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874 results on '"Burgess, Andrew"'

1. Flat-plane based double-counting free and parameter free many-body DFT+U

Author

Burgess, Andrew C. and O'Regan, David D.

Subjects
Condensed Matter - Strongly Correlated Electrons, Physics - Chemical Physics, Physics - Computational Physics, Quantum Physics
Abstract

Burgess et al. have recently introduced the BLOR corrective exchange-correlation functional that is, by construction, the unique simplified rotationally-invariant DFT+U functional that enforces the flat-plane condition separately on each effective orbital of a localized subspace. Detached from the Hubbard model, functionals of this type are both double-counting correction free and, when optimized in situ using appropriate error quantifiers, effectively parameter free. In this work, the extension of the BLOR functional to address many-body errors (mBLOR) is derived. The mBLOR functional is built to enforce the flat-plane condition on the entire subspace, rather than on each orbital individually. In this way inter-orbital errors are corrected on the same footing as the single-particle ones. Focusing on exact test cases with strong inter-orbital interactions, the BLOR and mBLOR functionals were benchmarked against contemporary DFT+U functionals using the total energy extensivity condition on stretched homo-nuclear p-block dimers that represent various self-interaction and static-correlation error regimes. The BLOR functional outperformed all other DFT+$U$ functionals tested, which often act to increase total-energy errors, yet it still yielded large errors in some systems. mBLOR instead yielded low energy errors across all four strongly-correlated dimers, while being constructed using only semi-local approximation ingredients. As mBLOR would not otherwise introduce a band-gap correction in the manner that is a desirable feature of DFT+U, we developed a cost-free technique to reintroduce it automatically by moving the functional's unusual explicit derivative discontinuity into the potential. With this in place, mBLOR is the only known DFT$+U$ functional that opens the bandgap of stretched neutral homo-nuclear dimers without the aid of unphysical spin-symmetry breaking., Comment: As accepted for publication in Phys. Rev. B. 22 pages, 9 figures, and 4 tables

Published
2024

3. The Convexity Condition of Density-Functional Theory

Author

Burgess, Andrew C., Linscott, Edward, and O'Regan, David D.

Subjects
Physics - Chemical Physics, Condensed Matter - Strongly Correlated Electrons, Physics - Computational Physics, Quantum Physics
Abstract

It has long been postulated that within density-functional theory (DFT) the total energy of a finite electronic system is convex with respect to electron count, so that 2 E_v[N_0] <= E_v[N_0 - 1] + E_v[N_0 + 1]. Using the infinite-separation-limit technique, this article proves the convexity condition for any formulation of DFT that is (1) exact for all v-representable densities, (2) size-consistent, and (3) translationally invariant. An analogous result is also proven for one-body reduced density matrix functional theory. While there are known DFT formulations in which the ground state is not always accessible, indicating that convexity does not hold in such cases, this proof nonetheless confirms a stringent constraint on the exact exchange-correlation functional. We also provide sufficient conditions for convexity in approximate DFT, which could aid in the development of density-functional approximations. This result lifts a standing assumption in the proof of the piecewise linearity condition with respect to electron count, which has proven central to understanding the Kohn-Sham band-gap and the exchange-correlation derivative discontinuity of DFT., Comment: This Communication has been published in the Journal of Chemical Physics 159, 211102 (2023) which can be found at the following link: https://doi.org/10.1063/5.0174159

Published
2023
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5. The tilted-plane structure of the energy of finite quantum systems

Author

Burgess, Andrew C., Linscott, Edward, and O'Regan, David D.

Subjects
Condensed Matter - Strongly Correlated Electrons, Physics - Chemical Physics, Physics - Computational Physics
Abstract

The piecewise linearity condition on the total energy with respect to the total magnetization of finite quantum systems is derived, using the infinite-separation-limit technique. This generalizes the well-known constancy condition, related to static correlation error, in approximate density functional theory (DFT). The magnetic analog of the DFT Koopmans' theorem is also derived. Moving to fractional electron count, the tilted plane condition is derived, lifting certain assumptions in previous works. This generalization of the flat plane condition characterizes the total energy surface of a finite system for all values of electron count N and magnetization M. This result is used in combination with tabulated spectroscopic data to show the flat plane-structure of the oxygen atom, among others. We find that derivative discontinuities with respect to electron count sometimes occur at non-integer values. A diverse set of tilted plane structures is shown to occur in d-orbital subspaces, depending on chemical coordination. General occupancy-based total-energy expressions are demonstrated thereby to be necessarily dependent on the symmetry-imposed degeneracies., Comment: 13 pages, 7 figures

Published
2023
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18. A DFT+U type functional derived to explicitly address the flat plane condition

Author

Burgess, Andrew, Linscott, Edward, and O'Regan, David D.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Physics - Chemical Physics, Physics - Computational Physics, Quantum Physics
Abstract

A new DFT+U type corrective functional is derived from first principles to enforce the flat plane condition on localized subspaces, thus dispensing with the need for an ad hoc derivation from the Hubbard model. The newly derived functional as given by equation 5 yields relative errors below 0.6% in the total energy of the dissociated s-block dimers as well as the dissociated H5+ ring system. In comparison bare PBE and PBE+U (using Dudarev's 1998 Hubbard functional) yields relative energetic errors as high as 8.0% and 20.5% respectively., Comment: 8 pages, 5 figures, plus 13 pages of Supplementary Information

Published
2022
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20. Conducting Research on the Internet: Medical Record Data Integration with Patient-Reported Outcomes

Author

Cascade, Elisa, Marr, Paige, Winslow, Matthew, Burgess, Andrew, and Nixon, Mark

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundThe growth in the number of patients seeking health information online has given rise to new direct-to-patient research methods, including direct patient recruitment and study conduct without use of physician sites. While such patient-centric designs offer time and cost efficiencies, the absence of physician-reported data is a key concern, with potential impact on both scientific rigor and operational feasibility. ObjectiveTo (1) gain insight into the viability of collecting patient-reported outcomes and medical record information in a sample of gout patients through a direct-to-patient approach (ie, without the involvement of physician sites), and (2) evaluate the validity of patient-reported diagnoses collected during a patient-reported outcomes plus medical record (PRO+MR) direct-to-patient study. MethodsWe invited a random sample of MediGuard.org members aged 18 to 80 years to participate via email based on a gout treatment or diagnosis in their online profiles. Interested members clicked on an email link to access study information, consent to participate electronically, and be screened for eligibility. The first 50 consenting participants completed an online survey and provided electronic and wet signatures on medical record release forms for us to obtain medical charts from their managing physicians. ResultsA total of 108 of 1250 MediGuard.org members (8.64%) accessed study information before we closed the study at 50 completed surveys. Of these 108 members who took the screener, 50 (46.3%) completed the study, 19 (17.6%) did not pass the screening, 5 (4.6%) explicitly declined to participate due to the medical record requirement, and 34 (31.5%) closed the browser without completing the survey screener. Ultimately, we obtained 38 of 50 charts (76%): 28 collected using electronic signature and 10 collected based on wet signature on a paper form. Of the 38 charts, 37 cited a gout diagnosis (35 charts) or use of a gout medication (2 charts). Only 1 chart lacked any mention of gout. ConclusionsPatients can be recruited directly for observational study designs that include patient-reported outcomes and medical record data with over 75% data completeness. Although the validity of self-reported diagnosis is often a concern in Internet-based studies, in this PRO+MR study pilot, nearly all (37 of 38) charts confirmed patient-reported data.

Published
2012
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23. A Study of the Corrosion Resistance of 316L Stainless Steel Manufactured by Powder Bed Laser Additive Manufacturing.

Author

Ahuir-Torres, Juan Ignacio, Burgess, Andrew, Sharp, Martin Charles, Öpöz, Tahsin Tecelli, Malkeson, Sean P., Falkingham, Peter L., Darlington, Robert I., and Tammas-Williams, Samuel

Subjects
ELECTROLYTIC corrosion, CORROSION resistance, STAINLESS steel, LASER spectroscopy, STEEL manufacture
Abstract

Commercially available 316L (1.4404) stainless steel is commonly used for industrial filtration due to its combination of good material properties, particularly its corrosion resistance, which is a critical factor for filters in corrosive (e.g., saltwater) environments. Recently, laser powder bed fusion (LPBF) has enabled new more complex and efficient filtration pieces to be manufactured from this material. However, it is critical to know how the corrosion resistance is affected by this manufacturing strategy. Here, the corrosion resistance of LPBF manufactured 316L stainless steel is compared with wrought 316L sheet. The corrosion of the samples in saltwater was assessed with asymmetric electrochemical noise, potentiodynamic polarisation curve, and electrochemical impedance spectroscopy. The samples before and after corrosion were examined with scanning electron microscopy and energy-dispersive spectroscopy. The LPBF samples had higher corrosion resistance than the sheet samples and were more noble. The corrosion resistance of the LPBF sample increased with time, while the wrought sample corrosion resistance reduced over time. The corrosion mechanism of both samples was stable with time, formed of a passive film process and a bared material process. This paper presents the first study about the temporal evolution of the LPBF 316L stainless steel corrosion mechanism. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Ensa controls S-phase length by modulating Treslin levels.

Author

Charrasse, Sophie, Gharbi-Ayachi, Aicha, Burgess, Andrew, Vera, Jorge, Hached, Khaled, Raynaud, Peggy, Schwob, Etienne, Lorca, Thierry, and Castro, Anna

Subjects
Hela Cells, Humans, Protein-Serine-Threonine Kinases, Peptides, Cell Cycle Proteins, Microtubule-Associated Proteins, Cell Division, Mitosis, S Phase, HeLa Cells, Intercellular Signaling Peptides and Proteins
Abstract

The Greatwall/Ensa/PP2A-B55 pathway is essential for controlling mitotic substrate phosphorylation and mitotic entry. Here, we investigate the effect of the knockdown of the Gwl substrate, Ensa, in human cells. Unexpectedly, Ensa knockdown promotes a dramatic extension of S phase associated with a lowered density of replication forks. Notably, Ensa depletion results in a decrease of Treslin levels, a pivotal protein for the firing of replication origins. Accordingly, the extended S phase in Ensa-depleted cells is completely rescued by the overexpression of Treslin. Our data herein reveal a new mechanism by which normal cells regulate S-phase duration by controlling the ubiquitin-proteasome degradation of Treslin in a Gwl/Ensa-dependent pathway.The Greatwall/Ensa/PP2A-B55 pathway controls mitotic substrate phosphorylation and mitotic entry. Here the authors show that cells regulate S phase duration by controlling the ubiquitin-proteasome degradation of Treslin in a Gwl/Ensa-dependent pathway.

Published
2017

38. Trp53 and Rb1 regulate autophagy and ligand-dependent Hedgehog signaling

Author

Cochrane, Catherine R., Vaghjiani, Vijesh, Szczepny, Anette, Jayasekara, W. Samantha N., Gonzalez-Rajal, Alvaro, Kikuchi, Kazu, McCaughan, Geoffrey W., Burgess, Andrew, Gough, Daniel J., Watkins, D. Neil, and Cain, Jason E.

Subjects
Thermo Fisher Scientific Inc., Lung cancer -- Genetic aspects, Tumor proteins -- Genetic aspects, Transcription (Genetics) -- Genetic aspects, Health care industry
Abstract

Ligand-dependent activation of Hedgehog (Hh) signaling in cancer occurs without mutations in canonical pathway genes. Consequently, the genetic basis of Hh pathway activation in adult solid tumors, such as small-cell lung cancer (SCLC), is unknown. Here we show that combined inactivation of Trp53 and Rb1, a defining genetic feature of SCLC, leads to hypersensitivity to Hh ligand in vitro, and during neural tube development in vivo. This response is associated with the aberrant formation of primary cilia, an organelle essential for canonical Hh signaling through smoothened, a transmembrane protein targeted by small-molecule Hh inhibitors. We further show that loss of both Trp53 and Rb1 disables transcription of genes in the autophagic machinery necessary for the degradation of primary cilia. In turn, we also demonstrate a requirement for Kif3a, a gene essential for the formation of primary cilia, in a mouse model of SCLC induced by conditional deletion of both Trp53 and Rb1 in the adult airway. Our results provide a mechanistic framework for therapeutic targeting of ligand-dependent Hh signaling in human cancers with somatic mutations in both TP53 and RB1., Introduction Hedgehog (Hh) signaling is an evolutionarily conserved pathway essential for axial patterning and cell fate determination in development (1). In mammals, Hh signaling is driven by 3 ligands, sonic [...]

Published
2020
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40. Methane T-Dwarf Candidates in the Star Forming Region IC 348

Author

Burgess, Andrew, Bouvier, Jerome, and Moraux, Estelle

Subjects
Astrophysics
Abstract

IC 348 is a young (t$\sim$3Myr) and nearby (d$\sim$340pc) star forming region in the Perseus molecular cloud. We performed a deep imaging survey using the MEGACAM (z-band) and WIRCAM (JHK and narrowband CH${_4}$ on/off) wide-field cameras on the Canada-France-Hawaii Telescope. From the analysis of the narrowband CH${_4}$ on/off deep images, we report 4 T-dwarf candidates, of which 3 clearly lie within the limits of the IC 348 cluster. An upper limit on the extinction was estimated for each candidate from colour-magnitude diagrams, and found consistent with extinction maps of the cloud. Initial comparisons with T-dwarf spectral models suggest these candidates have a spectral type between T3 and T5, and perhaps later, potentially making these among the lowest mass isolated objects detected in a young star forming region so far.

Published
2008
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43. The Mangled Extremity

Author

Burgess, Andrew R., Dua, Anahita, editor, Desai, Sapan S., editor, Holcomb, John B., editor, Burgess, Andrew R., editor, and Freischlag, Julie Ann, editor

Published
2014
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44. Fasciotomy

Author

Burgess, Andrew R., Aziz, Abdul, Dua, Anahita, editor, Desai, Sapan S., editor, Holcomb, John B., editor, Burgess, Andrew R., editor, and Freischlag, Julie Ann, editor

Published
2014
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46. ADHM instantons and the Gauss-Bonnet integral on non-compact hyper-Kahler manifolds

Author

Burgess, Andrew E. F.

Subjects
519
Abstract

The main intention of this thesis is to calculate the Gauss-Bonnet integral on the moduli space of Yang-Mills instantons and in particular to test a conjecture of Dorey, Hollowood and Khoze which relates the D-instanton partition function (a quantity arising from string-theoretic considerations), and the Gauss-Bonnet integral on the resolved moduli space of instantons. We shall present two main results. Firstly, we use the ADHM construction to determine the metric on the moduli space of a single SU(3) instanton. The result obtained agrees with the previous result of [20]. From this metric we calculate the spin connection and the curvature. Ultimately, we were able to evaluate the Gauss-Bonnet integral over this resolved moduli space. This involved a non-trivial integral over an eight dimensional hyper-Kahler space. The result obtained confirms the prediction of [17]. Secondly, I have also been able to verify explicitly that the D-instanton partition function derived from string theory reduces to the Gauss-Bonnet integral on the resolved instanton moduli space for the case of a single instanton in an arbitrary gauge group. In the introductory chapter, we discuss in general term the motivation for the calculations presented in this thesis. In chapter two, we discuss zero modes and collective co-ordinates and introduce the notion of a moduli space. We also verify that the instanton moduli space in hyper-Kahler. Chapter three discusses the ADHM construction and we pursue some of its consequences. Chapter four is devoted to obtaining the supersymmetric quantum mechanical sigma model on the moduli space of instantons and the elucidation of its geometrical significance. Chapter five is where we illustrate the explicit implementation of the ADHM construction and calculate the Gauss-Bonnet integral in the single instanton SU(3) case. The results of this calculation are compared with those obtained by [17]. Their method is reviewed in chapter six. The results of both are in agreement.

Published
2004

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