172,576 research outputs found

    Lee, D. K C

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    George D Curtis Jr of Tampa with the Manatee Academy Marker honoring Electa Arcott Lee

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    George D. Curtis, Jr., of Tampa is the step-grandson of Rev. Edmund and Electa Arcott Lee. The Lee's only child Sarah married James C. Vanderipe, becoming his second wife. James C. Vanderipe was chairman of the board that built Manatee Academy. George D. Curtis, Jr.'s mother was the first wife, Nannie Vanderipe. Photo taken by Jack Roland, the photographer of the Manatee County Historical Society.Electa Arcott Lee, Manatee County's first schoolteacher, was born in 1807 in Vermont. She married the Presbyterian minister Rev. Edmund Lee prior to 1844 and went with him first to Maine, then to Manatee County, Florida. They opened a store in the Village of Manatee and Electa taught in the storerooms above the store. She charged pupils families 5.00perterm.Shediedin1860andisburiedinthecemeterybehindtheprivatedwellingon17thStreetEast.This1982markerwasnottheendofthecountysrespectforher.AmagnetschooldedicatedtothestudyoftheperformingartswasnamedtheElectaArcottLeeMiddleSchool.Locatedat400053rdStreetWest,itcost5.00 per term. She died in 1860 and is buried in the cemetery behind the private dwelling on 17th Street East.This 1982 marker was not the end of the county's respect for her. A magnet school dedicated to the study of the performing arts was named the Electa Arcott Lee Middle School. Located at 4000 53rd Street West, it cost 11.9 million to build and covers 134,000 square feet. It was dedicated on November 13, 2000. Great-grandaughter Mary Francis Bailey Walden was present at the school's dedication

    Stephen D. Lee Papers

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    A series of letters between S. D. Lee and C. E. Ard regarding a check to the Meridian bank and discrepancies in the fire code. June 17, 1897.https://scholarsjunction.msstate.edu/ua-msu-founders-documents/1072/thumbnail.jp

    Platypleura transitiva Lee 2021

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    3. Platypleura transitiva Lee, 2021 (Figure 6 (D)) Platypleura elizabethae: Lee 2010: 15, fig. 1A, B; Lee 2015: 546; Lee et al. 2016: 190 (nec Lee 2009b). Platypleura transitiva Lee 2021: 261–263, figs 1, 2(B) [TL: Surigao del Sur, Mindanao, Philippines]. Distribution Philippines (Mindanao).Published as part of Lee, Young June, Marshall, David C., Mohagan, Alma B., Hill, Kathy B. R. & Mohagan, Dave P., 2023, Revised checklist of Cicadidae (Insecta: Hemiptera) of Mindanao, Philippines, with descriptions of a new genus and nine new species, pp. 193-242 in Journal of Natural History 57 (1 - 4) on page 204, DOI: 10.1080/00222933.2023.2171820, http://zenodo.org/record/773726

    One-dimensional chain structure produced by Ce on vicinal Si(100)

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    One-dimensional Ce nanowires have been grown on a single-domain vicinal Si(100) surface. The growth mode, including the structural and electronic properties as a function of the substrate temperature and Cc coverage, was studied using scanning tunneling microscopy and scanning tunneling spectroscopy. The results show the formation of Cc nanowires along the step edges on the vicinal Si(100) substrate at 580 degrees C. (c) 2006 Elsevier B.V. All rights reserved.the KOSEF through the Center for Nanotubes and Nanostructured Composites, the Brain Korea 21 Project, the Advanced Backbone IT Technology Development Project of the Ministry of Information and Communication, the National R&D Project for Nanoscience and Nanotechnology. The authors acknowledge the partial financial supports provided by the Korea Science and Engineering Foundation and the Ministry of Science and Technology through the Frontier Research project

    One-dimensional chain structures produced by Ce on Si(111)

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    We used variable-temperature scanning tunneling microscopy to investigate two types of Ce-induced 5 x 2 structures reconstructed on Si(111) at coverages of 0.5 ML (low) and 3.0 ML (high) after annealing at 600 degrees C. At both Cc coverages, one-dimensional atomic chains formed upon Ce deposition on Si(111). The atomic densities of Ce in the one-dimensional chains varied with Ce deposition coverage. Based on the scanning tunneling microscopy images, we suggest two structural models of the one-dimensional Cc atomic chains. (c) 2005 Elsevier B.V. All rights reserved.the KOSEF through the Center for Nanotubes and Nanostructured Composites, the Brain Korea 21 Project, the Advanced Backbone IT Technology Development Project of the Ministry of Information and Communication, the National R&D Project for Nanoscience and Nanotechnolog

    \u27Jubilee of Progress, Stephen D. Lee, C. R. Stark, B. M. Duggar, I. D. Sessums\u27

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    \u2775 Years at Mississippi State College-Some of the people pictured are: Stephen Lee, C. R. Stark, Dr. B. M. Duggar, and Major I. D. Sessums\u27https://scholarsjunction.msstate.edu/ua-photo-collection/1558/thumbnail.jp

    Enhanced Lee model from rough terrain sampling data aspect

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    The Lee propagation prediction model has been well recognized by the wireless industry as one of the most accurate propagation prediction models. This paper discusses innovative approaches dealing with rough digital samples of terrain data and enhancements to the Lee model during the validation process. In general, the Lee model is composed of two parts, the impact of man-made structures and the impact of the natural terrain variation [1-6]. There are other papers discuss innovative algorithms on calculating effective antenna gain [7,8] and diffraction loss [7-9] as well as on enhancing the Lee model [12-14]. This paper focuses on the natural (terrain) factor. The new algorithm presented in this paper is quite different than others as it integrates both Line Of Site (LOS) and shadow loss calculation together for the Lee model. First, in the LOS scenario, it addresses the issue of big swing of effective antenna gain due to non-continuous terrain data. Second, in the non-LOS situation, the effective antenna gain is integrated with shadow loss. Both single knife edge and multiple knife edge scenarios are discussed. The new algorithm is developed based on the analysis of measured and predicted (the theoretical shadow loss and effective antenna gain) data. The new algorithm involves more calculation but it improves the accuracy of the predicted value. This algorithm was implemented and verified using field terrain and measurement data from a variety of different environments and different countries including Italy, US, Spain, Japan, South Korea, Taiwan and Romania. ?2010 IEEE.EI

    Perry, D. C., 1844- : Confederate Service Record, 1915.

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    This service record is an account of military actions during the American Civil War by veteran D. C. Perry (1844- ), dated from 1915.1 leaf ; 2 pdf pages.All descriptive lists and service records in this United Confederate (Civil War) Veterans manuscript collection believed to be based out of Robert E. Lee Camp #158 of the United Confederate Veterans (Fort Worth, Tex.). United Confederate Veterans. R.E. Lee Camp No. 158 (Fort Worth, Tex.)The Southwest Collection Manuscript Record can be accessed at the following URL: http://www.lib.utexas.edu/taro/ttusw/00119/tsw-00119.htm

    Role of step roughening in the formation of Ce silicide on Si(111)

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    We investigated the formation and diffusion process of the Ce silicide formed by the adsorption of Ce atoms (<= 1.5 ML) on Si(1 1 1) at room temperature followed by annealing at 500 degrees C using scanning tunneling microscopy and X-ray photoelectron spectroscopy. We found that Cc atoms first form a cluster with Si atoms on the terrace, and then diffuse toward the step edges whilst forming a more stable Cc silicide. The step roughening at the step edge of the Si(1 1 1) surface, which manifests as a submonolayer (0.3 ML), occurs due to the presence of Si atoms remote from this step edge, and this is regarded as the onset of the silicide formation process. At higher coverage (1.5 ML), the width of this Cc silicide step increases with annealing time at the same temperature. (c) 2005 Elsevier B.V. All rights reserved.KOSEF through the Center for Nanotubes and Nanostructured Composites, the Brain Korea 21 Project, the Advanced Backbone IT Technology Development Project of the Ministry of Information and Communication, and the National R&D Project for Nanoscience and Nanotechnolog
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