327 research outputs found

    Dynamic Simulation of Turbidity and its Correction in Lak Chicot, Arkansas, U.S.A.

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    Lake Chicot is an oxbow lake that was created more than 600 years ago by the meandering of the Mississippi River. It is located in Chicot County in southeastern Arkansas adjacent to the present Mississippi River (Fig. 1). As the largest natural lake in Arkansas, it earned an early reputation for its good fishing and recreational value.Agricultural Research Service, U.S.D.A. U.S. Army Corps of Engineers, Vicksburg DistrictStefan, Heinz G.; Dhamotharan, S.; Schiebe, Frank R,; Fu, A. Y.; Cardoni, John J.. (1989). Dynamic Simulation of Turbidity and its Correction in Lak Chicot, Arkansas, U.S.A.. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/114132

    Search for supersymmetry with a dominant R-parity violating LQD̄ coupling in e+e- collisions at centre-of-mass energies of 130 GeV to 172 GeV

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    complete author list: Barate R.; Buskulic D.; Decamp D.; Ghez P.; Goy C.; Jezequel S.; Lees J.; Lucotte A.; Martin F.; Merle E.; Minard M.; Nief J.; Perrodo P.; Pietrzyk B.; Alemany R.; Casado M.; Chmeissani M.; Crespo J.; Delfino M.; Fernandez E.; Fernandez-Bosman M.; Garrido L.; Graugès E.; Juste A.; Martinez M.; Merino G.; Miqnel R.; Mir L.; Morawitz P.; Pacheco A.; Park I.; Pascual A.; Riu I.; Sanchez F.; Colaleo A.; Creanza D.; De Palma M.; Gelao G.; Iaselli G.; Maggi G.; Maggi M.; Nuzzo S.; Ranieri A.; Raso G.; Ruggieri F.; Selvaggi G.; Silvestris L.; Tempesta P.; Tricomi A.; Zito G.; Huang X.; Lin J.; Quyang Q.; Wang T.; Xie Y.; Xu R.; Xue S.; Zhang J.; Zhang L.; Zhao W.; Abbaneo D.; Becker U.; Boix G.; Cattaneo M.; Cerutti F.; Ciulli V.; Dissertori G.; Drevermann H.; Forty R.; Frank M.; Gianotti F.; Hagelberg R.; Halley A.; Hansen J.; Harvey J.; Janot P.; Jost B.; Lehraus I.; Leroy O.; Loomis C.; Maley P.; Mato P.; Minten A.; Moneta L.; Moutoussi A.; Ranjard F.; Rolandi L.; Rousseau D.; Schlatter D.; Schmitt M.; Schneider O.; Tejessy W.; Teubert F.; Tomalin I.; Tournefier E.; Vreeswijk M.; Wachsmuth H.; Ajaltouni Z.; Badaud F.; Chazelle G.; Deschamps O.; Dessagne S.; Falvard A.; Ferdi C.; Gay P.; Guicheney C.; Henrard P.; Jousset J.; Michel B.; Monteil S.; Montret J.; Pallin D.; Perret P.; Podlyski F.; Hansen J.; Hansen J.; Hansen P.; Nilsson B.; Rensch B.; Wäänänen A.; Daskalakis G.; Kyriakis A.; Markou C.; Simopoulou E.; Vayaki A.; Blondel A.; Brient J.; Machefert F.; Rougé A.; Rumpf M.; Tanaka R.; Valassi A.; Videau H.; Focardi E.; Parrini G.; Zachariadou K.; Cavanaugh R.; Corden M.; Georgiopoulos C.; Huehn T.; Jaffe D.; Antonelli A.; Bencivenni G.; Bologna G.; Bossi F.; Campana P.; Capon G.; Chiarella V.; Laurelli P.; Mannocchi G.; Murtas F.; Murtas G.; Passalacqua L.; Pepe-Altarelli M.; Chalmers M.; Curtis L.; Lynch J.; Negus P.; O'Shea V.; Raine C.; Scarr J.; Teixeira-Dias P.; Thompson A.; Thomson E.; Ward J.; Buchmüller O.; Dhamotharan S.; Geweniger C.; Hanke P.; Hansper G.; Hepp V.; Kluge E.; Putzer A.; Sommer J.; Tittel K.; Werner S.; Wunsch M.; Beuselinck R.; Binnie D.; Cameron W.; Dornan P.; Girone M.; Goodsir S.; Marinelli N.; Martin E.; Nash J.; Sedgbeer J.; Spagnolo P.; Williams M.; Ghete V.; Girtler P.; Kneringer E.; Kuhn D.; Rudolph G.; Betteridge A.; Bowdery C.; Buck P.; Colrain P.; Crawford G.; Ellis G.; Finch A.; Foster F.; Hughes G.; Jones R.; Robertson N.; Williams M.; van Gemmeren P.; Giehl I.; Hoffmann C.; Jakobs K.; Kleinknecht K.; Kröcker M.; Nürnberger H.; Quast G.; Renk B.; Rohne E.; Sander H.; Schmeling S.; Zeitnitz C.; Ziegler T.; Aubert J.; Benchouk C.; Bonissent A.; Carr J.; Coyle P.; Ealet A.; Fouchez D.; Motsch F.; Payre P.; Talby M.; Thulasidas M.; Tilquin A.; Aleppo M.; Antonelli M.; Ragusa F.; Berlich R.; Büscher V.; Dietl H.; Ganis G.; Hüttmann K.; Lütjens G.; Mannert C.; Männer W.; Moser H.; Schael S.; Settles R.; Seywerd H.; Stenzel H.; Wiedenmann W.; Wolf G.; Boucrot J.; Callot O.; Chen S.; Davier M.; Duflot L.; Grivaz J.; Heusse P.; H¨ocker A.; Jacholkowska A.; Kado M.; Kim D.; Le Diberder F.; Lefrançois J.; Serin L.; Veillet J.; Videau I.; de Vivie de Régie J.; Zerwas D.; Azzurri P.; Bagliesi G.; Bettarini S.; Boccali T.; Bozzi C.; Calderini G.; Dell'Orso R.; Fantechi R.; Ferrante I.; Giassi A.; Gregorio A.; Ligabue F.; Lusiani A.; Marrocchesi P.; Messineo A.; Palla F.; Rizzo G.; Sanguinetti G.; Sciab`a A.; Sguazzoni G.; Tenchini R.; Vannini C.; Venturi A.; Verdini P.; Blair G.; Chambers J.; Coles J.; Cowan G.; Green M.; Medcalf T.; Strong J.; von Wimmersperg-Toeller J.; Botterill D.; Clifft R.; Edgecock T.; Norton P.; Thompson J.; Wright A.; Bloch-Devaux B.; Colas P.; Fabbro B.; Faif G.; Lançon E.; Lemaire M.; Locci E.; Perez P.; Przysiezniak H.; Rander J.; Renardy J.; Rosowsky A.; Trabelsi A.; Tuchming B.; Vallage B.; Black S.; Dann J.; Kim H.; Konstantinidis N.; Litke A.; McNeil M.; Taylor G.; Booth C.; Cartwright S.; Combley F.; Kelly M.; Lehto M.; Thompson L.; Affholderbach K.; Böohrer A.; Brandt S.; Foss J.; Grupen C.; Prange G.; Smolik L.; Stephan F.; Giannini G.; Gobbo B.; Putz J.; Rothberg J.; Wasserbaech S.; Williams R.; Armstrong S.; Charles E.; Elmer P.; Ferguson D.; Gao Y.; González S.; Greening T.; Hayes O.; Hu H.; Jin S.; McNamara P.; Nachtman J.; Nielsen J.; Orejudos W.; Pan Y.; Saadi Y.; Scott I.; Walsh J.; Wu S.; Wu X.; Zobernig G.; Barate R.; Buskulic D.; Zobernig G.; Pan Y.; Saadi Y.; Nielsen J.; Orejudos W.; Wu S.; Wu X.; Scott I.; Walsh J.; Hayes O.; Greening T.; González S.; Gao Y.; Nachtman J.; McNamara P.; Jin S.; Hu H.; Ferguson D.; Elmer P.; Charles E.; Barate R.</p

    Search for supersymmetry with a dominant R-parity violating LLĒ coupling in e+e- collisions at centre-of-mass energies of 130 GeV to 172 GeV

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    complete author list: Barate R.; Buskulic D.; Decamp D.; Ghez P.; Goy C.; Lees J.; Lucotte A.; Minard M.; Nief J.; Pietrzyk B.; Boix G.; Casado M.; Chmeissani M.; Crespo J.; Delfino M.; Fernandez E.; Fernandez-Bosman M.; Garrido L.; Grauges E.; Juste A.; Martinez M.; Merino G.; Miquel R.; Mir L.; Morawitz P.; Park I.; Pascual A.; Perlas J.; Riu I.; Sanchez F.; Colaleo A.; Creanza D.; de Palma M.; Gelao G.; Iaselli G.; Maggi G.; Maggi M.; Marinelli N.; Nuzzo S.; Ranieri A.; Raso G.; Ruggieri F.; Selvaggi G.; Silvestris L.; Tempesta P.; Tricomi A.; Zito G.; Huang X.; Lin J.; Ouyang Q.; Wang T.; Xie Y.; Xu R.; Xue S.; Zhang J.; Zhang L.; Zhao W.; Abbaneo D.; Alemany R.; Becker U.; Bright-Thomas P.; Casper D.; Cattaneo M.; Cerutti F.; Ciulli V.; Dissertori G.; Drevermann H.; Forty R.; Frank M.; Gianotti F.; Hagelberg R.; Hansen J.; Harvey J.; Janot P.; Jost B.; Lehraus I.; Mato P.; Minten A.; Moneta L.; Pacheco A.; Pusztaszeri J.; Ranjard F.; Rolandi L.; Rousseau D.; Schlatter D.; Schmitt M.; Schneider O.; Tejessy W.; Teubert F.; Tomalin I.; Vreeswijk M.; Wachsmuth H.; Wagner A.; Ajaltouni Z.; Badaud F.; Chazelle G.; Deschamps O.; Falvard A.; Ferdi C.; Gay P.; Guicheney C.; Henrard P.; Jousset J.; Michel B.; Monteil S.; Montret J.; Pallin D.; Perret P.; Podlyski F.; Proriol J.; Rosnet P.; Fearnley T.; Hansen J.; Hansen J.; Hansen P.; Nilsson B.; Rensch B.; Wäänänen A.; Daskalakis G.; Kyriakis A.; Markou C.; Simopoulou E.; Vayaki A.; Blondel A.; Brient J.; Machefert F.; Rouge A.; Rumpf M.; Valassi A.; Videau H.; Boccali T.; Focardi E.; Parrini G.; Zachariadou K.; Cavanaugh R.; Corden M.; Georgiopoulos C.; Huehn T.; Jaffe D.; Antonelli A.; Bencivenni G.; Bologna G.; Bossi F.; Campana P.; Capon G.; Chiarella V.; Felici G.; Laurelli P.; Mannocchi G.; Murtas F.; Murtas G.; Passalacqua L.; Pepe-Altarelli M.; Curtis L.; Dorris S.; Halley A.; Lynch J.; Negus P.; O'Shea V.; Raine C.; Scarr J.; Smith K.; Teixeira-Dias P.; Thompson A.; Thomson E.; Thomson F.; Ward J.; Buchmäller O.; Dhamotharan S.; Geweniger C.; Graefe G.; Hanke P.; Hansper G.; Hepp V.; Kluge E.; Putzer A.; Sommer J.; Tittel K.; Werner S.; Wunsch M.; Beuselinck R.; Binnie D.; Cameron W.; Dornan P.; Girone M.; Goodsir S.; Martin E.; Moutoussi A.; Nash J.; Sedgbeer J.; Spagnolo P.; Williams M.; Ghete V.; Girtler P.; Kneringer E.; Kuhn D.; Rudolph G.; Betteridge A.; Bowdery C.; Buck P.; Colrain P.; Crawford G.; Finch A.; Foster F.; Hughes G.; Jones R.; Whelan E.; Williams M.; Giehl I.; Hoffmann C.; Jakobs K.; Kleinknecht K.; Quast G.; Renk B.; Rohne E.; Sander H.; van Gemmeren P.; Zeitnitz C.; Aubert J.; Benchouk C.; Bonissent A.; Bujosa G.; Carr J.; Coyle P.; Diaconu C.; Ealet A.; Fouchez D.; Leroy O.; Motsch F.; Payre P.; Talby M.; Sadouki A.; Thulasidas M.; Tilquin A.; Trabelsi K.; Aleppo M.; Antonelli M.; Ragusa F.; Berlich R.; Blum W.; Büscher V.; Dietl H.; Ganis G.; Gotzhein C.; Kroha H.; Lutjens G.; Lutz G.; Mannert C.; Manner W.; Moser H.; Richter R.; Rosado-Schlosser A.; Schael S.; Settles R.; Seywerd H.; Stenzel H.; Wiedenmann W.; Wolf G.; Boucrot J.; Callot O.; Chen S.; Davier M.; Duflot L.; Grivaz J.; Heusse P.; Hücker A.; Jacholkowska A.; Kado M.; Kim D.; Le Diberder F.; Lefrancois J.; Lutz A.; Schune M.; Serin L.; Tournefier E.; Veillet J.; Videau I.; Zerwas D.; Azzurri P.; Bagliesi G.; Bettarini S.; Bozzi C.; Calderini G.; Dell'Orso R.; Fantechi R.; Ferrante I.; Giassi A.; Gregorio A.; Ligabue F.; Lusiani A.; Marrocchesi P.; Messineo A.; Palla F.; Rizzo G.; Sanguinetti G.; Sciabà A.; Sguazzoni G.; Steinberger J.; Tenchini R.; Vannini C.; Venturi A.; Verdini P.; Blair G.; Bryant L.; Chambers J.; Coles J.; Green M.; Medcalf T.; Perrodo P.; Strong J.; von Wimmersperg-Toeller J.; Botterill D.; Clifft R.; Edgecock T.; Haywood S.; Maley P.; Norton P.; Thompson J.; Wright A.; Bloch-Devaux B.; Colas P.; Fabbro B.; Faif G.; Lançon E.; Lemaire M.; Locci E.; Perez P.; Przysiezniak H.; Rander J.; Renardy J.; Rosowsky A.; Roussarie A.; Trabelsi A.; Vallage B.; Black S.; Dann J.; Kim H.; Konstantinidis N.; Litke A.; McNeil M.; Taylor G.; Booth C.; Brew C.; Cartwright S.; Combley F.; Kelly M.; Lehto M.; Reeve J.; Thompson L.; Affholderbach K.; Böhrer A.; Brandt S.; Cowan G.; Foss J.; Grupen C.; Smolik L.; Stephan F.; Apollonio M.; Bosisio L.; della Marina R.; Giannini G.; Gobbo B.; Musolino G.; Putz J.; Rothberg J.; Wasserbaech S.; Williams R.; Armstrong S.; Charles E.; Elmer P.; Ferguson D.; Gao Y.; Gonzalez S.; Greening T.; Hayes O.; Hu H.; Jin S.; McNamara P.; Nachtman J.; Nielsen J.; Orejudos W.; Pan Y.; Saadi Y.; Scott I.; Walsh J.; Sau Lan W.; Wu X.; Yamartino J.; Zobernig G.; Scott I.; Saadi Y.; Sau Lan W.; Walsh J.; Yamartino J.; Wu X.; Zobernig G.; Pan Y.; Barate R.</p

    Mining voices from self-expressed messages on social-media: Diagnostics of mental distress during COVID-19.

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    This is the author accepted manuscript. The final version is available from Elsevier via the DOI in this recordThe COVID-19 pandemic has had a severe impact on mankind, causing physical suffering and deaths across the globe. Even those who have not contracted the virus have experienced its far-reaching impacts, particularly on their mental health. The increased incidences of psychological problems, anxiety associated with the infection, social restrictions, economic downturn, etc., are likely to aggravate with the virus spread and leave a longer impact on humankind. These reasons in aggregation have raised concerns on mental health and created a need to identify novel precursors of depression and suicidal tendencies during COVID-19. Identifying factors affecting mental health and causing suicidal ideation is of paramount importance for timely intervention and suicide prevention. This study, thus, bridges this gap by utilizing computational intelligence and Natural Language Processing (NLP) to unveil the factors underlying mental health issues. We observed that the pandemic and subsequent lockdown anxiety emerged as significant factors leading to poor mental health outcomes after the onset of COVID-19. Consistent with previous works, we found that psychological disorders have remained pre-eminent. Interestingly, financial burden was found to cause suicidal ideation before the pandemic, while it led to higher odds of depressive (non-suicidal) thoughts for individuals who lost their jobs. This study offers significant implications for health policy makers, governments, psychiatric practitioners, and psychologists

    First Insights into the Genome of the Amino Acid-Metabolizing Bacterium Clostridium litorale DSM 5388.

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    Clostridium litorale is a Gram-positive, rod-shaped, and spore-forming bacterium, which is able to use amino acids such as glycine, sarcosine, proline, and betaine as single carbon and energy sources via Stickland reactions. The genome consists of a circular chromosome (3.41 Mb) and a circular plasmid (27 kb)

    STUDIES ON PHYTOCHEMICAL SCREENING, TANNINS CONTENT AND ANTIBACTERIAL ACTIVITY FROM LEAF AND CALLUS EXTRACTS OF MEMECYLON UMBELLATUM.

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    Objective: This study aims to determine the phytochemical screening, tannins content, and antibacterial activity from leaf and callus extracts of Memecylon umbellatum.Methods: Preliminary screening involved the qualitative methods to detect the presence of terpenoids, flavonoids, phenols, tannins, steroids, quinones, saponins, cardiac glycosides, and alkaloids. Total tannins contents were quantitatively estimated with tannic acid as standard. Different concentrations of ethanolic leaf and callus extracts were tested using the agar disc diffusion technique for the antibacterial activity against Bacillus subtilis, Bacillus cereus, Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli.Results: The phytochemical analysis of leaf and callus extract of M. umbellatum revealed the presence of significant secondary metabolites such as tannins, saponins, quinones, cardiac glycosides, phenols, flavonoids, terpenoids, steroids, and alkaloids. The total tannins content in callus and leaf extract were found to be 11.37 mg tannic acid equivalents (TAE)/g and 7.1 mg TAE/g, respectively. The antibacterial activity of ethanolic leaf and callus extracts of M. umbellatum shown more active against B. subtilis. Both the callus and leaf extract of M. umbellatum was found to be inactiveagainst E. coli.Conclusion: It was concluded that the powerful antibacterial effect is attributed to the greater amount of tannin compounds in the ethanolic callus extracts of M. umbellatum.Â

    International Journal of Pharma and Bio Sciences RESEARCH ARTICLE BIOTECHNOLOGY ISOLATION, IDENTIFICATION OF BROMOPHENOL COMPOUND AND ANTIBACTERIAL ACTIVITY OF KAPPAPHYCUS sp

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    Extraction, isolation and partial purification of bromophenol compound in Kappaphycus sp. was carried out using TLC method. Antibacterial studies for specific bromophenol compound by disc diffusion method were conducted. Identification of a purified component was carried out by NMR technique. FTIRS and mass spectroscopy for elucidation of molecular structure of specific bromophenolic compound were done. From TLC studies, various bands were observed under UV light possessing the maximum value of RF 0.83 corresponding to RF1 band. The band was taken out and tested for antibacterial activity and detection of specific compound. Antimicrobial studies were carried out against various pathogens, Pseudomonas fluorescence, Staphylococcus aerus, Vibrio cholera, Proteus mirabilis and it was observed that the zone of inhibition for specific compound isolated from TLC was very prominent in case of Pseudomonas fluorescence and Staphylococcus aerus. C 13 –NMR spectrum of Bromophenol derivative in CdCl3 showed eight Carbon signals. In mass spectrum analysis of Bromophenol compound, the compound was found to contain two Br atoms from the molecular ion peak at m/z 349.1676 and was analyzed for chemical formula C11 H9 O3 Br2. Based on the above characterization the compound was confirmed as

    STUDIES ON PHYTOCHEMICAL SCREENING, TANNINS CONTENT AND ANTIBACTERIAL ACTIVITY FROM LEAF AND CALLUS EXTRACTS OF MEMECYLON UMBELLATUM.

    No full text
    Objective: This study aims to determine the phytochemical screening, tannins content, and antibacterial activity from leaf and callus extracts of Memecylon umbellatum.Methods: Preliminary screening involved the qualitative methods to detect the presence of terpenoids, flavonoids, phenols, tannins, steroids, quinones, saponins, cardiac glycosides, and alkaloids. Total tannins contents were quantitatively estimated with tannic acid as standard. Different concentrations of ethanolic leaf and callus extracts were tested using the agar disc diffusion technique for the antibacterial activity against Bacillus subtilis, Bacillus cereus, Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli.Results: The phytochemical analysis of leaf and callus extract of M. umbellatum revealed the presence of significant secondary metabolites such as tannins, saponins, quinones, cardiac glycosides, phenols, flavonoids, terpenoids, steroids, and alkaloids. The total tannins content in callus and leaf extract were found to be 11.37 mg tannic acid equivalents (TAE)/g and 7.1 mg TAE/g, respectively. The antibacterial activity of ethanolic leaf and callus extracts of M. umbellatum shown more active against B. subtilis. Both the callus and leaf extract of M. umbellatum was found to be inactiveagainst E. coli.Conclusion: It was concluded that the powerful antibacterial effect is attributed to the greater amount of tannin compounds in the ethanolic callus extracts of M. umbellatum.Keywords: Memecylon umbellatum, Callus extract, Tannins, Phytochemical analysis, Disc diffusion, Antibacterial activity.</jats:p

    Searches for charginos and neutralinos in e+e- collisions at √s = 161 and 172 GeV

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    complete author list: Barate R.; Buskulic D.; de Camp D.; Ghez P.; Goy C.; Lees J.; Lucotte A.; Minard M.; Nief J.; Pietrzyk B.; Casado M.; Chmeissani M.; Comas P.; Crespo J.; Delfino M.; Fernandez E.; Fernandez-Bosman M.; Garrido L.; Juste A.; Martinez M.; Merino G.; Miquel R.; Mir L.; Padilla C.; Park I.; Pascual A.; Perlas J.; Riu I.; Sanchez F.; Colaleo A.; Creanza D.; de Palma M.; Gelao G.; Iaselli G.; Maggi G.; Maggi M.; Marinelli N.; Nuzzo S.; Ranieri A.; Raso G.; Ruggieri F.; Selvaggi G.; Silvestris L.; Tempesta P.; Tricomi A.; Zito G.; Huang X.; Lin J.; Ouyang Q.; Wang T.; Xie Y.; Xu R.; Xue S.; Zhang J.; Zhang L.; Zhao W.; Abbaneo D.; Alemany R.; Bazarko A.; Becker U.; Bright-Thomas P.; Cattaneo M.; Cerutti F.; Dissertori G.; Drevermann H.; Forty R.; Frank M.; Gianotti F.; Hagelberg R.; Hansen J.; Harvey J.; Janot P.; Jost B.; Kneringer E.; Lehraus I.; Mato P.; Minten A.; Moneta L.; Pacheco A.; Pusztaszeri J.; Ranjard F.; Rizzo G.; Rolandi L.; Rousseau D.; Schlatter D.; Schmitt M.; Schneider O.; Tejessy W.; Teubert F.; Tomalin I.; Wachsmuth H.; Wagner A.; Ajaltouni Z.; Barres A.; Boyer C.; Falvard A.; Ferdi C.; Gay P.; Guicheney C.; Henrard P.; Jousset J.; Michel B.; Monteil S.; Montret J.; Pallin D.; Perret P.; Podlyski F.; Proriol J.; Rosnet P.; Rossignol J.; Fearnley T.; Hansen J.; Hansen J.; Hansen P.; Nilsson B.; Rensch B.; Wäänänen A.; Daskalakis G.; Kyriakis A.; Markou C.; Simopoulou E.; Vayaki A.; Blondel A.; Brient J.; Machefert F.; Rouge A.; Rumpf M.; Valassi A.; Videau H.; Boccali T.; Focardi E.; Parrini G.; Zachariadou K.; Cavanaugh R.; Corden M.; Georgiopoulos C.; Huehn T.; Jaffe D.; Antonelli A.; Bencivenni G.; Bologna G.; Bossi F.; Campana P.; Capon G.; Casper D.; Chiarella V.; Felici G.; Laurelli P.; Mannocchi G.; Murtas F.; Murtas G.; Passalacqua L.; Pepe-Altarelli M.; Curtis L.; Dorris S.; Halley A.; Knowles I.; Lynch J.; O'Shea V.; Raine C.; Scarr J.; Smith K.; Teixeira-Dias P.; Thompson A.; Thomson E.; Thomson F.; Turnbull R.; Buchmäller O.; Dhamotharan S.; Geweniger C.; Graefe G.; Hanke P.; Hansper G.; Hepp V.; Kluge E.; Putzer A.; Sommer J.; Tittel K.; Werner S.; Wunsch M.; Beuselinck R.; Binnie D.; Cameron W.; Dornan P.; Girone M.; Goodsir S.; Martin E.; Morawitz P.; Moutoussi A.; Nash J.; Sedgbeer J.; Spagnolo P.; Stacey A.; Williams M.; Ghete V.; Girtler P.; Kuhn D.; Rudolph G.; Betteridge A.; Bowdery C.; Buck P.; Colrain P.; Crawford G.; Finch A.; Foster F.; Hughes G.; Jones R.; Sloan T.; Whelan E.; Williams M.; Giehl I.; Hoffmann C.; Jakobs K.; Kleinknecht K.; Quast G.; Renk B.; Rohne E.; Sander H.; van Gemmeren P.; Zeitnitz C.; Aubert J.; Benchouk C.; Bonissent A.; Bujosa G.; Carr J.; Coyle P.; Diaconu C.; Ealet A.; Fouchez D.; Konstantinidis N.; Leroy O.; Motsch F.; Payre P.; Talby M.; Sadouki A.; Thulasidas M.; Tilquin A.; Trabelsi K.; Aleppo M.; Antonelli M.; Ragusa F.; Berlich R.; Blum W.; Bäscher V.; Dietl H.; Ganis G.; Gotzhein C.; Kroha H.; Lutjens G.; Lutz G.; Männer W.; Moser H.; Richter R.; Rosado-Schlosser A.; Schael S.; Settles R.; Seywerd H.; Denis R.; Stenzel H.; Wiedenmann W.; Wolf G.; Boucrot J.; Callot O.; Chen S.; Davier M.; Duflot L.; Grivaz J.; Heusse P.; Häcker A.; Jacholkowska A.; Kim D.; Le Diberder F.; Lefrançois J.; Lutz A.; Kado M.; Schune M.; Serin L.; Tournefier E.; Veillet J.; Videau I.; Zerwas D.; Azzurri P.; Bagliesi G.; Bettarini S.; Bozzi C.; Calderini G.; Ciulli V.; Dell'Orso R.; Fantechi R.; Ferrante I.; Giassi A.; Gregorio A.; Ligabue F.; Lusiani A.; Marrocchesi P.; Messineo A.; Palla F.; Sanguinetti G.; Sciabà A.; Sguazzoni G.; Steinberger J.; Tenchini R.; Vannini C.; Venturi A.; Verdini P.; Blair G.; Bryant L.; Chambers J.; Green M.; Medcalf T.; Perrodo P.; Strong J.; von Wimmersperg-Toeller J.; Botterill D.; Clifft R.; Edgecock T.; Haywood S.; Maley P.; Norton P.; Thompson J.; Wright A.; Bloch-Devaux B.; Colas P.; Fabbro B.; Lancon E.; Lemaire M.; Locci E.; Perez P.; Rander J.; Renardy J.; Rosowsky A.; Roussarie A.; Schwindling J.; Trabelsi A.; Vallage B.; Black S.; Dann J.; Kim H.; Litke A.; McNeil M.; Taylor G.; Booth C.; Brew C.; Cartwright S.; Combley F.; Kelly M.; Lehto M.; Reeve J.; Thompson L.; Affholderbach K.; Bährer A.; Brandt S.; Cowan G.; Foss J.; Grupen C.; Smolik L.; Stephan F.; Apollonio M.; Bosisio L.; della Marina R.; Giannini G.; Gobbo B.; Musolino G.; Putz J.; Rothberg J.; Wasserbaech S.; Williams R.; Armstrong S.; Charles E.; Elmer P.; Ferguson D.; Gao Y.; Gonzalez S.; Greening T.; Hayes O.; Hu H.; Jin S.; McNamara P.; Nachtman J.; Nielsen J.; Orejudos W.; Pan Y.; Saadi Y.; Scott I.; Walsh J.; Sau Lan W.; Wu X.; Yamartino J.; Zobernig G.; Barate R.; Buskulic D.; Zobernig G.; Pan Y.; Orejudos W.; Scott I.; Saadi Y.; Sau Lan W.; Walsh J.; Yamartino J.; Wu X.; Nielsen J.; Barate R.</p
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