1,505 research outputs found

    Santa Lucia - 1955. Girls - Sandra Johnson, Patsy Hede, Donna Sandstrom, Barbara Peterson, Judy Anderson (Santa Lucia), Kathleen Hede, Barbara Dixon. Boys - Pastor Theodore Hjerpe, James Peterson, Danny Dixon, John Sandstrom, Mike Sandstrom & Dana Nelson

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    Santa Lucia - 1955. Girls - Sandra Johnson, Patsy Hede, Donna Sandstrom, Barbara Peterson, Judy Anderson (Santa Lucia), Kathleen Hede, Barbara Dixon. Boys - Pastor Theodore Hjerpe, James Peterson, Danny Dixon, John Sandstrom, Mike Sandstrom & Dana Nelsonhttps://digitalmaine.com/stockholm_images/1843/thumbnail.jp

    Santa Lucia - 1955. Girls - Sandra Johnson, Patsy Hede, Donna Sandstrom, Barbara Peterson, Judy Anderson (Santa Lucia), Kathleen Hede, Barbara Dixon. Boys - Pastor Theodore Hjerpe, James Peterson, Danny Dixon, John Sandstrom, Mike Sandstrom & Dana Nelson

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    Santa Lucia - 1955. Girls - Sandra Johnson, Patsy Hede, Donna Sandstrom, Barbara Peterson, Judy Anderson (Santa Lucia), Kathleen Hede, Barbara Dixon. Boys - Pastor Theodore Hjerpe, James Peterson, Danny Dixon, John Sandstrom, Mike Sandstrom & Dana Nelsonhttps://digitalmaine.com/stockholm_images/1843/thumbnail.jp

    Approaching the diamond surface: first principles modelling the physics and chemistry of approaching radicals

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    The diamond surface plays a central role in much of the diamond research, and as such much of its properties are described and studied in great detail. There is a clear picture of the atomic scale structure of the different facets and their reconstructions. Also terminations with H, O, N and other atomic species as well as the incorporation of these elements has been modelled [1,2]. The electronic structure and the negative electron affinity mechanism is elucidated and so on. In contrast, however, the atomic scale models of diamond growth are much less developed, though progress is being made [3]. In these models the reaction barriers between stable and meta-stable intermediates are being calculated, providing insights into the kinetics of the surface. However, quantum mechanical models can provide much more insights than this. In this work, we simulated the approach of radical atoms and molecules towards the H-terminated diamond 001 surface. By allowing the model to equilibrate at every step, the physics and chemistry of the approach can be followed in minute detail. It allows us to indicate at which distance the surface and radical start interacting, and what that interaction entails. The charge evolution of the radical and the surface is followed by means of Hirshfeld-I charges, providing insights into charge transfer mechanisms. [4] Throughout the approach, the interaction can be followed through different physical and chemical concepts. Different types of bonding are identified as well as H-abstraction events and covalent bonding. In this work, our focus goes to C and P based radicals, showing them to behave very differently near the surface, providing insights into the requirements for improved P incorporation.The author name needs to be updated to include the middle names: Danny E.P. Vanpoucke, and linked to the correct personel account which incorrectly is missing the author middle names

    Approaching the diamond surface: first principles modelling the physics and chemistry of approaching radicals

    No full text
    The diamond surface plays a central role in much of the diamond research, and as such much of its properties are described and studied in great detail. There is a clear picture of the atomic scale structure of the different facets and their reconstructions. Also terminations with H, O, N and other atomic species as well as the incorporation of these elements has been modelled [1,2]. The electronic structure and the negative electron affinity mechanism is elucidated and so on. In contrast, however, the atomic scale models of diamond growth are much less developed, though progress is being made [3]. In these models the reaction barriers between stable and meta-stable intermediates are being calculated, providing insights into the kinetics of the surface. However, quantum mechanical models can provide much more insights than this. In this work, we simulated the approach of radical atoms and molecules towards the H-terminated diamond 001 surface. By allowing the model to equilibrate at every step, the physics and chemistry of the approach can be followed in minute detail. It allows us to indicate at which distance the surface and radical start interacting, and what that interaction entails. The charge evolution of the radical and the surface is followed by means of Hirshfeld-I charges, providing insights into charge transfer mechanisms. [4] Throughout the approach, the interaction can be followed through different physical and chemical concepts. Different types of bonding are identified as well as H-abstraction events and covalent bonding. In this work, our focus goes to C and P based radicals, showing them to behave very differently near the surface, providing insights into the requirements for improved P incorporation.The author name needs to be updated to include the middle names: Danny E.P. Vanpoucke, and linked to the correct personel account which incorrectly is missing the author middle names

    Jere Nash Interview with Danny Cupit (Part 1 of 2)

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    Interview conducted by author Jere Nash with lawyer and former chair of the Mississippi Democratic Executive Committee Danny Cupit in the process of writing Mississippi Politics: The Struggle for Power, 1976-2006 (Part 1 of 2). Topics covered include the formation of the Young Democrats; Hodding Carter; attending the Democratic National Convention of 1968; Lawrence Guyot Jr.; precinct caucuses and the state Democratic conference; assistance from labor unions and Millie Jeffrey; Charles Evers; Billy Car and Pat Derian running for committeewoman; Robert F. Kennedy campaign in Mississippi; death of Kennedy; Hubert Humphrey; Curtis Wilkie; Legal services work for a sanitation worker\u27s union in Holly Springs, Mississippi; labor lawyer Dixon Pyles; William Winter; 1972 congressional race between Ellis Bodron, Thad Cochran, and Walter Brown; Ed Ellington campaign for the state senate; Bankers Trust law suit; Jimmy Carter campaign and unified precinct meetings; attending the Democratic National Convention in 1976; running the Carter campaign in Mississippi; George Wallace; Griffin Bell getting senators Jim Eastland and John Stennis to endorse Carter; Gerald Blessey versus Trent Lott campaign; working with Eastland on the Carter campaign; restructuring of the state Democratic Executive Committee; Eastland\u27s decision not to run for reelection; Bill Waller; senate campaign of Maurice Dantin; Tom Ridell; and the asbestos law suit

    Jere Nash Interview with Danny Cupit (Part 2 of 2)

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    Interview conducted by author Jere Nash with lawyer and former chair of the Mississippi Democratic Executive Committee Danny Cupit in the process of writing Mississippi Politics: The Struggle for Power, 1976-2006 (Part 2 of 2). Topics covered included acting as contact person for the Jimmy Carter administration for Mississippi issues and appointments; Senator James O. Eastland on judicial appointments; Farmers Home Administration appointments of Jeffrey Barbour and Mark Hazzard; planning Carter\u27s visit to Yazoo City, Mississippi in 1977; Eastland\u27s decision not to run for reelection in 1978; Bill Waller; Cliff Finch; Maurice Dantin, Charles Evers, and Thad Cochran race for Senate seat; Democratic Party in Mississippi; Wayne Dowdy versus Trent Lott campaign; John Hampton Stennis versus Jon Hinson campaign for U.S. House of Representatives; William Winter; Haley Barbour; Evelyn Gandy; Bill Allain; dispute over Democratic Party Executive Committee leadership in Mississippi; 1980 presidential race; Jon Hinson homosexuality scandal and Wayne Dowdy campaign for the U.S. House; congressional district reapportionment, litigation, and creation of the Delta district; Bill Allain homosexuality scandal; Dick Molpus; Ray Mabus; education reform during Winter\u27s administration; Winter\u27s post-gubernatorial career options; and Walter Mondale presidential campaign race

    First person – Danny Legge

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    First Person is a series of interviews with the first authors of a selection of papers published in Disease Models & Mechanisms (DMM), helping early-career researchers promote themselves alongside their papers. Danny Legge is first author on ‘BCL-3 promotes a cancer stem cell phenotype by enhancing β-catenin signalling in colorectal tumour cells’, published in DMM. Danny conducted the research described in this article while a PhD student in Professor Ann Williams's lab at Colorectal Tumour Biology Group, School of Cellular and Molecular Medicine, University of Bristol, UK. He is now a postdoc in the lab of Dr Keith Brown at Cancer Epigenetics Laboratory, School of Cellular and Molecular Medicine, University of Bristol, UK, investigating the role of cancer stem cells in colorectal cancer

    Preliminary uncertainty and sensitivity analysis of the Molten Salt Fast Reactor steady-state using a Polynomial Chaos Expansion method

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    In this work, we present the results of a preliminary uncertainty quantification and sensitivity analysis study of the Molten Salt Fast Reactor (MSFR) behavior at steady-state performed by applying a non-intrusive Polynomial Chaos Expansion (PCE) approach. An in-house high-fidelity multi-physics simulation tool is used as reactor reference model. Considering several thermal-hydraulics and neutronics parameters as stochastic inputs, with a limited number of samples we build a PCE meta-model able to reproduce he reactor response in terms of effective multiplication factor, maximum, minimum, and average salt temperatures, and complete salt temperature distribution. The probability density functions of the responses are constructed and analyzed, highlighting strengths and issues of the current MSFR design. The sensitivity study highlights the relative importance of each input parameter, thus providing useful indications for future research efforts. The analysis on the whole temperature field shows that the heat exchanger can be a critical component, so its design requires particular care.</p

    Eleven Months After Pittsburgh: What Did We Learn?

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    2019-2020 Judaic Studies Scholar in Residence… Rabbi Danny Schiff, PhD, Author, Foundation Scholar, Jewish Federation of Greater Pittsburgh.https://digitalcommons.fairfield.edu/bennettcenter-posters/1358/thumbnail.jp

    Time to re-think the divide between academic and support staff

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    Research professionals should not be split into two categories, say Marta Teperek, Maria Cruz and Danny Kingsley. [Figure not available: see fulltext.]Research Data and Softwar
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