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3,448 results on '"D. Gill"'

1. Direct coupling of light to valley current

Author

S. Sharma, D. Gill, J. Krishna, J. K. Dewhurst, and S. Shallcross

Subjects
Science
Abstract

Abstract The coupling of circularly polarized light to local band structure extrema ("valleys”) in two dimensional semiconductors promises a new electronics based on the valley degree of freedom. Such pulses, however, couple only to valley charge and not to the valley current, precluding lightwave manipulation of this second vital element of valleytronic devices. Contradicting this established wisdom, we show that the few cycle limit of circularly polarized light is imbued with an emergent vectorial character that allows direct coupling to the valley current. The underlying physical mechanism involves the emergence of a momentum space valley dipole, the orientation and magnitude of which allows complete control over the direction and magnitude of the valley current. We demonstrate this effect via minimal tight-binding models both for the visible spectrum gaps of the transition metal dichalcogenides (generation time ~ 1 fs) as well as the infrared gaps of biased bilayer graphene ( ~ 14 fs); we further verify our findings with state-of-the-art time-dependent density functional theory incorporating transient excitonic effects. Our findings both mark a striking example of emergent physics in the ultrafast limit of light-matter coupling, as well as allowing the creation of valley currents on time scales that challenge quantum decoherence in matter.

Published
2024
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2. New determination of the branching ratio of the structure dependent radiative K+ → e+νeγ

Author

A. Kobayashi, H. Ito, S. Bianchin, T. Cao, C. Djalali, D.H. Dongwi, T. Gautam, D. Gill, M.D. Hasinoff, K. Horie, Y. Igarashi, J. Imazato, N. Kalantarians, H. Kawai, S. Kimura, S. Kodama, M. Kohl, H. Lu, O. Mineev, P. Monaghan, S. Shimizu, M. Tabata, R. Tanuma, A. Toyoda, H. Yamazaki, and N. Yershov

Subjects
Physics, QC1-999
Abstract

The branching ratio of the structure dependent (SD) radiative K+→e+νeγ decay relative to that of the K+→e+νe(γ) decay including the internal bremsstrahlung (IB) process (Ke2(γ)) has been measured in the J-PARC E36 experiment using plastic scintillator/lead sandwich detectors, in contrast to the previous E36 measurement, which used a CsI(Tl) calorimeter. In the analysis, the effect of IB was also taken into account in the SD radiative decay as Ke2γ(γ)SD. By combining the new data with the previous E36 result after revision for the IB correction for Ke2γ(γ)SD, a new value Br(Ke2γ(γ)SD)/Br(Ke2(γ))=1.20±0.07 has been determined. This is consistent with a recent lattice QCD calculation, but larger than the expectation of Chiral Perturbation Theory (ChPT) at order O(p4) and the previous KLOE value. Using the method to relate form factor and branching ratio described in the KLOE paper, the present result is also consistent with the form factor prediction based on a gauged nonlocal chiral quark model, but larger than that from ChPT at order O(p6).

Published
2023
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3. Measurement of structure dependent radiative K+ → e+νγ decays using stopped positive kaons

Author

H. Ito, A. Kobayashi, S. Bianchin, T. Cao, C. Djalali, D.H. Dongwi, T. Gautam, D. Gill, M.D. Hasinoff, K. Horie, Y. Igarashi, J. Imazato, N. Kalantarians, H. Kawai, S. Kimura, S. Kodama, M. Kohl, H. Lu, O. Mineev, P. Monaghan, S. Shimizu, S. Strauch, M. Tabata, R. Tanuma, A. Toyoda, H. Yamazaki, and N. Yershov

Subjects
Physics, QC1-999
Abstract

The structure dependent radiative K+→e+νγ (Ke2γSD+) decay was investigated with stopped positive kaons. The e+ momentum spectra containing 574±30 Ke2γSD+ events with a K+→μ+ν (Kμ2) background of 28±19 events were measured with and without a photon in coincidence and analyzed with Monte Carlo simulations for acceptance and detector response to extract the ratio of the branching ratio of the Ke2γSD+ decay and the K+→e+ν decay including the internal bremsstrahlung process (Ke2(γ)). A value of Br(Ke2γSD+)/Br(Ke2(γ))=1.12±0.07stat±0.04syst was obtained. This indicates a partial branching ratio, Br(Ke2γSD+,pe>200MeV/c,Eγ>10MeV)/Br(Kμ2)=(1.85±0.11stat±0.07syst)×10−5, which is 25% (∼2.5σ) higher than the previous experimental result.

Published
2022
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4. Antibiotic prescribing in general medical and surgical specialties: a prospective cohort study

Author

E. Charani, E. de Barra, T. M. Rawson, D. Gill, M. Gilchrist, N. R. Naylor, and A. H. Holmes

Subjects
Antibiotic-decision making, Surgery, Antibiotic escalation, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Qualitative work has described the differences in prescribing practice across medical and surgical specialties. This study aimed to understand if specialty impacts quantitative measures of prescribing practice. Methods We prospectively analysed the antibiotic prescribing across general medical and surgical teams for acutely admitted patients. Over a 12-month period (June 2016 – May 2017) 659 patients (362 medical, 297 surgical) were followed for the duration of their hospital stay. Antibiotic prescribing across these cohorts was assessed using Chi-squared or Wilcoxon rank-sum, depending on normality of data. The t-test was used to compare age and length of stay. A logistic regression model was used to predict escalation of antibiotic therapy. Results Surgical patients were younger (p

Published
2019
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5. Transcriptomic analysis of monocytes and macrophages derived from CLL patients which display differing abilities to respond to therapeutic antibody immune complexes

Author

M. Burgess, J.J. Ellis, S. Mapp, P. Mollee, R. Mazzieri, S.R. Mattarollo, D. Gill, and N.A. Saunders

Subjects
Genetics, QH426-470
Abstract

Chronic lymphocytic leukemia (CLL) is the most common adult leukemia. While therapeutic antibodies show clinical activity in CLL patients, resistance inevitably develops resulting in treatment failure. Identifying mechanisms of antibody resistance and methods to reduce resistance would be valuable in managing CLL. Monocyte derived cells (MDCs), also known as nurse like cells (NLCs) in CLL [1,2], are known to be crucial components of the CLL microenvironment network and following “maturation” in in vitro culture systems are able to provide support for the survival of the malignant B cells from CLL patients. In addition to their protective role, MDCs are key effector cells in mediating responses to therapeutic antibody therapies [3]. We have determined that macrophages from patients with early stable CLL are able to elicit superior cytotoxic response to therapeutic antibodies than macrophages derived from patients with progressive CLL. We have exploited this unique finding to gain insight into antibody resistance. Thus, we have profiled monocytes on day 0 and MDCs on day 7 from antibody sensitive and antibody resistant CLL patients (GEO accession number GEO: GSE71409). We show that there are no significant differences in transcriptomes from the monocytes or MDCs derived from sensitive or resistant patient samples. However, we show that MDCs acquire an M2-like macrophage transcriptomic signature following 7 days culture regardless of whether they were derived from sensitive or resistant patient samples. Keywords: Chronic lymphocytic leukemia, Monocyte derived cells, Antibody resistance, Microarray

Published
2016
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6. Roles of Education and IQ in Cognitive Reserve in Parkinson’s Disease-Mild Cognitive Impairment

Author

M.J. Armstrong, G. Naglie, S. Duff-Canning, C. Meaney, D. Gill, P.J. Eslinger, C. Zadikoff, M. Mapstone, K.L. Chou, C. Persad, I. Litvan, B.T. Mast, S. Fox, D.F. Tang-Wai, and C. Marras

Subjects
Parkinson’s disease, Mild cognitive impairment, Education, IQ, Cognitive reserve, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6
Abstract

Background/Aims: The role of cognitive reserve in Parkinson’s disease (PD)-mild cognitive impairment (MCI) is incompletely understood. Methods: The relationships between PD-MCI, years of education, and estimated premorbid IQ were examined in 119 consecutive non-demented PD patients using logistic regression models. Results: Higher education and IQ were associated with reduced odds of PD-MCI in univariate analysis. In multivariable analysis, a higher IQ was associated with a significantly decreased odds of PD-MCI, but education was not. Conclusion: The association of higher IQ and decreased odds of PD-MCI supports a role for cognitive reserve in PD, but further studies are needed to clarify the interaction of IQ and education and the impact of other contributors such as employment and hobbies.

Published
2012
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7. Retention Practices to Prevent Attrition in Associate Degree Nursing Programs, Diploma Nursing Programs, and Bachelor's Degree Nursing Programs: A Qualitative Study

Author

Timothy D. Gill

Abstract

Providing students with effective retention strategies allows nursing schools to help as many struggling students as possible, leading to an increased number of graduates. A nationwide nursing shortage has forced schools to try to keep up with the demands. However, many obstacles prevent students from being successful. This qualitative study gained insight and perspectives from faculty members who teach nursing students about what strategies are successful and what strategies are not successful in retaining nursing students. Once the student is admitted to a nursing program, faculty must ensure that the student encounters a positive learning environment. Someone must train nursing instructors to provide academic support to those students who may have issues that may affect their performance in nursing school. Equally, nursing school admission departments must work to ensure that the most qualified students receive admission. The pressure to keep up with the demands of the nursing workforce should not be a higher priority than ensuring that a student can succeed in nursing school. This study also uncovered the importance of student participation in their education and faculty support efforts to engage the students. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published
2023

13. Contributors

Author

Nuno Garoupa, Rebecca D. Gill, and Lydia B. Tiede

Published
2021

18. Index

Author

Nuno Garoupa, Rebecca D. Gill, and Lydia B. Tiede

Published
2021

30. Acknowledgments

Author

Nuno Garoupa, Rebecca D. Gill, and Lydia B. Tiede

Published
2021

49. Optimal Statistical Analyses of Bell Experiments

Author

Richard D. Gill

Subjects
Quantum Physics, Bell experiment, quantum entanglement, Bell-CHSH inequality, maximum likelihood estimation, testing statistical hypotheses, Wilks generalized likelihood ratio test, FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

We show how both smaller and more reliable p-values can be computed in Bell-type experiments by using statistical deviations from no-signalling equalities to reduce statistical noise in the estimation of Bell's S or Eberhard's J. Further improvement is obtained by using Wilks' likelihood ratio test based on the four tetranomially distributed vectors of counts of the four different outcome combinations, one 4-vector for each of the four setting combinations. The methodology is illustrated by application to the loophole-free Bell experiments of 2015 and 2016 performed in Delft and Munich, at NIST, and in Vienna respectively; and also to the earlier Innsbruck experiment of Weihs et al. (1998) and the recent Munich experiment of Zhang et al. (2022), which investigates use of a loophole-free Bell experiment as part of a protocol for Device Independent Quantum Key Distribution, DIQKD., 16 pages. Version 4: added a section with a potted history of Bell experiments in order to give a useful bibliography and a starting point for those wanting to learn more about the physics context

Published
2023
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50. RTGPU: Real-Time GPU Scheduling of Hard Deadline Parallel Tasks With Fine-Grain Utilization

Author

An Zou, Jing Li, Christopher D. Gill, and Xuan Zhang

Subjects
FOS: Computer and information sciences, Computer Science - Artificial Intelligence, Graphics (cs.GR), Artificial Intelligence (cs.AI), Computer Science::Graphics, Computer Science - Graphics, Computer Science - Distributed, Parallel, and Cluster Computing, Computational Theory and Mathematics, Hardware and Architecture, Hardware Architecture (cs.AR), Signal Processing, Computer Science::Mathematical Software, Distributed, Parallel, and Cluster Computing (cs.DC), Computer Science - Hardware Architecture, Computer Science::Operating Systems
Abstract

Many emerging cyber-physical systems, such as autonomous vehicles and robots, rely heavily on artificial intelligence and machine learning algorithms to perform important system operations. Since these highly parallel applications are computationally intensive, they need to be accelerated by graphics processing units (GPUs) to meet stringent timing constraints. However, despite the wide adoption of GPUs, efficiently scheduling multiple GPU applications while providing rigorous real-time guarantees remains a challenge. In this paper, we propose RTGPU, which can schedule the execution of multiple GPU applications in real-time to meet hard deadlines. Each GPU application can have multiple CPU execution and memory copy segments, as well as GPU kernels. We start with a model to explicitly account for the CPU and memory copy segments of these applications. We then consider the GPU architecture in the development of a precise timing model for the GPU kernels and leverage a technique known as persistent threads to implement fine-grained kernel scheduling with improved performance through interleaved execution. Next, we propose a general method for scheduling parallel GPU applications in real time. Finally, to schedule multiple parallel GPU applications, we propose a practical real-time scheduling algorithm based on federated scheduling and grid search (for GPU kernel segments) with uniprocessor fixed priority scheduling (for multiple CPU and memory copy segments). Our approach provides superior schedulability compared with previous work, and gives real-time guarantees to meet hard deadlines for multiple GPU applications according to comprehensive validation and evaluation on a real NVIDIA GTX1080Ti GPU system.

Published
2023
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