform channel spacing at the chip output. We present the system used to integrate the chip within our ion trap apparatus and characterise the performance of the full individual addressing setup using a single trapped ion as a light-field sensor. Our measurements showed intensity cross-talk below $10^{-3}$ across the chip, with minimum observed cross-talk as low as $O\left(10^{-5}\right)$., Comment: 14 pages, 12 figures

Published
2023

2. Orbital-selective metal skin induced by alkali-metal-dosing Mott-insulating Ca$_2$RuO$_4$

Author

Horio, M., Forte, F., Sutter, D., Kim, M., Fatuzzo, C. G., Matt, C. E., Moser, S., Wada, T., Granata, V., Fittipaldi, R., Sassa, Y., Gatti, G., Rønnow, H. M., Hoesch, M., Kim, T. K., Jozwiak, C., Bostwick, A., Rotenberg, Eli, Matsuda, I., Georges, A., Sangiovanni, G., Vecchione, A., Cuoco, M., and Chang, J.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Doped Mott insulators are the starting point for interesting physics such as high temperature superconductivity and quantum spin liquids. For multi-band Mott insulators, orbital selective ground states have been envisioned. However, orbital selective metals and Mott insulators have been difficult to realize experimentally. Here we demonstrate by photoemission spectroscopy how Ca$_2$RuO$_4$, upon alkali-metal surface doping, develops a single-band metal skin. Our dynamical mean field theory calculations reveal that homogeneous electron doping of Ca$_2$RuO$_4$ results in a multi-band metal. All together, our results provide compelling evidence for an orbital-selective Mott insulator breakdown, which is unachievable via simple electron doping. Supported by a cluster model and cluster perturbation theory calculations, we demonstrate a novel type of skin metal-insulator transition induced by surface dopants that orbital-selectively hybridize with the bulk Mott state and in turn produce coherent in-gap states., Comment: A revised version of this manuscript will appear in Communications Physics

Published
2023
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3. Uncertainties in asteroseismic grid-based estimates of the ages of halo stars

Author

Moser, S., Valle, G., Dell'Omodarme, M., Degl'Innocenti, S., and Moroni, P. G. Prada

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

[...] The aim of this paper is to study the precision and theoretical biases in the age determinations of halo stars adopting both asteroseismic and classic observational constraints. [...] We adopt the well-tested SCEPtER pipeline, covering evolutionary phases up to the red giant branch (RGB). The fitting grids contain stars with mass in the range of [0.7; 1.0] $M_{\odot}$ and metallicity [Fe/H] from -2.5 to -0.5. We investigate several scenarios characterised by different adopted observational uncertainties. We also assess the impact of systematic discrepancies between the recovery grid models and target stars by computing several synthetic grids of stellar models with perturbed input physics. In our reference scenario, we recover ages for stars in the main sequence (MS) or subgiant branch (SGB) with a typical 10\%--20\% precision, while we recover those of RGB stars with a precision of about 60\%. However, adopting tighter constraints on asteroseismic parameters, the age precision in RGB improved to 20\%, while few modifications occur in the other analysed evolutionary phases. A systematic discrepancies between grid models and target stars shows that a mismatch in the mixing-length parameter value leads to significant bias in the age estimations for MS stars (about 10\%), but this bias is smaller for SGB and RGB stars. Neglecting the microscopic diffusion effect in the recovery grid leads to a typical 40\% bias in age estimates for stars on the MS. Finally, we applied the technique to stars in globular clusters. We find a precision in age estimates of around 20\% for MS stars and up to 40\% for RGB stars, greater than those obtained with classical methods. We demonstrate the method on stars of the cluster M4, obtaining a cluster age of $11.9 \pm 1.5$ Gyr and a mass at the turn-of off $0.86 \pm 0.04$ $M_{\odot}$, which are in good agreement with literature results., Comment: Accepted for publication in A&A. Abstract abridged

Published
2023
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4. Clinical Outcomes of Patients with HER2 Positive Metastatic Breast Cancer to the Brain, with First-Line Trastuzumab, Pertuzumab and Chemotherapy, in a Real-World Setting

Author

Sharman Moser S, Apter L, Livnat I, Ginsburg R, Yarden A, Drori M, Drizon A, Chodick G, and Siegelmann-Danieli N

Subjects
her2 positive, metastatic, breast cancer, observational study, real-world, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Sarah Sharman Moser,1 Lior Apter,1,2 Idit Livnat,3 Roni Ginsburg,3 Adva Yarden,3 Michal Drori,1 Anat Drizon,1 Gabriel Chodick,1,4 Nava Siegelmann-Danieli1,4 1Maccabi Institute for Research and Innovation (Maccabitech), Maccabi Healthcare Services, Tel Aviv, Israel; 2Department of Health Systems Management, Ben-Gurion University of the Negev, Beer-Sheva, Israel; 3Medical Affairs, AstraZeneca, Kefar Sava, Israel; 4Faculty of Medicine, Tel Aviv University, Tel Aviv, IsraelCorrespondence: Sarah Sharman Moser, Email moser_sa@mac.org.ilBackground: In this observational study, we analyzed the treatment patterns and clinical outcomes of patients with human epidermal growth factor receptor 2 (HER2)-positive metastatic breast cancer (mBC) who developed brain metastases during their disease in a 2.7 million-member public health-provider in Israel.Methods: Newly diagnosed patients with mBC who initiated first-line treatment between January 2013 and June 2021 were identified. Time on treatment (ToT) and overall survival (OS) were assessed at a minimum of 6 months follow-up (cutoff: December 2021).Results: We identified a total of 61 patients: 98.4% females, median age 50 years (IQR = 44– 63), 85% invasive ductal tumors, 44% hormone receptor positive, 51% performance status 0– 1. The median duration of follow-up was 6.2 years. All patients initiated a combination treatment of trastuzumab, pertuzumab, and chemotherapy (TPC), and 72% moved to second-line treatment during the study follow-up period (82% ado-trastuzumab emtansine). The median ToT for first-line and second-line treatments were 16.9 months (95% CI = 13.9– 27.7) and 7.9 months (95% CI = 5.6– 10.9), respectively. The median overall survival (OS) was 45.5 months (95% CI = 35.4– 71.2) from the initiation of first-line treatment. When considering the timing of brain metastases, the median OS was 36.3 months (95% CI = 10.0–NR) for those diagnosed upfront (n = 15, 25%), 59.1 months (95% CI = 32.5–NR) for those diagnosed while on TPC (n = 25, 41%), and 40.8 months (95% CI = 35.4–NR) for those diagnosed at a later stage (n = 21, 34%). The median OS from brain metastases diagnosis was 25.1 months (95% CI = 17.0– 34.6).Conclusion: Patients with upfront brain involvement at the time of mBC diagnosis had shorter survival compared to those who started TPC without brain metastases. Nonetheless, the overall results from this study compare favorably with previous studies and contribute to understanding the value of traditional treatment options, which will serve as a baseline for future treatment strategies in the real-world setting.Keywords: HER2 positive, metastatic, breast cancer, observational study, real-world

Published
2024

5. Magnetic order of tetragonal CuO ultra-thin films

Author

Hernandez, N. Ortiz, Salman, Z., Prokscha, T., Suter, A., Mardegan, J. R. L., Moser, S., Zakharova, A., Piamonteze, C., and Staub, und U.

Subjects
Condensed Matter - Materials Science
Abstract

We present a detailed low-energy muon spin rotation and x-ray magnetic circular dichroism (XMCD) investigation of the magnetic structure in ultra-thin tetragonal (T)-CuO films. The measured muon-spin polarization decay indicates an antiferromagnetic (AFM) order with a transition temperature higher than 200K. The XMCD signal obtained around the Cu $L_{2,3}$ edges indicates the presence of pinned Cu$^{2+}$ moments that are parallel to the sample surface, and additionally, isotropic paramagnetic moments. The pinning of some of the Cu moments is caused by an AFM ordering consisting of moments that lie most likely in the plane of the film. Moreover, pinned moments show a larger orbital magnetic moment contribution with an approximate ratio of $m_{orb}/m_{spin} = 2$, indicating that these spins are located at sites with reduced symmetry. Some fractions of the pinned moments remain pinned from an AFM background even at 360K, indicating that $T_N >$ 360K. A simple model could explain qualitatively these experimental findings; however, it is in contrast to theoretical predictions, showing that the magnetic properties of ultra-thin T-CuO films differ from bulk expectations and is more complex., Comment: 11 Figures

Published
2021
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7. Magnetic order of tetragonal CuO ultrathin films

Author

Hernández, N Ortiz, Salman, Z, Prokscha, T, Suter, A, Mardegan, JRL, Moser, S, Zakharova, A, Piamonteze, C, and Staub, U

Subjects
Physical Sciences, Chemical Sciences, Engineering, Fluids & Plasmas
Published
2021

8. Light-induced renormalization of the Dirac quasiparticles in the nodal-line semimetal ZrSiSe

Author

Gatti, G., Crepaldi, A., Puppin, M., Tancogne-Dejean, N., Xian, L., Roth, S., Polishchuk, S., Bugnon, Ph., Magrez, A., Berger, H., Frassetto, F., Poletto, L., Moreschini, L., Moser, S., Bostwick, A., Rotenberg, E., Rubio, A., Chergui, M., and Grioni, M.

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

In nodal-line semimetals linearly dispersing states form Dirac loops in the reciprocal space, with high degree of electron-hole symmetry and almost-vanishing density of states near the Fermi level. The result is reduced electronic screening and enhanced correlations between Dirac quasiparticles. Here we investigate the electronic structure of ZrSiSe, by combining time- and angle-resolved photoelectron spectroscopy with ab initio density functional theory (DFT) complemented by an extended Hubbard model (DFT +U +V). We show that electronic correlations are reduced on an ultrashort timescale by optical excitation of high-energy electrons-hole pairs, which transiently screen the Coulomb interaction. Our findings demonstrate an all-optical method for engineering the band structure of a quantum material., Comment: 6 pages, 3 figures

Published
2019
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9. Tuning transport across MoS2/graphene interfaces via as-grown lateral heterostructures

Author

Subramanian, S, Xu, K, Wang, Y, Moser, S, Simonson, NA, Deng, D, Crespi, VH, Fullerton-Shirey, SK, and Robinson, JA

Abstract

An unexploited property of graphene-based heterojunctions is the tunable doping of the junction via electrostatic gating. This unique property may be key in advancing electronic transport across interfaces with semiconductors. Here, we engineer transport in semiconducting TMDs by constructing a lateral heterostructure with epitaxial graphene and tuning its intrinsic doping to form a p–n junction between the graphene and the semiconducting TMDs. Graphene grown on SiC (epitaxial graphene) is intrinsically doped via substrate polarization without the introduction of an external dopant, thus enabling a platform for pristine heterostructures with a target band alignment. We demonstrate an electrostatically tunable graphene/MoS2p–n junction with >20× reduction and >10× increased tunability in contact resistance (Rc) compared with metal/TMD junctions, attributed to band alignment engineering and the tunable density of states in graphene. This unique concept provides improved control over transport across 2D p–n junctions.

Published
2020

10. Surface states and Rashba-type spin polarization in antiferromagnetic MnBi$_2$Te$_4$

Author

Vidal, R. C., Bentmann, H., Peixoto, T. R. F., Zeugner, A., Moser, S., Min, C. H., Schatz, S., Kissner, K., Ünzelmann, M., Fornari, C. I., Vasili, H. B., Valvidares, M., Sakamoto, K., Mondal, D., Fujii, J., Vobornik, I., Jung, S., Cacho, C., Kim, T. K., Koch, R. J., Jozwiak, C., Bostwick, A., Denlinger, J. D., Rotenberg, E., Buck, J., Hoesch, M., Diekmann, F., Rohlf, S., Kalläne, M., Rossnagel, K., Otrokov, M. M., Chulkov, E. V., Ruck, M., Isaeva, A., and Reinert, F.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The layered van der Waals antiferromagnet MnBi$_2$Te$_4$ has been predicted to combine the band ordering of archetypical topological insulators such as Bi$_2$Te$_3$ with the magnetism of Mn, making this material a viable candidate for the realization of various magnetic topological states. We have systematically investigated the surface electronic structure of MnBi$_2$Te$_4$(0001) single crystals by use of spin- and angle-resolved photoelectron spectroscopy experiments. In line with theoretical predictions, the results reveal a surface state in the bulk band gap and they provide evidence for the influence of exchange interaction and spin-orbit coupling on the surface electronic structure., Comment: Revised version

Published
2019
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11. Radial Spin Texture of the Weyl Fermions in Chiral Tellurium

Author

Gatti, G, Gosálbez-Martínez, D, Tsirkin, SS, Fanciulli, M, Puppin, M, Polishchuk, S, Moser, S, Testa, L, Martino, E, Roth, S, Bugnon, Ph, Moreschini, L, Bostwick, A, Jozwiak, C, Rotenberg, E, Di Santo, G, Petaccia, L, Vobornik, I, Fujii, J, Wong, J, Jariwala, D, Atwater, HA, Rønnow, HM, Chergui, M, Yazyev, OV, Grioni, M, and Crepaldi, A

Subjects
Physical Sciences, Condensed Matter Physics, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences
Abstract

Trigonal tellurium, a small-gap semiconductor with pronounced magneto-electric and magneto-optical responses, is among the simplest realizations of a chiral crystal. We have studied by spin- and angle-resolved photoelectron spectroscopy its unconventional electronic structure and unique spin texture. We identify Kramers-Weyl, composite, and accordionlike Weyl fermions, so far only predicted by theory, and show that the spin polarization is parallel to the wave vector along the lines in k space connecting high-symmetry points. Our results clarify the symmetries that enforce such spin texture in a chiral crystal, thus bringing new insight in the formation of a spin vectorial field more complex than the previously proposed hedgehog configuration. Our findings thus pave the way to a classification scheme for these exotic spin textures and their search in chiral crystals.

Published
2020

12. Light-Induced Renormalization of the Dirac Quasiparticles in the Nodal-Line Semimetal ZrSiSe

Author

Gatti, G, Crepaldi, A, Puppin, M, Tancogne-Dejean, N, Xian, L, De Giovannini, U, Roth, S, Polishchuk, S, Bugnon, Ph, Magrez, A, Berger, H, Frassetto, F, Poletto, L, Moreschini, L, Moser, S, Bostwick, A, Rotenberg, Eli, Rubio, A, Chergui, M, and Grioni, M

Subjects
Quantum Physics, Physical Sciences, Condensed Matter Physics, Mathematical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences
Abstract

In nodal-line semimetals, linearly dispersing states form Dirac loops in the reciprocal space with a high degree of electron-hole symmetry and a reduced density of states near the Fermi level. The result is reduced electronic screening and enhanced correlations between Dirac quasiparticles. Here we investigate the electronic structure of ZrSiSe, by combining time- and angle-resolved photoelectron spectroscopy with ab initio density functional theory (DFT) complemented by an extended Hubbard model (DFT+U+V) and by time-dependent DFT+U+V. We show that electronic correlations are reduced on an ultrashort timescale by optical excitation of high-energy electrons-hole pairs, which transiently screen the Coulomb interaction. Our findings demonstrate an all-optical method for engineering the band structure of a quantum material.

Published
2020

14. Surface states and Rashba-type spin polarization in antiferromagnetic MnBi2Te4 (0001)

Author

Vidal, RC, Bentmann, H, Peixoto, TRF, Zeugner, A, Moser, S, Min, CH, Schatz, S, Kißner, K, Ünzelmann, M, Fornari, CI, Vasili, HB, Valvidares, M, Sakamoto, K, Mondal, D, Fujii, J, Vobornik, I, Jung, S, Cacho, C, Kim, TK, Koch, RJ, Jozwiak, C, Bostwick, A, Denlinger, JD, Rotenberg, E, Buck, J, Hoesch, M, Diekmann, F, Rohlf, S, Kalläne, M, Rossnagel, K, Otrokov, MM, Chulkov, EV, Ruck, M, Isaeva, A, and Reinert, F

Abstract

The layered van der Waals antiferromagnet MnBi2Te4 has been predicted to combine the band ordering of archetypical topological insulators such as Bi2Te3 with the magnetism of Mn, making this material a viable candidate for the realization of various magnetic topological states. We have systematically investigated the surface electronic structure of MnBi2Te4(0001) single crystals by use of spin- and angle-resolved photoelectron spectroscopy experiments. In line with theoretical predictions, the results reveal a surface state in the bulk band gap and they provide evidence for the influence of exchange interaction and spin-orbit coupling on the surface electronic structure.

Published
2019

15. Dirac nodal lines protected against spin-orbit interaction in IrO2

Author

Nelson, JN, Ruf, JP, Lee, Y, Zeledon, C, Kawasaki, JK, Moser, S, Jozwiak, C, Rotenberg, E, Bostwick, A, Schlom, DG, Shen, KM, and Moreschini, L

Abstract

The interplay between strong spin-orbit coupling and electron correlations has recently been the subject of intense investigation, due to a number of theoretically predicted phases such as quantum spin liquids, unconventional superconductivity, complex magnetic orders, and correlated topological phases of matter. In particular, iridates have been proposed as a promising family of materials which could host a number of these phases. Here we report the existence of Dirac nodal lines in the binary oxide IrO2, through a combination of reactive oxide molecular beam epitaxy and angle-resolved photoemission spectroscopy. Unlike in other such materials reported to date, these Dirac nodal lines have the unique property of being simultaneously (i) robust against spin-orbit coupling, as they are protected by the nonsymmorphic symmetry of the rutile structure, and (ii) only partially occupied, since they cross the Fermi level. This should have direct implications on the low-energy physics properties tied to the band velocity such as magnetoresistance and spin Hall effect.

Published
2019

16. Polarization control at the microscopic and electronic structure observatory

Author

Moser, S, Kilcoyne, D, Denlinger, JD, Koch, RJ, Jozwiak, C, Bostwick, A, and Rotenberg, E

Subjects
Nuclear & Particles Physics, Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences
Abstract

The new Microscopic and Electronic Structure Observatory (MAESTRO) at the Advanced Light Source (ALS) in Berkeley provides X-rays of variable polarization, produced by an elliptically polarized undulator (EPU), for angle resolved photoemission (ARPES) and photoemission electron microscopy (PEEM) experiments. The interpretation of photoemission data, in particular of dichroism effects in ARPES, requires the precise knowledge of the exact polarization state. Numerical simulations show that the first harmonics of the EPU at MAESTRO provides soft X-rays of almost 100% on axis polarization. However, the higher harmonics as well as the downstream optical elements of the beamline, have a considerable impact on the polarization of the light delivered to the experimental end-station. Employing a simple reflective polarimeter, the polarization is characterized for variable EPU and beamline settings and the overall degree of polarization in the MAESTRO end-stations is estimated to be on the order of 83%.

Published
2019

17. Dirac nodal lines and flat-band surface state in the functional oxide RuO2

Author

Jovic, V, Koch, RJ, Panda, SK, Berger, H, Bugnon, P, Magrez, A, Smith, KE, Biermann, S, Jozwiak, C, Bostwick, A, Rotenberg, E, and Moser, S

Abstract

The efficiency and stability of RuO2 in electrocatalysis has made this material a subject of intense fundamental and industrial interest. The surface functionality is rooted in its electronic and magnetic properties, determined by a complex interplay of lattice-, spin-rotational, and time-reversal symmetries, as well as the competition between Coulomb and kinetic energies. This interplay was predicted to produce a network of Dirac nodal lines (DNLs), where the valence and conduction bands touch along continuous lines in momentum space. Here we uncover direct evidence for three DNLs in RuO2 by angle-resolved photoemission spectroscopy. These DNLs give rise to a flat-band surface state that is readily tuned by the electrostatic environment, and that presents an intriguing platform for exotic correlation phenomena. Our findings support high spin-Hall conductivities and bulk magnetism in RuO2, and are likely related to its catalytic properties.

Published
2018

19. Quasiparticles and charge transfer at the two surfaces of the honeycomb iridate Na$_2$IrO$_3$

Author

Moreschini, L., Vecchio, I. Lo, Breznay, N. P., Moser, S., Ulstrup, S., Koch, R., Wirjo, J., Jozwiak, C., Kim, K. S., Rotenberg, E., Bostwick, A., Analytis, J. G., and Lanzara, A.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Direct experimental investigations of the low-energy electronic structure of the Na$_2$IrO$_3$ iridate insulator are sparse and draw two conflicting pictures. One relies on flat bands and a clear gap, the other involves dispersive states approaching the Fermi level, pointing to surface metallicity. Here, by a combination of angle-resolved photoemission, photoemission electron microscopy, and x-ray absorption, we show that the correct picture is more complex and involves an anomalous band, arising from charge transfer from Na atoms to Ir-derived states. Bulk quasiparticles do exist, but in one of the two possible surface terminations the charge transfer is smaller and they remain elusive.

Published
2017
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20. Epitaxial RuO2 and IrO2 films by pulsed laser deposition on TiO2(110).

Author

Keßler, P., Waldsauer, T., Jovic, V., Kamp, M., Schmitt, M., Sing, M., Claessen, R., and Moser, S.

Subjects
PHYSICAL vapor deposition, UNIT cell, ARCHIPELAGOES, SUBSTRATES (Materials science), PARTIAL pressure, PULSED laser deposition
Abstract

We present a systematic growth study of epitaxial RuO2(110) and IrO2(110) on TiO2(110) substrates by pulsed laser deposition. We describe the main challenges encountered in the growth process, such as a deteriorating material flux due to laser-induced target metallization or the delicate balance of under- vs over-oxidation of the "stubborn" Ru and Ir metals. We identify growth temperatures and oxygen partial pressures of 700 K, 1 × 10−3 mbar for RuO2 and 770 K, 5 × 10−4 mbar for IrO2 to optimally balance between metal oxidation and particle mobility during nucleation. In contrast to IrO2, RuO2 exhibits layer-by-layer growth up to 5 unit cells if grown at high deposition rates. At low deposition rates, the large lattice mismatch between film and substrate fosters initial 3D island growth and cluster formation. In analogy to reports for RuO2 based on physical vapor deposition [He et al., J. Phys. Chem. C 119, 2692 (2015)], we find these islands to eventually merge and grow to continue in a step flow mode, resulting in highly crystalline, flat, stoichiometric films of RuO2(110) (up to 30 nm thickness) and IrO2(110) (up to 13 nm thickness) with well-defined line defects. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Giant spin-splitting and gap renormalization driven by trions in single-layer WS 2 /h-BN heterostructures

Author

Katoch, J, Ulstrup, S, Koch, RJ, Moser, S, McCreary, KM, Singh, S, Xu, J, Jonker, BT, Kawakami, RK, Bostwick, A, Rotenberg, E, and Jozwiak, C

Subjects
Fluids & Plasmas, Mathematical Sciences, Physical Sciences
Abstract

In two-dimensional (2D) semiconducting transition metal dichalcogenides (TMDs), new electronic phenomena such as tunable bandgaps 1-3 and strongly bound excitons and trions emerge from strong many-body effects 4-6 , beyond the spin and valley degrees of freedom induced by spin-orbit coupling and by lattice symmetry 7 . Combining single-layer TMDs with other 2D materials in van der Waals heterostructures offers an intriguing means of controlling the electronic properties through these many-body effects, by means of engineered interlayer interactions 8-10 . Here, we use micro-focused angle-resolved photoemission spectroscopy (microARPES) and in situ surface doping to manipulate the electronic structure of single-layer WS 2 on hexagonal boron nitride (WS 2 /h-BN). Upon electron doping, we observe an unexpected giant renormalization of the spin-orbit splitting of the single-layer WS 2 valence band, from 430 meV to 660 meV, together with a bandgap reduction of at least 325 meV, attributed to the formation of trionic quasiparticles. These findings suggest that the electronic, spintronic and excitonic properties are widely tunable in 2D TMD/h-BN heterostructures, as these are intimately linked to the quasiparticle dynamics of the materials 11-13 .

Published
2018

23. Electron Glass Phase with Resilient Zhang-Rice Singlets in LiCu3O3

Author

Consiglio, A., primary, Gatti, G., additional, Martino, E., additional, Moreschini, L., additional, Johannsen, J. C., additional, Prša, K., additional, Freeman, P. G., additional, Sheptyakov, D., additional, Rønnow, H. M., additional, Scopelliti, R., additional, Magrez, A., additional, Forró, L., additional, Schmitt, C., additional, Jovic, V., additional, Jozwiak, C., additional, Bostwick, A., additional, Rotenberg, E., additional, Hofmann, T., additional, Thomale, R., additional, Sangiovanni, G., additional, Di Sante, D., additional, Greiter, M., additional, Grioni, M., additional, and Moser, S., additional

Published
2024
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25. Hallmarks of Hund's coupling in the Mott insulator Ca$_2$RuO$_4$

Author

Sutter, D., Fatuzzo, C. G., Moser, S., Kim, M., Fittipaldi, R., Vecchione, A., Granata, V., Sassa, Y., Cossalter, F., Gatti, G., Grioni, M., Ronnow, H. M., Plumb, N. C., Matt, C. E., Shi, M., Hoesch, M., Kim, T. K., Chang, T. R., Jeng, H. T., Jozwiak, C., Bostwick, A., Rotenberg, E., Georges, A., Neupert, T., and Chang, J.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

A paradigmatic case of multi-band Mott physics including spin-orbit and Hund's coupling is realised in Ca$_2$RuO$_4$. Progress in understanding the nature of this Mott insulating phase has been impeded by the lack of knowledge about the low-energy electronic structure. Here we provide -- using angle-resolved photoemission electron spectroscopy -- the band structure of the paramagnetic insulating phase of Ca$_2$RuO$_4$ and show how it features several distinct energy scales. Comparison to a simple analysis of atomic multiplets provides a quantitative estimate of the Hund's coupling $J=0.4$ eV. Furthermore, the experimental spectra are in good agreement with electronic structure calculations performed with Dynamical Mean-Field Theory. The crystal field stabilisation of the d$_{xy}$ orbital due to $c$-axis contraction is shown to be important in explaining the nature of the insulating state. It is thus a combination of multiband physics, Coulomb interaction and Hund's coupling that generates the Mott insulating state of Ca$_2$RuO$_4$. These results underscore the importance of Hund's coupling in the ruthenates and related multiband materials.

Published
2016
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26. Hallmarks of Hunds coupling in the Mott insulator Ca2RuO4.

Author

Sutter, D, Fatuzzo, CG, Moser, S, Kim, M, Fittipaldi, R, Vecchione, A, Granata, V, Sassa, Y, Cossalter, F, Gatti, G, Grioni, M, Rønnow, HM, Plumb, NC, Matt, CE, Shi, M, Hoesch, M, Kim, TK, Chang, T-R, Jeng, H-T, Jozwiak, C, Bostwick, A, Rotenberg, E, Georges, A, Neupert, T, and Chang, J

Abstract

A paradigmatic case of multi-band Mott physics including spin-orbit and Hund's coupling is realized in Ca2RuO4. Progress in understanding the nature of this Mott insulating phase has been impeded by the lack of knowledge about the low-energy electronic structure. Here we provide-using angle-resolved photoemission electron spectroscopy-the band structure of the paramagnetic insulating phase of Ca2RuO4 and show how it features several distinct energy scales. Comparison to a simple analysis of atomic multiplets provides a quantitative estimate of the Hund's coupling J=0.4 eV. Furthermore, the experimental spectra are in good agreement with electronic structure calculations performed with Dynamical Mean-Field Theory. The crystal field stabilization of the dxy orbital due to c-axis contraction is shown to be essential to explain the insulating phase. These results underscore the importance of multi-band physics, Coulomb interaction and Hund's coupling that together generate the Mott insulating state of Ca2RuO4.

Published
2017

27. Electron Glass Phase with Resilient Zhang-Rice Singlets in LiCu3O3

Author

Consiglio, A., Gatti, G., Martino, E., Moreschini, L., Johannsen, J. C., Prša, K., Freeman, Paul Gregory, Sheptyakov, D., Rønnow, H. M., Scopelliti, R., Magrez, A., Forró, L., Schmitt, C., Jovic, V., Jozwiak, C., Bostwick, A., Rotenberg, E., Hofmann, T., Thomale, R., Sangiovanni, G., Di Sante, D., Greiter, M., Grioni, M., Moser, S., Consiglio, A., Gatti, G., Martino, E., Moreschini, L., Johannsen, J. C., Prša, K., Freeman, Paul Gregory, Sheptyakov, D., Rønnow, H. M., Scopelliti, R., Magrez, A., Forró, L., Schmitt, C., Jovic, V., Jozwiak, C., Bostwick, A., Rotenberg, E., Hofmann, T., Thomale, R., Sangiovanni, G., Di Sante, D., Greiter, M., Grioni, M., and Moser, S.

Abstract

LiCu3O3 is an antiferromagnetic mixed valence cuprate where trilayers of edge-sharing Cu(II)O (3d9) are sandwiched in between planes of Cu(I) (3d10) ions, with Li stochastically substituting Cu(II). Angle-resolved photoemission spectroscopy (ARPES) and density functional theory reveal two insulating electronic subsystems that are segregated in spite of sharing common oxygen atoms: a Cu dz2/O pz derived valence band (VB) dispersing on the Cu(I) plane, and a Cu 3dx2−y2/O 2px,y derived Zhang-Rice singlet (ZRS) band dispersing on the Cu(II)O planes. First-principle analysis shows the Li substitution to stabilize the insulating ground state, but only if antiferromagnetic correlations are present. Li further induces substitutional disorder and a 2D electron glass behavior in charge transport, reflected in a large 530 meV Coulomb gap and a linear suppression of VB spectral weight at EF that is observed by ARPES. Surprisingly, the disorder leaves the Cu(II)-derived ZRS largely unaffected. This indicates a local segregation of Li and Cu atoms onto the two separate corner-sharing Cu(II)O2 sub-lattices of the edge-sharing Cu(II)O planes, and highlights the ubiquitous resilience of the entangled two hole ZRS entity against impurity scattering.

Published
2024
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28. Exploring Climate‐Disease Connections in Geopolitical Versus Ecological Regions: The Case of West Nile Virus in the United States.

Author

Moser, S. Kane, Spencer, Julie A., Barnard, Martha, Hyman, James M., Manore, Carrie A., and Gorris, Morgan E.

Subjects
WEST Nile virus, ECOLOGICAL regions, MOSQUITO control, MOSQUITO-borne diseases, GEOPOLITICS, MEDICAL climatology
Abstract

Many infectious disease forecasting models in the United States (US) are built with data partitioned into geopolitical regions centered on human activity as opposed to regions defined by natural ecosystems; although useful for data collection and intervention, this has the potential to mask biological relationships between the environment and disease. We explored this concept by analyzing the correlations between climate and West Nile virus (WNV) case data aggregated to geopolitical and ecological regions. We compared correlations between minimum, maximum, and mean annual temperature; precipitation; and annual WNV neuroinvasive disease (WNND) case data from 2005 to 2019 when partitioned into (a) climate regions defined by the National Oceanic and Atmospheric Administration (NOAA) and (b) Level I ecoregions defined by the Environmental Protection Agency (EPA). We found that correlations between climate and WNND in NOAA climate regions and EPA ecoregions were often contradictory in both direction and magnitude, with EPA ecoregions more often supporting previously established biological hypotheses and environmental dynamics underlying vector‐borne disease transmission. Using ecological regions to examine the relationships between climate and disease cases can enhance the predictive power of forecasts at various scales, motivating a conceptual shift in large‐scale analyses from geopolitical frameworks to more ecologically meaningful regions. Plain Language Summary: In the United States (US), geopolitical subdivisions like states and counties are the governing regions that collect public health data and implement health interventions like risk messaging, mask mandates, or spraying chemicals for mosquito control. These subdivisions were mostly decided by politics and other human activity, not similarities in ecosystems and climate. This can make it difficult to understand how climate affects illnesses like mosquito‐borne disease since mosquitoes will live within specific ecosystems and aren't confined to geopolitical boundaries as health data are. We explored this idea by analyzing the relationships between temperature, precipitation, and the mosquito‐borne pathogen called West Nile virus (WNV) from 2005 to 2019. We grouped our data using two different regional boundaries: (a) climate regions from the National Oceanic and Atmospheric Administration (NOAA), primarily based on state boundaries, and (b) ecoregions from the Environmental Protection Agency (EPA), based on similar ecosystems. We found that these groupings resulted in some contradictory results. The results using EPA ecoregions more often agreed with biological hypotheses, so it may be a better approach to dividing the US for similar studies. We encourage other scientists to consider this conceptual shift from analyzing data by geopolitical boundaries to more ecologically meaningful regions. Key Points: While health data is collected within geopolitical boundaries, environmental disease dynamics are influenced by ecosystem characteristicsFor West Nile virus, correlations between cases and climate were different depending on geopolitical or ecosystem regional groupings of dataWe propose a conceptual shift from analyzing climate and health data at geopolitical boundaries to more ecologically meaningful regions [ABSTRACT FROM AUTHOR]

Published
2024
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29. Healthcare Utilization and Prevalence of Symptoms in Women with Menopause: A Real-World Analysis

Author

Sharman Moser S, Chodick G, Bar-On S, and Shalev V

Subjects
menopause, peri-menopause, real-world study, healthcare utilization, Gynecology and obstetrics, RG1-991
Abstract

Sarah Sharman Moser,1 Gabriel Chodick,1,2 Shikma Bar-On,3 Varda Shalev1,2 1Kahn-Sagol-Maccabi Research and Innovation Institute, Maccabi Healthcare Services, Tel Aviv, Israel; 2Sackler Faculty of Medicine, Tel Aviv University, Tel Aviv, Israel; 3Lis Maternity Hospital, Tel-Aviv Medical Center, Tel-Aviv, IsraelCorrespondence: Sarah Sharman MoserKahn-Sagol-Maccabi Research and Innovation Institute, Maccabi Healthcare Services, 27 Hamered St, Tel Aviv 6812509, IsraelTel +972-37462778Email moser_sa@mac.org.ilObjective: Self-reported studies estimated that as many as 50– 75% of women experience symptoms during menopause; however, limited real-world clinical data are available to support this observation. The electronic databases of Maccabi Healthcare Services were used to describe the prevalence of menopause symptoms in Israel and to characterize patients with regard to socioeconomic status, comorbidities and use of healthcare services.Methods: Females aged 45– 54 years diagnosed with menopausal symptoms (N=17,046, cumulative incidence of 8% during the study period) were identified from the Maccabi Healthcare Services electronic database and matched to female members without menopause symptoms, one-to-one on birth year and enumeration area.Results: Symptomatic peri- and post-menopausal women, and particularly those under 52 years, were more likely to have a higher prevalence of comorbid conditions such as depression, anxiety, osteoporosis and insomnia in the year following index. Correspondingly, selective serotonin reuptake inhibitors, serotonin norepinephrine reuptake inhibitors and hypnotic drug use were significantly higher in symptomatic women as was healthcare utilization including hospitalization (OR=1.10; 95% CI=1.00– 1.20), primary care visits (1.90; 1.73– 2.08), gynecologist visits (24.84; 22.36– 27.59) and hysterectomy procedures (2.26; 1.63– 3.14).Conclusion: Medically documented menopausal symptoms are associated with increased burden of disease (particularly among women diagnosed with menopausal symptoms prior to age 52 years), healthcare utilization and greater likelihood of undergoing hysterectomy within one year of diagnosis. This burden is expected to rise further as awareness and social acceptance of peri- and post-menopausal symptoms increase.Keywords: menopause, peri-menopause, real-world study, healthcare utilization

Published
2020

35. Saturation of the anomalous Hall effect at high magnetic fields in altermagnetic RuO2

Author

Tschirner, T., Keßler, P., Gonzalez Betancourt, R. D., (0000-0003-3675-8887) Kotte, T., Kriegner, D., Büchner, B., Dufouleur, J., Kamp, M., Jovic, V., Smejkal, L., Sinova, J., Claessen, R., Jungwirth, T., Moser, S., Reichlova, H., Veyrat, L., Tschirner, T., Keßler, P., Gonzalez Betancourt, R. D., (0000-0003-3675-8887) Kotte, T., Kriegner, D., Büchner, B., Dufouleur, J., Kamp, M., Jovic, V., Smejkal, L., Sinova, J., Claessen, R., Jungwirth, T., Moser, S., Reichlova, H., and Veyrat, L.

Abstract

Observations of the anomalous Hall effect in RuO2 and MnTe have demonstrated unconventional time-reversal symmetry breaking in the electronic structure of a recently identified new class of compensated collinear magnets, dubbed altermagnets. While in MnTe, the unconventional anomalous Hall signal accompanied by a vanishing magnetization is observable at remanence, the anomalous Hall effect in RuO2 is excluded by symmetry for the Néel vector pointing along the zero-field [001] easy-axis. Guided by a symmetry analysis and ab initio calculations, a field-induced reorientation of the Néel vector from the easy-axis toward the [110] hard-axis was used to demonstrate the anomalous Hall signal in this altermagnet. We confirm the existence of an anomalous Hall effect in our RuO2 thin-film samples, whose set of magnetic and magneto-transport characteristics is consistent with the earlier report. By performing our measurements at extreme magnetic fields up to 68 T, we reach saturation of the anomalous Hall signal at a field Hc ≃ 55 T that was inaccessible in earlier studies but is consistent with the expected Néel-vector reorientation field.

Published
2023

46. On-chip beam rotators, polarizers and adiabatic mode converters through low-loss waveguides with variable cross-sections

Author

Sun, B, Morozko, F, Salter, PS, Moser, S, Pong, Z, Patel, RB, Walmsley, IA, Hazan, A, Barré, N, Jesacher, A, Fells, J, Katiyi, A, Novitsky, A, Karabchevsky, A, Booth, MJ, and Commission of the European Communities

Subjects
Physics::Optics, physics.optics, physics.app-ph
Abstract

Photonics integrated circuitry would benefit considerably from the ability to arbitrarily control waveguide cross-sections with high precision and low loss, in order to provide more degrees of freedom in manipulating propagating light. Here, we report on a new optical-fibres-compatible glass waveguide by femtosecond laser writing, namely spherical phase induced multi-core waveguide (SPIM-WG), which addresses this challenging task with three dimensional on-chip light control. Precise deformation of cross-sections is achievable along the waveguide, with shapes and sizes finely controllable of high resolution in both horizontal and vertical transversal directions. We observed that these waveguides have high refractive index contrast of 0.017, low propagation loss of 0.14 dB/cm, and very low coupling loss of 0.19 dB coupled from a single mode fibre. SPIM-WG devices were easily fabricated that were able to perform on-chip beam rotation through varying angles, or manipulate polarization state of propagating light for target wavelengths. We also demonstrated SPIM-WG mode converters that provide arbitrary adiabatic mode conversion with high efficiency between symmetric and asymmetric non-uniform modes; examples include circular, elliptical modes and asymmetric modes from ppKTP waveguides which are generally applied in frequency conversion and quantum light sources. Created inside optical glass, these waveguides and devices have the capability to operate across ultra-broad bands from visible to infrared wavelengths. The compatibility with optical fibre also paves the way toward packaged photonic integrated circuitry, which usually needs input and output fibre connections.

Published
2022

48. Aromatic composition of wine

Author

Fariña, L., Carrau, F., Moser, S., Dellacassa, E., and Boido, E.

Subjects
Settore CHIM/10 - CHIMICA DEGLI ALIMENTI
Published
2022

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