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2,174 results on '"Abraham, David"'

1. Chip-scale monolithic optoelectronic voltage boost conversion

Author

Santhanam, Parthiban, Cui, Daniel, Hwang, Jae Seung, Abraham, David, He, Isabella, Watanabe, Enzo, and Raman, Aaswath Pattabhi

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Voltage conversion is a fundamental electronic process critical to engineered systems across a wide spectrum of applications and spanning many orders of magnitude in scale. Conventional approaches like transformers and charge pumps perform well in specific contexts but face fundamental limitations to miniaturization, electromagnetic interference, and voltage range. Here we present a chip-scale, fully integrated monolithic, non-switching optoelectronic voltage conversion platform capable of high gain, bootstrap-free boost-mode operation across several orders of magnitude in power density and voltage scale. Using the bidirectional coupling between LEDs and PV cells with identical active layer materials, our chip-scale, single-die strategy eliminates Stokes losses while improving key parameters like physical footprint, series resistance, and photon leakage by orders of magnitude over implementations using multiple packaged, discrete components. Moreover, by exploiting the large \'etendue of NIR-transparent semi-insulating InP substrates and the atomically smooth, void-free interface of lattice-matched epitaxial growth, simulations indicate that our InGaAsP architecture's photon transport simultaneously provides a > 60x increase in current density and > 50x reduction in non-radiative recombination losses compared with a multiple-die solution while simultaneously reducing fabrication complexity and improving mechanical robustness. We experimentally demonstrate a boost gain of 3.8x in an 8x8 mm$^2$ InGaAs-on-InP chip while validating key aspects of the voltage conversion platform., Comment: 18 pages, 4 figures

Published
2024

2. Low-loss liquid metal interconnects for superconducting quantum circuits

Author

Yao, Zhancheng, Sandberg, Martin, Abraham, David W., and Bishop, David J.

Subjects
Physics - Applied Physics, Quantum Physics
Abstract

Building a modular architecture with superconducting quantum computing chips is one of the means to achieve qubit scalability, allowing the screening, selection, replacement, and integration of individual qubit modules into large quantum systems. However, the nondestructive replacement of modules within a compact architecture remains a challenge. Liquid metals, specifically gallium alloys, can be alternatives to solid-state galvanic interconnects. This is motivated by their self-healing, self-aligning, and other desirable fluidic properties, potentially enabling the nondestructive replacement of modules at room temperatures, even after operating the entire system at millikelvin regimes. In this study, we present coplanar waveguide resonators (CPWRs) interconnected by gallium alloy droplets, achieving high internal quality factors up to nearly one million and demonstrating performance on par with the continuous solid-state CPWRs. Leveraging the desirable fluidic properties of gallium alloys at room temperature and their compact design, we envision a modular quantum system enabled by liquid metals.

Published
2024
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8. Molecular Exploration of Mycoplasma fermentans and Mycoplasma genitalium in Mexican Women with Cervicitis

Author

Abraham David Bustos-López, Marcos R. Escobedo-Guerra, Marcela López-Hurtado, Jesús Roberto Villagrana-Zesati, Martha Valdés-Ramírez, Silvia Giono-Cerezo, and Fernando M. Guerra-Infante

Subjects
Mycoplasmataceae, Mycoplasma, Ureaplasma, pregnancy, infertility, Mycoplasma fermentans, Medicine
Abstract

Genital Mycoplasmas are implicated in adverse pregnancy outcomes and the development of infertility. However, the role of Mycoplasma fermentans in these outcomes has not been adequately studied; therefore, its participation in these sufferings requires further investigation. This study aimed to evaluate the prevalence of M. fermentans in pregnant and non-pregnant women. End-point PCR was used to analyze two hundred and twenty-eight endocervical samples for M. hominis, M. genitalium, M. fermentans, M. pirum, Ureaplasma urealyticum, and U. parvum diagnoses. The prevalence of Mycoplasma spp. was as follows: U. parvum was found in 83 samples (36.4%), U. urealyticum in 39 instances (17.1%), M. hominis in 36 (15.7%), M. fermentans in 32 (14%), M. genitalium in 15 (6.6%), and M. pirum in 0 samples. No association was found between the Mycoplasma spp. and some infertility conditions or adverse pregnancy. However, M. fermentans and M. hominis were found to be associated with bacterial vaginosis (RR = 3.4 CI 95% 1.85–6.3, p < 0.005). In conclusion, M. fermentans and M. hominis were isolated more often in women with bacterial vaginosis, which suggests that these bacteria could contribute to the development of this pathology.

Published
2024
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9. Service-Learning in Higher Education: Andragogy in Argentina, Mexico, and the United States

Author

Benavides, Abraham David, Keyes, Laura M., Linares-Hernández, Ivonne, Martinez-Miranda, Veronica, and Romanazzi, Pablo G.

Abstract

This paper examines service-learning case studies in Argentina, Mexico, and the United States. It analyzes whether Andragogy, the study of how to teach adult learners, is equally applicable and effective in different country contexts. First, we argue that service-learning is the most natural and appropriate teaching technique that aligns with the Theory of Andragogy. We then discuss how a clear understanding of Andragogy is the key to helping mature students process knowledge. Two cases of service-learning in an international context provide a research platform for examining differences in learning concepts, constructs, and student competences. We juxtapose Argentina and Mexico governance against U.S. governance, and we differentiate the public policy challenges within the two contexts. Our methodological approach employs grounded theory to identify themes of knowledge transfer through problematic environments. By comparing service-learning strategies in Argentina and Mexico vis-à-vis in the U.S., we find variations in assumptions of public administration practice, teaching methods, and student learning outcomes.

Published
2022
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22. Randomised single centre double-blind placebo controlled phase II trial of Tocovid SupraBio in combination with pentoxifylline in patients suffering long-term gastrointestinal adverse effects of radiotherapy for pelvic cancer: The PPALM study

Author

Andreyev, H. Jervoise N., Matthews, Jennifer, Adams, Carolyn, Gothard, Lone, Lucy, Claire, Tovey, Holly, Boyle, Sue, Anbalagan, Selvakumar, Musallam, Annette, Yarnold, John, Abraham, David, Bliss, Judith, Abdi, Bahja Ahmed, Taylor, Alexandra, and Hauer-Jensen, Martin

Published
2022
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23. G protein-coupled receptor kinase 3 modulates mesenchymal stem cell proliferation and differentiation through sphingosine-1-phosphate receptor regulation

Author

Brozowski, Jaime M., Timoshchenko, Roman G., Serafin, D. Stephen, Allyn, Brittney, Koontz, Jessica, Rabjohns, Emily M., Rampersad, Rishi R., Ren, Yinshi, Eudy, Amanda M., Harris, Taylor F., Abraham, David, Mattox, Daniel, Rubin, Clinton T., Hilton, Matthew J., Rubin, Janet, Allbritton, Nancy L., Billard, Matthew J., and Tarrant, Teresa K.

Published
2022
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27. P140 IgG Autoantibodies with Increased Affinity for Epithelial Cells in Severe Systemic Sclerosis

Author

Moezinia, Carine, primary, Wong, Valerie, additional, Watson, James, additional, Nagib, Lydia, additional, Garces, Sandra Lopez, additional, Lopez, Henry, additional, Martin, George, additional, Zhang, Siyu, additional, Abdi, Bahja Ahmed, additional, Denton, Christopher, additional, Abraham, David, additional, and Stratton, Richard J, additional

Published
2024
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31. Psychosocial Risk and Turnover Intention: The Moderating Effect of Psychological Wellbeing

Author

Ntow, Michael Akomeah Ofori, Abraham, David Kwaku, Bonsu, Noble Osei, Zungbey, Ophelia Delali Dogbe, Sokro, Evans, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Arezes, Pedro M., editor, and Boring, Ronald L., editor

Published
2020
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33. A Correction Function Method for the Wave Equation with Interface Jump Conditions

Author

Abraham, David S., Marques, Alexandre Noll, and Nave, Jean-Christophe

Subjects
Mathematics - Numerical Analysis, 35L05, 65M06
Abstract

In this paper a novel method to solve the constant coefficient wave equation, subject to interface jump conditions, is presented. In general, such problems pose issues for standard finite difference solvers, as the inherent discontinuity in the solution results in erroneous derivative information wherever the stencils straddle the given interface. Here, however, the recently proposed Correction Function Method (CFM) is used, in which correction terms are computed from the interface conditions, and added to affected nodes to compensate for the discontinuity. In contrast to existing methods, these corrections are not simply defined at affected nodes, but rather generalized to a continuous function within a small region surrounding the interface. As a result, the correction function may be defined in terms of its own governing partial differential equation (PDE) which may be solved, in principle, to arbitrary order of accuracy. The resulting scheme is not only arbitrarily high order, but also robust, having already seen application to Poisson problems and the heat equation. By extending the CFM to this new class of PDEs, the treatment of wave interface discontinuities in homogeneous media becomes possible. This allows, for example, for the straightforward treatment of infinitesimal source terms and sharp boundaries, free of staircasing errors. Additionally, new modifications to the CFM are derived, allowing compatibility with explicit multi-step methods, such as Runge-Kutta (RK4), without a reduction in accuracy. These results are then verified through numerous numerical experiments in one and two spatial dimensions., Comment: 31 pages, 19 figures; clarified certain sections of the text, results unchanged

Published
2016
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34. Bulk and surface loss in superconducting transmon qubits

Author

Dial, Oliver, McClure, Douglas T., Poletto, Stefano, Gambetta, Jay M., Abraham, David W., Chow, Jerry M., and Steffen, Matthias

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Decoherence of superconducting transmon qubits is purported to be consistent with surface loss from two-level systems on the substrate surface. Here, we present a study of surface loss in transmon devices, explicitly designed to have varying sensitivities to different surface loss contributors. Our experiments also encompass two particular different sapphire substrates, which reveal the onset of a yet unknown additional loss mechanism outside of surface loss for one of the substrates. Tests across different wafers and devices demonstrate substantial variation, and we emphasize the importance of testing large numbers of devices for disentangling different sources of decoherence., Comment: 4 pages, 3 figures

Published
2015
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35. Characterizing a Four-Qubit Planar Lattice for Arbitrary Error Detection

Author

Chow, Jerry M., Srinivasan, Srikanth J., Magesan, Easwar, Corcoles, A D., Abraham, David W., Gambetta, Jay M., and Steffen, Matthias

Subjects
Quantum Physics
Abstract

Quantum error correction will be a necessary component towards realizing scalable quantum computers with physical qubits. Theoretically, it is possible to perform arbitrarily long computations if the error rate is below a threshold value. The two-dimensional surface code permits relatively high fault-tolerant thresholds at the ~1% level, and only requires a latticed network of qubits with nearest-neighbor interactions. Superconducting qubits have continued to steadily improve in coherence, gate, and readout fidelities, to become a leading candidate for implementation into larger quantum networks. Here we describe characterization experiments and calibration of a system of four superconducting qubits arranged in a planar lattice, amenable to the surface code. Insights into the particular qubit design and comparison between simulated parameters and experimentally determined parameters are given. Single- and two-qubit gate tune-up procedures are described and results for simultaneously benchmarking pairs of two-qubit gates are given. All controls are eventually used for an arbitrary error detection protocol described in separate work [Corcoles et al., Nature Communications, 6, 2015], Comment: 9 pages, 3 figures in Proc. SPIE 9500, Quantum Information and Computation XIII, 95001G (May 21, 2015)

Published
2015
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40. Blackbox Quantization of Superconducting Circuits using exact Impedance Synthesis

Author

Solgun, Firat, Abraham, David W., and DiVincenzo, David P.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

We propose a new quantization method for superconducting electronic circuits involving a Josephson junction device coupled to a linear microwave environment. The method is based on an exact impedance synthesis of the microwave environment considered as a blackbox with impedance function Z(s). The synthesized circuit captures dissipative dynamics of the system with resistors coupled to the reactive part of the circuit in a non-trivial way. We quantize the circuit and compute relaxation rates following previous formalisms for lumped element circuit quantization. Up to the errors in the fit our method gives an exact description of the system and its losses.

Published
2014
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42. Defining genetic risk factors for scleroderma-associated interstitial lung disease: IRF5 and STAT4 gene variants are associated with scleroderma while STAT4 is protective against scleroderma-associated interstitial lung disease

Author

Stock, Carmel J. W., De Lauretis, Angelo, Visca, Dina, Daccord, Cecile, Kokosi, Maria, Kouranos, Vasilis, Margaritopoulos, George, George, Peter M., Molyneaux, Philip L., Nihtyanova, Svetlana, Chua, Felix, Maher, Toby M., Ong, Voon, Abraham, David J., Denton, Christopher P., Wells, Athol U., Wain, Louise V., and Renzoni, Elisabetta A.

Published
2020
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43. Implementing a strand of a scalable fault-tolerant quantum computing fabric

Author

Chow, Jerry M., Gambetta, Jay M., Magesan, Easwar, Srinivasan, Srikanth J., Cross, Andrew W., Abraham, David W., Masluk, Nicholas A., Johnson, B. R., Ryan, Colm A., and Steffen, M.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Quantum error correction (QEC) is an essential step towards realising scalable quantum computers. Theoretically, it is possible to achieve arbitrarily long protection of quantum information from corruption due to decoherence or imperfect controls, so long as the error rate is below a threshold value. The two-dimensional surface code (SC) is a fault-tolerant error correction protocol} that has garnered considerable attention for actual physical implementations, due to relatively high error thresholds ~1%, and restriction to planar lattices with nearest-neighbour interactions. Here we show a necessary element for SC error correction: high-fidelity parity detection of two code qubits via measurement of a third syndrome qubit. The experiment is performed on a sub-section of the SC lattice with three superconducting transmon qubits, in which two independent outer code qubits are joined to a central syndrome qubit via two linking bus resonators. With all-microwave high-fidelity single- and two-qubit nearest-neighbour entangling gates, we demonstrate entanglement distributed across the entire sub-section by generating a three-qubit Greenberger-Horne-Zeilinger (GHZ) state with fidelity ~94%. Then, via high-fidelity measurement of the syndrome qubit, we deterministically entangle the otherwise un-coupled outer code qubits, in either an even or odd parity Bell state, conditioned on the syndrome state. Finally, to fully characterize this parity readout, we develop a new measurement tomography protocol to obtain a fidelity metric (90% and 91%). Our results reveal a straightforward path for expanding superconducting circuits towards larger networks for the SC and eventually a primitive logical qubit implementation., Comment: 9 pages, 4 main figures, 3 extended data figures

Published
2013
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44. Improved superconducting qubit coherence using titanium nitride

Author

Chang, J., Vissers, M. R., Corcoles, A. D., Sandberg, M., Gao, J., Abraham, David W., Chow, Jerry M., Gambetta, Jay M., Rothwell, M. B., Keefe, G. A., Steffen, Matthias, and Pappas, D. P.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

We demonstrate enhanced relaxation and dephasing times of transmon qubits, up to ~ 60 \mu s by fabricating the interdigitated shunting capacitors using titanium nitride (TiN). Compared to lift-off aluminum deposited simultaneously with the Josephson junction, this represents as much as a six-fold improvement and provides evidence that previous planar transmon coherence times are limited by surface losses from two-level system (TLS) defects residing at or near interfaces. Concurrently, we observe an anomalous temperature dependent frequency shift of TiN resonators which is inconsistent with the predicted TLS model., Comment: 3 figures

Published
2013
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