Electron correlations and bond-length fluctuations in copper oxides: from Zhang--Rice singlets to correlation bags

We perform first principles, multiconfiguration calculations on clusters including several CuO$_6$ octahedra and study the ground-state electron distribution and electron--lattice couplings when holes are added to the undoped $d^9 p^6$ configuration. We find that the so-called Zhang--Rice state on a single CuO$_4$ plaquette is nearly degenerate with a state whose leading configuration is of the form Cu $d^9$-- O $p^5$-- Cu $d^9$. A strong coupling between the electronic and nuclear motion gives rise to large inter-site charge transfer effects for half-breathing displacements of the oxygen ions. Under the assumption of charge segregation into alternating hole-free and hole-rich stripes of Goodenough \cite{jbg_02,jbg_03}, our results seem to support the vibronic mechanism and the traveling charge-density wave model from Refs.\cite{jbg_02,jbg_03} for the superconductivity in copper oxides.Comment: submitted to Phys. Rev.

Renormalization of the quasiparticle hopping integrals by spin interactions in layered copper oxides

Holes doped within the square CuO2 network specific to the cuprate superconducting materials have oxygen 2p character. We investigate the basic properties of such oxygen holes by wavefunction-based quantum chemical calculations on large embedded clusters. We find that a 2p hole induces ferromagnetic correlations among the nearest-neighbor Cu 3d spins. When moving through the antiferromagnetic background the hole must bring along this spin polarization cloud at nearby Cu sites, which gives rise to a substantial reduction of the effective hopping parameters. Such interactions can explain the relatively low values inferred for the effective hoppings by fitting the angle-resolved photoemission data. The effect of the background antiferromagnetic couplings of renormalizing the effective nearest-neighbor hopping is also confirmed by density-matrix renormalization-group model Hamiltonian calculations for chains and ladders of CuO4 plaquettes

Size effects on the fracture behavior of amorphous silica from molecular dynamics simulations

In this work, the role of structure size and interaction potential on the ductility and mechanical properties of bulk glasses are extensively analyzed using molecular dynamics (MD) simulations. Elastic moduli and mechanical properties for bulk silica structures were calculated from the MD trajectories using three different force fields - diffusive charge reactive potential (DCRP), Teter and Vashishta potentials. These results from MD simulations were compared to experimental measurements and the overall results reassert that, while the elastic moduli show a neglectable variation with structure size, the fracture behavior is considerably affected. Specifically, it is found that the length along the deformation axis is the driver for the brittle to ductile transition. The fracture results, combined with an energy analysis, reveal that the energetic condition for brittle fracture, where elastic strain energy should overcome the fracture surface energy, remains valid for the three potentialsXunta de Galicia | Ref. ED431C 2023/25US National Science Foundation | Ref. 1662288Agencia Estatal de Investigación | Ref. PID2020-117900RB-I00Ministerio de Universidades | Ref. FPU20/0311

Electron correlations and bond-length fluctuations in layered copper oxides: electron versus hole doping

We investigate the nature of the electronic ground state and electron-lattice couplings for doped chains of CuO_4 plaquettes or CuO_6 octahedra. The undoped configuration implies here Cu 3d^9 and O 2p^6 formal valence states. The results of multiconfiguration calculations on 4-plaquette (or 4-octahedra) linear clusters indicate strong electron-lattice interactions and polaronic behavior of the doped particles, for both electron and hole doping. For certain phases of the oxygen-ion half-breathing distortions a multi-well energy landscape is predicted. Since each well is associated to carriers localized at different sites, the half-breathing displacements induce charge transfer along the chain. In the case of hole-doping, the trends found by ab initio multiconfiguration calculations on 4-octahedra clusters are confirmed by density-matrix renormalization-group calculations for a p-d, extended Hubbard model with chains of few tens of CuO_4 plaquettes. Under the assumption of charge separation and the formation of 1/3-doped stripes, our results seem to support the vibronic mechanism and the traveling charge-density wave scenario proposed in some recent contributions for superconductivity in copper oxides.Comment: references added, typos correcte

Submodule power losses balancing algorithms for the modular multilevel converter

Tolerance and component aging can cause signif¬icant differences in the capacitance values of the submodules (SMs) in a modular multilevel converter (MMC). Depending on the modulation technique, capacitance mismatches may produce uneven switching transitions of the SMs, hence imbalances in the power losses that can lead to reliability problems. In this paper, a new algorithm that helps to achieve evenly distributed switching and conduction losses within the converter SMs is presented. The proposed algorithm is based on a modification of the common voltage balancing algorithms, balancing a weighted function of voltage and losses. Even distribution of power losses is achieved at the cost of slightly increasing the capacitor voltage ripples. The effectiveness of the strategy has been demonstrated by simulation results of a high-power grid-connected MMC

Spin-trapping and Human Neutrophils: Limits of detection of hydroxyl radical

Using the spin trap, 5,5-dimethyl-1-pyrroline-1-oxide (DMPO) and an excess of dimethyl sulfoxide, we previously reported that in the absence of an exogenous iron catalyst, human neutrophils will not generate hydroxyl radical, manifested as the catalyse-inhibitable methyl radical spin-trapped adduct, 2,2,5-trimethyl-1-pyrrolidinyloxy (DMPO-CH3) (Britigan, B.E., Rosen, G.M., Chai, Y., and Cohen, M.S. (1986) J. Biol. Chem. 261, 4426-4431). However, superoxide destroys the preformed hydroxyl radical spin-trapped adduct, 2,2-dimethyl-5-hydroxy-1-pyrrolidinyloxy (DMPO-OH), and DMPO-CH3. The present study was undertaken to better resolve the limits of sensitivity of the spin-trapping method. Photolytically generated DMPO-CH3 and DMPO-OH slowly decomposed in the presence of a low flux (1 μM/min) of enzymatically (xanthine/xanthine oxidase)-generated superoxide, but more rapid decomposition of these adducts occurred with higher superoxide flux (5 μM/min). Inclusion of cysteine markedly increased the rate of DMPO-OH and DMPO-CH3 decomposition, masking the effects of superoxide alone. The addition of varying concentrations of superoxide dismutase did not lead to increased formation of DMPO-OH or DMPO-CH3, as should have occurred if these adducts were being destroyed by superoxide. As a positive control, we employed an iron-supplemented system with phorbol 12-myristate 13-acetate-stimulated neutrophils or xanthine/xanthine oxidase to generate DMPO-CH3. Addition of superoxide dismutase increased the magnitude of DMPO-CH3, primarily by increasing the rate of hydrogen peroxide formation, and to a lesser extent by prolonging the half-life of DMPO-CH3. Although spin-trapped adducts can be destroyed by a high concentration of superoxide, or by lower concentrations of superoxide in the presence of thiol-containing compounds, our results demonstrate that such decomposition does not interfere with the ability of the spin-trapping method to detect hydroxyl radical generated by human neutrophils. These data do not support the capacity of neutrophils to generate hydroxyl radical in the absence of an exogenous Haber-Weiss catalyst

Associations between reliable changes in depression and changes in BMI, total body fatness and visceral adiposity during a 12-month weight loss trial.

We investigated associations between changes in depression and body composition over a 12-month weight loss trial. Of the 298 adults (BMI > 27 m/kg2), 219 with complete depression and body composition data were included. A 10-item Center for Epidemiologic Studies Depression Scale measured depression; dual-energy X-ray absorptiometry measured body composition. Multinomial logistic regression predicted reliable changes in depression by BMI, body fat (BF) and visceral adiposity (VAT). Multiplicative interaction terms tested modification by sex and ethnicity. Participants with increases in body composition were less likely to experience improvements in depression (BMI: RRR = 0.79 (0.68-0.91), p < 0.01; BF: RRR = 0.97 (0.94 - 0.99), p = 0.01; VAT: RRR = 0.99 (0.98-1.00), p = 0.02), but not worsening of depression (BMI: RRR = 1.29 (0.96-1.73), p = 0.10; BF: RRR = 1.04 (0.99-1.09), p = 0.15; VAT: RRR = 1.01 (1.00-1.03), p = 0.18). Sex and ethnicity interaction terms were not significant. However, the relationship was only significant among females, among non-Latinos for BMI and BF, and among Latinos for VAT. Our study supports the association between depression and obesity and highlights the need for longitudinal studies investigating VAT and depression in diverse ethnic groups

Modular Multilevel Converters: Recent Achievements and Challenges

The modular multilevel converter (MMC) is currently one of the power converter topologies which has attracted more research and development worldwide. Its features, such as high quality of voltages and currents, high modularity and high voltage rating, have made the MMC a very good option for several applications including high-voltage dc (HVdc) transmission, static compensators (STATCOMs), and motor drives. However, its unique features such as the large number of submodules, floating capacitor voltages, and circulating currents require a dedicated control system able to manage the terminal variables, as well as the internal variables with high dynamical performance. In this paper, a review of the research and development achieved during the last years on MMCs is shown, focusing on the challenges and proposed solutions for this power converter still faces in terms of modeling, control, reliability, power topologies, and new applications

Patterns of Abdominal Fat Distribution: The Framingham Heart Study

OBJECTIVE—The prevalence of abdominal obesity exceeds that of general obesity. We sought to determine the prevalence of abdominal subcutaneous and visceral obesity and to characterize the different patterns of fat distribution in a community-based sample

Population pharmacokinetics of ganciclovir after intravenous ganciclovir and oral valganciclovir administration in solid organ transplant patients infected with cytomegalovirus

A population pharmacokinetics analysis was performed after intravenous ganciclovir and oral valganciclovir in solid organ transplant patients with cytomegalovirus. Patients received ganciclovir at 5 mg/kg of body weight (5 days) and then 900 mg of valganciclovir (16 days), both twice daily with dose adjustment for renal function. A total of 382 serum concentrations from days 5 and 15 were analyzed with NONMEM VI. Renal function given by creatinine clearance (CL(CR)) was the most influential covariate in CL. The final pharmacokinetic parameters were as follows: ganciclovir clearance (CL) was 7.49.(CL(CR)/57) liter/h (57 was the mean population value of CL(CR)); the central and peripheral distribution volumes were 31.9 liters and 32.0 liters, respectively; intercompartmental clearance was 10.2 liter/h; the first-order absorption rate constant was 0.895 h(-1); bioavailability was 0.825; and lag time was 0.382 h. The CL(CR) was the best predictor of CL, making dose adjustment by this covariate important to achieve the most efficacious ganciclovir exposure