TY - INPR
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A1 - Actis, M.
A1 - Aghajani, T.
A1 - Agnetta, G.
A1 - Aguilar, J.
A1 - Aharonian, Felix A.
A1 - Ajello, M.
A1 - Akhperjanian, A. G.
A1 - Alcubierre, M.
A1 - Aleksic, J.
A1 - Alfaro, R.
A1 - Aliu, E.
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A1 - Allan, D.
A1 - Allekotte, I.
A1 - Amato, E.
A1 - Anderson, J.
A1 - Angüner, Ekrem Oǧuzhan
A1 - Antonelli, L. A.
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A1 - Ashton, T.
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A1 - Awane, Y.
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A1 - Barnacka, Anna
A1 - Barnstedt, Jürgen
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A1 - Basso, S.
A1 - Bastieri, D.
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A1 - Baushev, Anton N.
A1 - Becerra Gonzalez, J.
A1 - Becherini, Yvonne
A1 - Bechtol, K. C.
A1 - Tjus, J. Becker
A1 - Beckmann, Volker
A1 - Bednarek, W.
A1 - Behera, B.
A1 - Belluso, M.
A1 - Benbow, W.
A1 - Berdugo, J.
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A1 - Bernardino, T.
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A1 - Birsin, E.
A1 - Bissaldi, E.
A1 - Biteau, Jonathan
A1 - Bitossi, M.
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A1 - Blanch Bigas, O.
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A1 - Bobkov, A. A.
A1 - Boccone, V.
A1 - Boettcher, Markus
A1 - Bogacz, L.
A1 - Bogart, J.
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A1 - Boisson, Catherine
A1 - Boix Gargallo, J.
A1 - Bolmont, J.
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A1 - Bonifacio, P.
A1 - Bonnoli, G.
A1 - Bordas, Pol
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A1 - Borkowski, Janett
A1 - Bose, R.
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A1 - Bottani, A.
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A1 - Braun, I.
A1 - Bretz, T.
A1 - Briggs, M. S.
A1 - Bringmann, T.
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A1 - Brun, Pierre
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A1 - Bugaev, V.
A1 - Bulgarelli, A.
A1 - Bulik, Tomasz
A1 - Busetto, G.
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A1 - Cailles, M.
A1 - Cameron, R. A.
A1 - Camprecios, J.
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A1 - Carmona, E.
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A1 - Carr, John
A1 - Carton, P. H.
A1 - Casanova, Sabrina
A1 - Casiraghi, M.
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A1 - Conforti, V.
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A1 - Cossio, L.
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A1 - De La Vega, G. A.
A1 - Lopez, R. de los Reyes
A1 - De Lotto, B.
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A1 - de Naurois, M.
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A1 - Delgado, C.
A1 - Della Volpe, D.
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A1 - Diaz, C.
A1 - Dick, J.
A1 - Dickherber, R.
A1 - Dickinson, H.
A1 - Diez-Blanco, V.
A1 - Digel, S.
A1 - Dimitrov, D.
A1 - Disset, G.
A1 - Djannati-Ataï, A.
A1 - Doert, M.
A1 - Dohmke, M.
A1 - Domainko, W.
A1 - Prester, Dijana Dominis
A1 - Donat, A.
A1 - Dorner, D.
A1 - Doro, M.
A1 - Dournaux, J-L.
A1 - Drake, G.
A1 - Dravins, D.
A1 - Drury, L.
A1 - Dubois, F.
A1 - Dubois, R.
A1 - Dubus, G.
A1 - Dufour, C.
A1 - Dumas, D.
A1 - Dumm, J.
A1 - Durand, D.
A1 - Dyks, J.
A1 - Dyrda, M.
A1 - Ebr, J.
A1 - Edy, E.
A1 - Egberts, Kathrin
A1 - Eger, P.
A1 - Einecke, S.
A1 - Eleftheriadis, C.
A1 - Elles, S.
A1 - Emmanoulopoulos, D.
A1 - Engelhaupt, D.
A1 - Enomoto, R.
A1 - Ernenwein, J-P
A1 - Errando, M.
A1 - Etchegoyen, A.
A1 - Evans, P.
A1 - Falcone, A.
A1 - Fantinel, D.
A1 - Farakos, K.
A1 - Farnier, C.
A1 - Fasola, G.
A1 - Favill, B.
A1 - Fede, E.
A1 - Federici, S.
A1 - Fegan, S.
A1 - Feinstein, F.
A1 - Ferenc, D.
A1 - Ferrando, P.
A1 - Fesquet, M.
A1 - Fiasson, A.
A1 - Fillin-Martino, E.
A1 - Fink, D.
A1 - Finley, C.
A1 - Finley, J. P.
A1 - Fiorini, M.
A1 - Firpo Curcoll, R.
A1 - Flores, H.
A1 - Florin, D.
A1 - Focke, W.
A1 - Foehr, C.
A1 - Fokitis, E.
A1 - Font, L.
A1 - Fontaine, G.
A1 - Fornasa, M.
A1 - Foerster, A.
A1 - Fortson, L.
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A1 - Franckowiak, A.
A1 - Fransson, C.
A1 - Fraser, G.
A1 - Frei, R.
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A1 - Fresnillo, L.
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A1 - Fujita, Y.
A1 - Fukazawa, Y.
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A1 - Funk, S.
A1 - Gaebele, W.
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A1 - Gabriele, R.
A1 - Gadola, A.
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A1 - Gamez-Garcia, J.
A1 - Garcia, B.
A1 - Garcia Lopez, R.
A1 - Gardiol, D.
A1 - Garrido, D.
A1 - Garrido, L.
A1 - Gascon, D.
A1 - Gaug, M.
A1 - Gaweda, J.
A1 - Gebremedhin, L.
A1 - Geffroy, N.
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A1 - Ghigo, M.
A1 - Giannakaki, E.
A1 - Gianotti, F.
A1 - Giarrusso, S.
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A1 - Giebels, B.
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A1 - Glanzman, T.
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A1 - Gonzalez, F.
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A1 - Sakonaka, R.
A1 - Salini, A.
A1 - Sanchez, F.
A1 - Sanchez-Conde, M.
A1 - Sandoval, A.
A1 - Sandaker, H.
A1 - Sant'Ambrogio, E.
A1 - Santangelo, Andrea
A1 - Santos, E. M.
A1 - Sanuy, A.
A1 - Sapozhnikov, L.
A1 - Sarkar, S.
A1 - Sartore, N.
A1 - Sasaki, H.
A1 - Satalecka, K.
A1 - Sawada, M.
A1 - Scalzotto, V.
A1 - Scapin, V.
A1 - Scarcioffolo, M.
A1 - Schafer, J.
A1 - Schanz, T.
A1 - Schlenstedt, S.
A1 - Schlickeiser, R.
A1 - Schmidt, T.
A1 - Schmoll, J.
A1 - Schovanek, P.
A1 - Schroedter, M.
A1 - Schultz, C.
A1 - Schultze, J.
A1 - Schulz, A.
A1 - Schure, K.
A1 - Schwab, T.
A1 - Schwanke, U.
A1 - Schwarz, J.
A1 - Schwarzburg, S.
A1 - Schweizer, T.
A1 - Schwemmer, S.
A1 - Segreto, A.
A1 - Seiradakis, J. -H.
A1 - Sembroski, G. H.
A1 - Seweryn, K.
A1 - Sharma, M.
A1 - Shayduk, M.
A1 - Shellard, R. C.
A1 - Shi, J.
A1 - Shibata, T.
A1 - Shibuya, A.
A1 - Shum, E.
A1 - Sidoli, L.
A1 - Sidz, M.
A1 - Sieiro, J.
A1 - Sikora, M.
A1 - Silk, J.
A1 - Sillanpaa, A.
A1 - Singh, B. B.
A1 - Sitarek, J.
A1 - Skole, C.
A1 - Smareglia, R.
A1 - Smith, A.
A1 - Smith, D.
A1 - Smith, J.
A1 - Smith, N.
A1 - Sobczynska, D.
A1 - Sol, H.
A1 - Sottile, G.
A1 - Sowinski, M.
A1 - Spanier, F.
A1 - Spiga, D.
A1 - Spyrou, S.
A1 - Stamatescu, V.
A1 - Stamerra, A.
A1 - Starling, R.
A1 - Stawarz, L.
A1 - Steenkamp, R.
A1 - Stegmann, Christian
A1 - Steiner, S.
A1 - Stergioulas, N.
A1 - Sternberger, R.
A1 - Sterzel, M.
A1 - Stinzing, F.
A1 - Stodulski, M.
A1 - Straumann, U.
A1 - Strazzeri, E.
A1 - Stringhetti, L.
A1 - Suarez, A.
A1 - Suchenek, M.
A1 - Sugawara, R.
A1 - Sulanke, K. -H.
A1 - Sun, S.
A1 - Supanitsky, A. D.
A1 - Suric, T.
A1 - Sutcliffe, P.
A1 - Sykes, J.
A1 - Szanecki, M.
A1 - Szepieniec, T.
A1 - Szostek, A.
A1 - Tagliaferri, G.
A1 - Tajima, H.
A1 - Takahashi, H.
A1 - Takahashi, K.
A1 - Takalo, L.
A1 - Takami, H.
A1 - Talbot, C.
A1 - Tammi, J.
A1 - Tanaka, M.
A1 - Tanaka, S.
A1 - Tasan, J.
A1 - Tavani, M.
A1 - Tavernet, J. -P.
A1 - Tejedor, L. A.
A1 - Telezhinsky, Igor O.
A1 - Temnikov, P.
A1 - Tenzer, C.
A1 - Terada, Y.
A1 - Terrier, R.
A1 - Teshima, M.
A1 - Testa, V.
A1 - Tezier, D.
A1 - Thuermann, D.
A1 - Tibaldo, L.
A1 - Tibolla, O.
A1 - Tiengo, A.
A1 - Tluczykont, M.
A1 - Todero Peixoto, C. J.
A1 - Tokanai, F.
A1 - Tokarz, M.
A1 - Toma, K.
A1 - Torii, K.
A1 - Tornikoski, M.
A1 - Torres, D. F.
A1 - Torres, M.
A1 - Tosti, G.
A1 - Totani, T.
A1 - Toussenel, C.
A1 - Tovmassian, G.
A1 - Travnicek, P.
A1 - Trifoglio, M.
A1 - Troyano, I.
A1 - Tsinganos, K.
A1 - Ueno, H.
A1 - Umehara, K.
A1 - Upadhya, S. S.
A1 - Usher, T.
A1 - Uslenghi, M.
A1 - Valdes-Galicia, J. F.
A1 - Vallania, P.
A1 - Vallejo, G.
A1 - van Driel, W.
A1 - van Eldik, C.
A1 - Vandenbrouke, J.
A1 - Vanderwalt, J.
A1 - Vankov, H.
A1 - Vasileiadis, G.
A1 - Vassiliev, V.
A1 - Veberic, D.
A1 - Vegas, I.
A1 - Vercellone, S.
A1 - Vergani, S.
A1 - Veyssiere, C.
A1 - Vialle, J. P.
A1 - Viana, A.
A1 - Videla, M.
A1 - Vincent, P.
A1 - Vincent, S.
A1 - Vink, J.
A1 - Vlahakis, N.
A1 - Vlahos, L.
A1 - Vogler, P.
A1 - Vollhardt, A.
A1 - von Gunten, H. P.
A1 - Vorobiov, S.
A1 - Vuerli, C.
A1 - Waegebaert, V.
A1 - Wagner, R.
A1 - Wagner, R. G.
A1 - Wagner, S.
A1 - Wakely, S. P.
A1 - Walter, R.
A1 - Walther, T.
A1 - Warda, K.
A1 - Warwick, R.
A1 - Wawer, P.
A1 - Wawrzaszek, R.
A1 - Webb, N.
A1 - Wegner, P.
A1 - Weinstein, A.
A1 - Weitzel, Q.
A1 - Welsing, R.
A1 - Werner, M.
A1 - Wetteskind, H.
A1 - White, R.
A1 - Wierzcholska, A.
A1 - Wiesand, S.
A1 - Wilkinson, M.
A1 - Williams, D. A.
A1 - Willingale, R.
A1 - Winiarski, K.
A1 - Wischnewski, R.
A1 - Wisniewski, L.
A1 - Wood, M.
A1 - Woernlein, A.
A1 - Xiong, Q.
A1 - Yadav, K. K.
A1 - Yamamoto, H.
A1 - Yamamoto, T.
A1 - Yamazaki, R.
A1 - Yanagita, S.
A1 - Yebras, J. M.
A1 - Yelos, D.
A1 - Yoshida, A.
A1 - Yoshida, T.
A1 - Yoshikoshi, T.
A1 - Zabalza, V.
A1 - Zacharias, M.
A1 - Zajczyk, A.
A1 - Zanin, R.
A1 - Zdziarski, A.
A1 - Zech, Alraune
A1 - Zhao, A.
A1 - Zhou, X.
A1 - Zietara, K.
A1 - Ziolkowski, J.
A1 - Ziolkowski, P.
A1 - Zitelli, V.
A1 - Zurbach, C.
A1 - Zychowski, P.
T1 - Introducing the CTA concept
T2 - Astroparticle physics
N2 - The Cherenkov Telescope Array (CTA) is a new observatory for very high-energy (VHE) gamma rays. CTA has ambitions science goals, for which it is necessary to achieve full-sky coverage, to improve the sensitivity by about an order of magnitude, to span about four decades of energy, from a few tens of GeV to above 100 TeV with enhanced angular and energy resolutions over existing VHE gamma-ray observatories. An international collaboration has formed with more than 1000 members from 27 countries in Europe, Asia, Africa and North and South America. In 2010 the CTA Consortium completed a Design Study and started a three-year Preparatory Phase which leads to production readiness of CTA in 2014. In this paper we introduce the science goals and the concept of CTA, and provide an overview of the project.
KW - TeV gamma-ray astronomy
KW - Air showers
KW - Cherenkov Telescopes
Y1 - 2013
U6 - https://doi.org/10.1016/j.astropartphys.2013.01.007
SN - 0927-6505
SN - 1873-2852
VL - 43
IS - 2
SP - 3
EP - 18
PB - Elsevier
CY - Amsterdam
ER -
TY - JOUR
A1 - Abdalla, H.
A1 - Adam, R.
A1 - Aharonian, Felix A.
A1 - Benkhali, F. Ait
A1 - Angüner, Ekrem Oǧuzhan
A1 - Arcaro, C.
A1 - Armand, C.
A1 - Armstrong, T.
A1 - Ashkar, H.
A1 - Backes, M.
A1 - Baghmanyan, V.
A1 - Martins, V. Barbosa
A1 - Barnacka, A.
A1 - Barnard, M.
A1 - Becherini, Y.
A1 - Berge, D.
A1 - Bernlohr, K.
A1 - Bi, B.
A1 - Bottcher, M.
A1 - Boisson, C.
A1 - Bolmont, J.
A1 - de Lavergne, M. de Bony
A1 - Bordas, Pol
A1 - Breuhaus, M.
A1 - Brun, F.
A1 - Brun, P.
A1 - Bryan, M.
A1 - Buchele, M.
A1 - Bulik, T.
A1 - Bylund, T.
A1 - Caroff, S.
A1 - Carosi, A.
A1 - Casanova, Sabrina
A1 - Chand, T.
A1 - Chandra, S.
A1 - Chen, A.
A1 - Cotter, G.
A1 - Curylo, M.
A1 - Mbarubucyeye, J. Damascene
A1 - Davids, I. D.
A1 - Davies, J.
A1 - Deil, C.
A1 - Devin, J.
A1 - deWilt, P.
A1 - Dirson, L.
A1 - Djannati-Atai, A.
A1 - Dmytriiev, A.
A1 - Donath, A.
A1 - Doroshenko, V.
A1 - Duffy, C.
A1 - Dyks, J.
A1 - Egberts, Kathrin
A1 - Eichhorn, F.
A1 - Einecke, S.
A1 - Emery, G.
A1 - Ernenwein, J. -P.
A1 - Feijen, K.
A1 - Fegan, S.
A1 - Fiasson, A.
A1 - de Clairfontaine, G. Fichet
A1 - Fontaine, G.
A1 - Funk, S.
A1 - Fussling, Matthias
A1 - Gabici, S.
A1 - Gallant, Y. A.
A1 - Giavitto, G.
A1 - Giunti, L.
A1 - Glawion, D.
A1 - Glicenstein, J. F.
A1 - Gottschall, D.
A1 - Grondin, M. -H.
A1 - Hahn, J.
A1 - Haupt, M.
A1 - Hermann, G.
A1 - Hinton, J. A.
A1 - Hofmann, W.
A1 - Hoischen, Clemens
A1 - Holch, T. L.
A1 - Holler, M.
A1 - Horbe, M.
A1 - Horns, D.
A1 - Huber, D.
A1 - Jamrozy, M.
A1 - Jankowsky, D.
A1 - Jankowsky, F.
A1 - Jardin-Blicq, A.
A1 - Joshi, V.
A1 - Jung-Richardt, I.
A1 - Kasai, E.
A1 - Kastendieck, M. A.
A1 - Katarzynski, K.
A1 - Katz, U.
A1 - Khangulyan, D.
A1 - Khelifi, B.
A1 - Klepser, S.
A1 - Kluzniak, W.
A1 - Komin, Nu.
A1 - Konno, R.
A1 - Kosack, K.
A1 - Kostunin, D.
A1 - Kreter, M.
A1 - Lamanna, G.
A1 - Lemiere, A.
A1 - Lemoine-Goumard, M.
A1 - Lenain, J. -P.
A1 - Levy, C.
A1 - Lohse, T.
A1 - Lypova, I.
A1 - Mackey, J.
A1 - Majumdar, J.
A1 - Malyshev, D.
A1 - Malyshev, D.
A1 - Marandon, V.
A1 - Marchegiani, P.
A1 - Marcowith, Alexandre
A1 - Mares, A.
A1 - Marti-Devesa, G.
A1 - Marx, R.
A1 - Maurin, G.
A1 - Meintjes, P. J.
A1 - Meyer, M.
A1 - Mitchell, A.
A1 - Moderski, R.
A1 - Mohamed, M.
A1 - Mohrmann, L.
A1 - Montanari, A.
A1 - Moore, C.
A1 - Morris, P.
A1 - Moulin, Emmanuel
A1 - Muller, J.
A1 - Murach, T.
A1 - Nakashima, K.
A1 - Nayerhoda, A.
A1 - de Naurois, M.
A1 - Ndiyavala, H.
A1 - Niederwanger, F.
A1 - Niemiec, J.
A1 - Oakes, L.
A1 - O'Brien, Patrick
A1 - Odaka, H.
A1 - Ohm, S.
A1 - Olivera-Nieto, L.
A1 - Wilhelmi, E. de Ona
A1 - Ostrowski, M.
A1 - Oya, I.
A1 - Panter, M.
A1 - Panny, S.
A1 - Parsons, R. D.
A1 - Peron, G.
A1 - Peyaud, B.
A1 - Piel, Q.
A1 - Pita, S.
A1 - Poireau, V.
A1 - Noel, A. Priyana
A1 - Prokhorov, D. A.
A1 - Prokoph, H.
A1 - Puhlhofer, G.
A1 - Punch, M.
A1 - Quirrenbach, A.
A1 - Raab, S.
A1 - Rauth, R.
A1 - Reichherzer, P.
A1 - Reimer, A.
A1 - Reimer, O.
A1 - Remy, Q.
A1 - Renaud, M.
A1 - Rieger, F.
A1 - Rinchiuso, L.
A1 - Romoli, C.
A1 - Rowell, G.
A1 - Rudak, B.
A1 - Ruiz-Velasco, E.
A1 - Sahakian, V.
A1 - Sailer, S.
A1 - Sanchez, D. A.
A1 - Santangelo, Andrea
A1 - Sasaki, M.
A1 - Scalici, M.
A1 - Schussler, F.
A1 - Schutte, H. M.
A1 - Schwanke, U.
A1 - Schwemmer, S.
A1 - Seglar-Arroyo, M.
A1 - Senniappan, M.
A1 - Seyffert, A. S.
A1 - Shafi, N.
A1 - Shiningayamwe, K.
A1 - Simoni, R.
A1 - Sinha, A.
A1 - Sol, H.
A1 - Specovius, A.
A1 - Spencer, S.
A1 - Spir-Jacob, M.
A1 - Stawarz, L.
A1 - Sun, L.
A1 - Steenkamp, R.
A1 - Stegmann, C.
A1 - Steinmassl, S.
A1 - Steppa, C.
A1 - Takahashi, T.
A1 - Tavernier, T.
A1 - Taylor, A. M.
A1 - Terrier, R.
A1 - Tiziani, D.
A1 - Tluczykont, M.
A1 - Tomankova, L.
A1 - Trichard, C.
A1 - Tsirou, M.
A1 - Tuffs, R.
A1 - Uchiyama, Y.
A1 - van der Walt, D. J.
A1 - van Eldik, C.
A1 - van Rensburg, C.
A1 - van Soelen, B.
A1 - Vasileiadis, G.
A1 - Veh, J.
A1 - Venter, C.
A1 - Vincent, P.
A1 - Vink, J.
A1 - Volk, H. J.
A1 - Vuillaume, T.
A1 - Wadiasingh, Z.
A1 - Wagner, S. J.
A1 - Watson, J.
A1 - Werner, F.
A1 - White, R.
A1 - Wierzcholska, A.
A1 - Wong, Yu Wun
A1 - Yusafzai, A.
A1 - Zacharias, M.
A1 - Zanin, R.
A1 - Zargaryan, D.
A1 - Zdziarski, A. A.
A1 - Zech, Alraune
A1 - Zhu, S. J.
A1 - Ziegler, A.
A1 - Zorn, J.
A1 - Zouari, S.
A1 - Zywucka, N.
T1 - An extreme particle accelerator in the Galactic plane
BT - HESS J1826-130
JF - Astronomy and astrophysics : an international weekly journal
N2 - The unidentified very-high-energy (VHE; E > 0.1 TeV) gamma -ray source, HESS J1826-130, was discovered with the High Energy Stereoscopic System (HESS) in the Galactic plane. The analysis of 215 h of HESS data has revealed a steady gamma -ray flux from HESS J1826-130, which appears extended with a half-width of 0.21 degrees +/- 0.02
(stat)degrees
stat degrees +/- 0.05
(sys)degrees sys degrees . The source spectrum is best fit with either a power-law function with a spectral index Gamma = 1.78 +/- 0.10(stat) +/- 0.20(sys) and an exponential cut-off at 15.2
(+5.5)(-3.2) -3.2+5.5 TeV, or a broken power-law with Gamma (1) = 1.96 +/- 0.06(stat) +/- 0.20(sys), Gamma (2) = 3.59 +/- 0.69(stat) +/- 0.20(sys) for energies below and above E-br = 11.2 +/- 2.7 TeV, respectively. The VHE flux from HESS J1826-130 is contaminated by the extended emission of the bright, nearby pulsar wind nebula, HESS J1825-137, particularly at the low end of the energy spectrum. Leptonic scenarios for the origin of HESS J1826-130 VHE emission related to PSR J1826-1256 are confronted by our spectral and morphological analysis. In a hadronic framework, taking into account the properties of dense gas regions surrounding HESS J1826-130, the source spectrum would imply an astrophysical object capable of accelerating the parent particle population up to greater than or similar to 200 TeV. Our results are also discussed in a multiwavelength context, accounting for both the presence of nearby supernova remnants, molecular clouds, and counterparts detected in radio, X-rays, and TeV energies.
KW - ISM: supernova remnants
KW - ISM: clouds
KW - gamma rays: general
KW - gamma rays:
KW - ISM
Y1 - 2020
U6 - https://doi.org/10.1051/0004-6361/202038851
SN - 0004-6361
SN - 1432-0746
VL - 644
PB - EDP Sciences
CY - Les Ulis
ER -
TY - JOUR
A1 - Archambault, S.
A1 - Aune, T.
A1 - Behera, B.
A1 - Beilicke, M.
A1 - Benbow, W.
A1 - Berger, K.
A1 - Bird, R.
A1 - Biteau, Jonathan
A1 - Bugaev, V.
A1 - Byrum, K.
A1 - Cardenzana, J. V.
A1 - Cerruti, M.
A1 - Chen, Xuhui
A1 - Ciupik, L.
A1 - Connolly, M. P.
A1 - Cui, Wei
A1 - Dumm, J.
A1 - Errando, M.
A1 - Falcone, A.
A1 - Federici, Simone
A1 - Feng, Q.
A1 - Finley, J. P.
A1 - Fleischhack, H.
A1 - Fortson, L.
A1 - Furniss, A.
A1 - Galante, N.
A1 - Gillanders, G. H.
A1 - Griffin, S.
A1 - Griffiths, S. T.
A1 - Grube, J.
A1 - Gyuk, G.
A1 - Hanna, D.
A1 - Holder, J.
A1 - Hughes, G.
A1 - Humensky, T. B.
A1 - Johnson, C. A.
A1 - Kaaret, P.
A1 - Kertzman, M.
A1 - Khassen, Y.
A1 - Kieda, D.
A1 - Krawczynski, H.
A1 - Krennrich, F.
A1 - Kumar, S.
A1 - Lang, M. J.
A1 - Madhavan, A. S.
A1 - Maier, G.
A1 - McCann, A.
A1 - Meagher, K.
A1 - Moriarty, P.
A1 - Mukherjee, R.
A1 - Nieto, Daniel
A1 - Ong, R. A.
A1 - Otte, A. N.
A1 - Park, N.
A1 - Pohl, Martin
A1 - Popkow, A.
A1 - Prokoph, H.
A1 - Quinn, J.
A1 - Ragan, K.
A1 - Rajotte, J.
A1 - Reyes, L. C.
A1 - Reynolds, P. T.
A1 - Richards, G. T.
A1 - Roache, E.
A1 - Sembroski, G. H.
A1 - Shahinyan, K.
A1 - Staszak, D.
A1 - Telezhinsky, Igor O.
A1 - Tucci, J. V.
A1 - Tyler, J.
A1 - Varlotta, A.
A1 - Vassiliev, V. V.
A1 - Vincent, S.
A1 - Wakely, S. P.
A1 - Weinstein, A.
A1 - Welsing, R.
A1 - Wilhelm, Alina
A1 - Williams, D. A.
A1 - Ackermann, Margit
A1 - Ajello, M.
A1 - Albert, A.
A1 - Baldini, L.
A1 - Bastieri, D.
A1 - Bellazzini, R.
A1 - Bissaldi, E.
A1 - Bregeon, Johan
A1 - Buehler, R.
A1 - Buson, S.
A1 - Caliandro, G. A.
A1 - Cameron, R. A.
A1 - Caraveo, P. A.
A1 - Cavazzuti, E.
A1 - Charles, E.
A1 - Chiang, J.
A1 - Ciprini, S.
A1 - Claus, R.
A1 - Cutini, S.
A1 - de Angelis, A.
A1 - de Palma, F.
A1 - Dermer, C. D.
A1 - Digel, S. W.
A1 - Di Venere, L.
A1 - Drell, P. S.
A1 - Favuzzi, C.
A1 - Franckowiak, A.
A1 - Fusco, P.
A1 - Gargano, F.
A1 - Gasparrini, D.
A1 - Giglietto, N.
A1 - Giordano, F.
A1 - Giroletti, M.
A1 - Grenier, I. A.
A1 - Guiriec, S.
A1 - Jogler, T.
A1 - Kuss, M.
A1 - Larsson, S.
A1 - Latronico, L.
A1 - Longo, F.
A1 - Loparco, F.
A1 - Lubrano, P.
A1 - Madejski, G. M.
A1 - Mayer, M.
A1 - Mazziotta, Mario Nicola
A1 - Michelson, P. F.
A1 - Mizuno, T.
A1 - Monzani, M. E.
A1 - Morselli, Aldo
A1 - Murgia, S.
A1 - Nuss, E.
A1 - Ohsugi, T.
A1 - Ormes, J. F.
A1 - Paneque, D.
A1 - Perkins, J. S.
A1 - Piron, F.
A1 - Pivato, G.
A1 - Raino, S.
A1 - Razzano, M.
A1 - Reimer, A.
A1 - Reimer, Olaf
A1 - Ritz, S.
A1 - Schaal, M.
A1 - Sgro, C.
A1 - Siskind, E. J.
A1 - Spinelli, P.
A1 - Takahashi, H.
A1 - Tibaldo, L.
A1 - Tinivella, M.
A1 - Troja, E.
A1 - Vianello, G.
A1 - Werner, M.
A1 - Wood, M.
T1 - Deep broadband observations of the distant gamma-ray blazar PKS 1424+240
JF - The astrophysical journal : an international review of spectroscopy and astronomical physics ; Part 2, Letters
N2 - We present deep VERITAS observations of the blazar PKS 1424+240, along with contemporaneous Fermi Large Area Telescope, Swift X-ray Telescope, and Swift UV Optical Telescope data between 2009 February 19 and 2013 June 8. This blazar resides at a redshift of z >= 0.6035, displaying a significantly attenuated gamma-ray flux above 100 GeV due to photon absorption via pair-production with the extragalactic background light. We present more than 100 hr of VERITAS observations over three years, a multiwavelength light curve, and the contemporaneous spectral energy distributions. The source shows a higher flux of (2.1 +/- 0.3) x 10(-7) photons m(-2) s(-1) above 120 GeV in 2009 and 2011 as compared to the flux measured in 2013, corresponding to (1.02 +/- 0.08) x 10-7 photons m(-2) s(-1) above 120 GeV. The measured differential very high energy (VHE; E >= 100 GeV) spectral indices are Gamma = 3.8 +/- 0.3, 4.3 +/- 0.6 and 4.5 +/- 0.2 in 2009, 2011, and 2013, respectively. No significant spectral change across the observation epochs is detected. We find no evidence for variability at gamma-ray opacities of greater than tau = 2, where it is postulated that any variability would be small and occur on timescales longer than a year if hadronic cosmic-ray interactions with extragalactic photon fields provide a secondary VHE photon flux. The data cannot rule out such variability due to low statistics.
KW - BL Lacertae objects: individual (PKS 1424+240)-cosmic background radiation
KW - gamma rays: galaxies
Y1 - 2014
U6 - https://doi.org/10.1088/2041-8205/785/1/L16
SN - 2041-8205
SN - 2041-8213
VL - 785
IS - 1
PB - IOP Publ. Ltd.
CY - Bristol
ER -
TY - GEN
A1 - Abramowski, Attila
A1 - Aharonian, Felix A.
A1 - Benkhali, Faical Ait
A1 - Akhperjanian, A. G.
A1 - Angüner, Ekrem Oǧuzhan
A1 - Backes, Michael
A1 - Balenderan, Shangkari
A1 - Balzer, Arnim
A1 - Barnacka, Anna
A1 - Becherini, Yvonne
A1 - Tjus, Julia Becker
A1 - Berge, David
A1 - Bernhard, Sabrina
A1 - Bernlöhr, Konrad
A1 - Birsin, E.
A1 - Biteau, Jonathan
A1 - Böttcher, Markus
A1 - Boisson, Catherine
A1 - Bolmont, J.
A1 - Bordas, Pol
A1 - Bregeon, Johan
A1 - Brun, Francois
A1 - Brun, Pierre
A1 - Bryan, Mark
A1 - Bulik, Tomasz
A1 - Carrigan, Svenja
A1 - Casanova, Sabrina
A1 - Chadwick, Paula M.
A1 - Chakraborty, Nachiketa
A1 - Chalme-Calvet, R.
A1 - Chaves, Ryan C. G.
A1 - Chretien, M.
A1 - Colafrancesco, Sergio
A1 - Cologna, Gabriele
A1 - Conrad, Jan
A1 - Couturier, Claire
A1 - Cui, Yudong
A1 - Davids, Isak Delberth
A1 - Degrange, Bernhard
A1 - Deil, Christoph
A1 - deWilt, P.
A1 - Djannati-Ataï, A.
A1 - Domainko, Wilfried
A1 - Donath, Axel
A1 - Dubus, G.
A1 - Dutson, K.
A1 - Dyks, J.
A1 - Dyrda, M.
A1 - Edwards, Tanya
A1 - Egberts, Kathrin
A1 - Eger, Peter
A1 - Espigat, P.
A1 - Farnier, C.
A1 - Fegan, Stephen
A1 - Feinstein, Fabrice
A1 - Fernandes, Milton Virgilio
A1 - Fernandez, Diane
A1 - Fiasson, A.
A1 - Fontaine, Gerard
A1 - Förster, Andreas
A1 - Fuessling, M.
A1 - Gabici, S.
A1 - Gajdus, M.
A1 - Gallant, Yves A.
A1 - Garrigoux, Tania
A1 - Giavitto, G.
A1 - Giebels, Berrie
A1 - Glicenstein, Jean-Francois
A1 - Gottschall, Daniel
A1 - Grondin, M. -H.
A1 - Grudzinska, M.
A1 - Hadasch, Daniela
A1 - Haeffner, S.
A1 - Hahn, Joachim
A1 - Harris, Jonathan
A1 - Heinzelmann, Götz
A1 - Henri, G.
A1 - Hermann, German
A1 - Hervet, O.
A1 - Hillert, Andreas
A1 - Hinton, James Anthony
A1 - Hofmann, Werner
A1 - Hofverberg, Petter
A1 - Holler, Markus
A1 - Horns, Dieter
A1 - Ivascenko, Alex
A1 - Jacholkowska, A.
A1 - Jahn, C.
A1 - Jamrozy, Marek
A1 - Janiak, M.
A1 - Jankowsky, F.
A1 - Jung-Richardt, I.
A1 - Kastendieck, Max Anton
A1 - Katarzynski, K.
A1 - Katz, U.
A1 - Kaufmann, S.
A1 - Khelifi, B.
A1 - Kieffer, Michel
A1 - Klepser, S.
A1 - Klochkov, Dmitry
A1 - Kluzniak, W.
A1 - Kolitzus, David
A1 - Komin, Nu
A1 - Kosack, Karl
A1 - Krakau, Steffen
A1 - Krayzel, F.
A1 - Krueger, Pat P.
A1 - Laffon, H.
A1 - Lamanna, G.
A1 - Lefaucheur, J.
A1 - Lefranc, Valentin
A1 - Lemiere, A.
A1 - Lemoine-Goumard, M.
A1 - Lenain, J. -P.
A1 - Lohse, Thomas
A1 - Lopatin, A.
A1 - Lu, Chia-Chun
A1 - Marandon, Vincent
A1 - Marcowith, Alexandre
A1 - Marx, Ramin
A1 - Maurin, G.
A1 - Maxted, Nigel
A1 - Mayer, Michael
A1 - McComb, T. J. Lowry
A1 - Mehault, J.
A1 - Meintjes, P. J.
A1 - Menzler, Ulf
A1 - Meyer, M.
A1 - Mitchell, Alison M. W.
A1 - Moderski, R.
A1 - Mohamed, M.
A1 - Mora, K.
A1 - Moulin, Emmanuel
A1 - Murach, Thomas
A1 - de Naurois, Mathieu
A1 - Niemiec, J.
A1 - Nolan, Sam J.
A1 - Oakes, Louise
A1 - Odaka, Hirokazu
A1 - Ohm, S.
A1 - Optiz, Björn
A1 - Ostrowski, Michal
A1 - Oya, I.
A1 - Panter, Michael
A1 - Parsons, R. Daniel
A1 - Arribas, M. Paz
A1 - Pekeur, Nikki W.
A1 - Pelletier, G.
A1 - Petrucci, P. -O.
A1 - Peyaud, B.
A1 - Pita, S.
A1 - Poon, Helen
A1 - Pühlhofer, Gerd
A1 - Punch, M.
A1 - Quirrenbach, A.
A1 - Raab, S.
A1 - Reichardt, I.
A1 - Reimer, Anita
A1 - Reimer, Olaf
A1 - Renaud, Metz
A1 - de los Reyes, Raquel
A1 - Rieger, Frank
A1 - Romoli, C.
A1 - Rosier-Lees, S.
A1 - Rowell, G.
A1 - Rudak, B.
A1 - Rulten, C. B.
A1 - Sahakian, Vardan
A1 - Salek, D.
A1 - Sanchez, David M.
A1 - Santangelo, Andrea
A1 - Schlickeiser, Reinhard
A1 - Schuessler, F.
A1 - Schulz, A.
A1 - Schwanke, Ullrich
A1 - Schwarzburg, S.
A1 - Schwemmer, S.
A1 - Sol, H.
A1 - Spanier, Felix
A1 - Spengler, G.
A1 - Spies, Franziska
A1 - Stawarz, Lukasz
A1 - Steenkamp, Riaan
A1 - Stegmann, Christian
A1 - Stinzing, F.
A1 - Stycz, K.
A1 - Sushch, Iurii
A1 - Tavernet, J. -P.
A1 - Tavernier, T.
A1 - Taylor, A. M.
A1 - Terrier, R.
A1 - Tluczykont, Martin
A1 - Trichard, C.
A1 - Valerius, K.
A1 - van Eldik, C.
A1 - van Soelen, B.
A1 - Vasileiadis, Georges
A1 - Veh, J.
A1 - Venter, Christo
A1 - Viana, Aion
A1 - Vincent, P.
A1 - Vink, Jacco
A1 - Völk, Heinrich J.
A1 - Volpe, Francesca
A1 - Vorster, Martine
A1 - Vuillaume, T.
A1 - Wagner, S. J.
A1 - Wagner, P.
A1 - Wagner, R. M.
A1 - Ward, Martin
A1 - Weidinger, Matthias
A1 - Weitzel, Quirin
A1 - White, R.
A1 - Wierzcholska, A.
A1 - Willmann, P.
A1 - Woernlein, A.
A1 - Wouters, D.
A1 - Yang, Ruizhi
A1 - Zabalza, Victor
A1 - Zaborov, Dmitry
A1 - Zacharias, M.
A1 - Zdziarski, A. A.
A1 - Zech, Alraune
A1 - Zechlin, Hannes -S.
T1 - H.E.S.S. detection of TeV emission from the interaction region between the supernova remnant G349.7+0.2 and a molecular cloud (vol 574, A100, 2015)
T2 - Astronomy and astrophysics : an international weekly journal
KW - gamma rays: general
KW - ISM: supernova remnants
KW - ISM: clouds
KW - errata, addenda
Y1 - 2015
U6 - https://doi.org/10.1051/0004-6361/201425070e
SN - 1432-0746
VL - 580
PB - EDP Sciences
CY - Les Ulis
ER -
TY - JOUR
A1 - Abdalla, Hassan E.
A1 - Abramowski, Attila
A1 - Aharonian, Felix A.
A1 - Benkhali, Faiçal Ait
A1 - Akhperjanian, A. G.
A1 - Angüner, Ekrem Oǧuzhan
A1 - Arrieta, M.
A1 - Aubert, Pierre
A1 - Backes, Michael
A1 - Balzer, Arnim
A1 - Barnard, Michelle
A1 - Becherini, Yvonne
A1 - Tjus, Julia Becker
A1 - Berge, David
A1 - Bernhard, Sabrina
A1 - Bernlöhr, K.
A1 - Birsin, E.
A1 - Blackwell, R.
A1 - Bottcher, Markus
A1 - Boisson, Catherine
A1 - Bolmont, J.
A1 - Bordas, Pol
A1 - Bregeon, Johan
A1 - Brun, Francois
A1 - Brun, Pierre
A1 - Bryan, Mark
A1 - Bulik, Tomasz
A1 - Capasso, M.
A1 - Carr, John
A1 - Casanova, Sabrina
A1 - Chakraborty, N.
A1 - Chalme-Calvet, R.
A1 - Chaves, Ryan C. G.
A1 - Chen, Andrew
A1 - Chevalier, J.
A1 - Chretien, M.
A1 - Colafrancesco, Sergio
A1 - Cologna, Gabriele
A1 - Condon, B.
A1 - Conrad, Jan
A1 - Couturier, C.
A1 - Cui, Y.
A1 - Davids, I. D.
A1 - Degrange, B.
A1 - Deil, Christoph
A1 - deWilt, P.
A1 - Djannati-Atai, Arache
A1 - Domainko, Wilfried
A1 - Donath, Axel
A1 - Dubus, Guillaume
A1 - Dutson, Kate
A1 - Dyks, J.
A1 - Dyrda, M.
A1 - Edwards, T.
A1 - Egberts, Kathrin
A1 - Eger, P.
A1 - Ernenwein, J. -P.
A1 - Eschbach, S.
A1 - Farnier, C.
A1 - Fegan, Stuart
A1 - Fernandes, M. V.
A1 - Fiasson, A.
A1 - Fontaine, G.
A1 - Foerster, A.
A1 - Funk, S.
A1 - Füßling, Matthias
A1 - Gabici, Stefano
A1 - Gajdus, M.
A1 - Gallant, Y. A.
A1 - Garrigoux, T.
A1 - Giavitto, Gianluca
A1 - Giebels, B.
A1 - Glicenstein, J. F.
A1 - Gottschall, Daniel
A1 - Goyal, A.
A1 - Grondin, M. -H.
A1 - Grudzinska, M.
A1 - Hadasch, Daniela
A1 - Hahn, J.
A1 - Hawkes, J.
A1 - Heinzelmann, G.
A1 - Henri, Gilles
A1 - Hermann, G.
A1 - Hervet, Olivier
A1 - Hillert, A.
A1 - Hinton, James Anthony
A1 - Hofmann, Werner
A1 - Hoischen, Clemens
A1 - Holler, M.
A1 - Horns, D.
A1 - Ivascenko, Alex
A1 - Jacholkowska, A.
A1 - Jamrozy, Marek
A1 - Janiak, M.
A1 - Jankowsky, D.
A1 - Jankowsky, Felix
A1 - Jingo, M.
A1 - Jogler, Tobias
A1 - Jouvin, Lea
A1 - Jung-Richardt, Ira
A1 - Kastendieck, M. A.
A1 - Katarzynski, Krzysztof
A1 - Katz, Uli
A1 - Kerszberg, D.
A1 - Khelifi, B.
A1 - Kieffer, M.
A1 - King, J.
A1 - Klepser, S.
A1 - Klochkov, Dmitry
A1 - Kluzniak, W.
A1 - Kolitzus, D.
A1 - Komin, Nu.
A1 - Kosack, K.
A1 - Krakau, S.
A1 - Kraus, Michael
A1 - Krayzel, F.
A1 - Kruger, P. P.
A1 - Laffon, H.
A1 - Lamanna, G.
A1 - Lau, Jeanie
A1 - Lees, J. -P.
A1 - Lefaucheur, J.
A1 - Lefranc, V.
A1 - Lemiere, A.
A1 - Lemoine-Goumard, M.
A1 - Lenain, J. -P.
A1 - Leser, Eva
A1 - Lohse, Thomas
A1 - Lorentz, M.
A1 - Lui, R.
A1 - Lypova, Iryna
A1 - Marandon, Vincent
A1 - Marcowith, Alexandre
A1 - Mariaud, C.
A1 - Marx, R.
A1 - Maurin, G.
A1 - Maxted, N.
A1 - Mayer, Michael
A1 - Meintjes, Petrus Johannes
A1 - Menzler, U.
A1 - Meyer, Manuel
A1 - Mitchell, A. M. W.
A1 - Moderski, R.
A1 - Mohamed, M.
A1 - Mora, K.
A1 - Moulin, Emmanuel
A1 - Murach, T.
A1 - de Naurois, Mathieu
A1 - Niederwanger, F.
A1 - Niemiec, J.
A1 - Oakes, L.
A1 - Odaka, Hirokazu
A1 - Ohm, Stefan
A1 - Oettl, S.
A1 - Ostrowski, M.
A1 - Oya, I.
A1 - Padovani, Marco
A1 - Panter, M.
A1 - Parsons, R. D.
A1 - Arribas, M. Paz
A1 - Pekeur, N. W.
A1 - Pelletier, G.
A1 - Petrucci, P. -O.
A1 - Peyaud, B.
A1 - Pita, S.
A1 - Poon, Helen
A1 - Prokhorov, Dmitry
A1 - Prokoph, Heike
A1 - Puehlhofer, Gerd
A1 - Punch, Michael
A1 - Quirrenbach, Andreas
A1 - Raab, S.
A1 - Reimer, Anita
A1 - Reimer, Olaf
A1 - Renaud, M.
A1 - de los Reyes, R.
A1 - Rieger, Frank
A1 - Romoli, Carlo
A1 - Rosier-Lees, S.
A1 - Rowell, G.
A1 - Rudak, B.
A1 - Rulten, C. B.
A1 - Sahakian, V.
A1 - Salek, David
A1 - Sanchez, David A.
A1 - Santangelo, Andrea
A1 - Sasaki, Manami
A1 - Schlickeiser, Reinhard
A1 - Schussler, F.
A1 - Schulz, Andreas
A1 - Schwanke, U.
A1 - Schwemmer, S.
A1 - Seyffert, A. S.
A1 - Shafi, N.
A1 - Simoni, R.
A1 - Sol, H.
A1 - Spanier, Felix
A1 - Spengler, G.
A1 - Spiess, F.
A1 - Stawarz, Lukasz
A1 - Steenkamp, R.
A1 - Stegmann, Christian
A1 - Stinzing, F.
A1 - Stycz, K.
A1 - Sushch, Iurii
A1 - Tavernet, J. -P.
A1 - Tavernier, T.
A1 - Taylor, A. M.
A1 - Terrier, R.
A1 - Tluczykont, Martin
A1 - Trichard, C.
A1 - Tuffs, R.
A1 - van der Walt, Johan
A1 - van Eldik, Christopher
A1 - van Soelen, Brian
A1 - Vasileiadis, Georges
A1 - Veh, J.
A1 - Venter, C.
A1 - Viana, A.
A1 - Vincent, P.
A1 - Vink, Jacco
A1 - Voisin, F.
A1 - Voelk, Heinrich J.
A1 - Vuillaume, Thomas
A1 - Wadiasingh, Z.
A1 - Wagner, Stefan J.
A1 - Wagner, P.
A1 - Wagner, R. M.
A1 - White, R.
A1 - Wierzcholska, Alicja
A1 - Willmann, P.
A1 - Woernlein, A.
A1 - Wouters, Denis
A1 - Yang, R.
A1 - Zabalza, Victor
A1 - Zaborov, D.
A1 - Zacharias, M.
A1 - Zdziarski, A. A.
A1 - Zech, Andreas
A1 - Zefi, F.
A1 - Ziegler, A.
A1 - Zywucka, Natalia
T1 - Search for Dark Matter Annihilations towards the Inner Galactic Halo from 10 Years of Observations with HESS
JF - Physical review letters
N2 - The inner region of the Milky Way halo harbors a large amount of dark matter (DM). Given its proximity, it is one of the most promising targets to look for DM. We report on a search for the annihilations of DM particles using gamma-ray observations towards the inner 300 pc of the Milky Way, with the H.E.S.S. array of ground-based Cherenkov telescopes. The analysis is based on a 2D maximum likelihood method using Galactic Center (GC) data accumulated by H.E.S.S. over the last 10 years (2004-2014), and does not show any significant gamma-ray signal above background. Assuming Einasto and Navarro-Frenk-White DM density profiles at the GC, we derive upper limits on the annihilation cross section . These constraints are the strongest obtained so far in the TeV DM mass range and improve upon previous limits by a factor 5. For the Einasto profile, the constraints reach values of 6 x 10(-26) cm(3) s(-1) in the W+W- channel for a DM particle mass of 1.5 TeV, and 2 x 10(-26) cm(3) s(-1) in the tau(+)tau(-) channel for a 1 TeV mass. For the first time, ground-based gamma-ray observations have reached sufficient sensitivity to probe values expected from the thermal relic density for TeV DM particles.
Y1 - 2016
U6 - https://doi.org/10.1103/PhysRevLett.117.111301
SN - 0031-9007
SN - 1079-7114
VL - 117
PB - American Physical Society
CY - College Park
ER -
TY - JOUR
A1 - Kutzschbach, Martin
A1 - Guttmann, Peter
A1 - Marquardt, K.
A1 - Werner, S.
A1 - Henzler, K. D.
A1 - Wilke, Max
T1 - A transmission x-ray microscopy and NEXAFS approach for studying corroded silicate glasses at the nanometre scale
JF - European journal of glass science and technology / Deutsche Glastechnische Gesellschaft (DGG) and the Society of Glass Technology (SGT). B, Physics and chemistry of glasses
N2 - In this study transmission X-ray microscopy (TXM) was tested as a method to investigate the chemistry and structure of corroded silicate glasses at the nanometer scale. Three different silicate glasses were altered in static corrosion experiments for 1-336 hours at temperatures between 60 degrees C and 85 degrees C using a 25% HCl solution. Thin lamellas were cut perpendicular to the surface of corroded glass monoliths and were analysed with conventional TEM as well as with TXM. By recording optical density profiles at photon energies around the Na and O K-edges, the shape of the corrosion rim/pristine glass interfaces and the thickness of the corrosion rims has been determined. Na and O near-edge X-ray absorption fine-structure spectra (NEXAFS) were obtained without inducing irradiation damage and have been used to detect chemical changes in the corrosion rims. Spatially resolved NEXAFS spectra at the O K-edge provided insight to structural changes in the corrosion layer on the atomic scale. By comparison to O K-edge spectra of silicate minerals and (hydrous) albite glass as well as to O K-edge NEXAFS of model structures simulated with ab initio calculations, evidence is provided that changes of the fine structure at the O K-edge are assigned to the formation of siloxane groups in the corrosion rim.
Y1 - 2018
U6 - https://doi.org/10.13036/17533562.59.1.043
SN - 1753-3562
VL - 59
IS - 1
SP - 11
EP - 26
PB - Society of Glass Technology
CY - Sheffield
ER -
TY - JOUR
A1 - Teriaca, Luca
A1 - Andretta, Vincenzo
A1 - Auchere, Frederic
A1 - Brown, Charles M.
A1 - Buchlin, Eric
A1 - Cauzzi, Gianna
A1 - Culhane, J. Len
A1 - Curdt, Werner
A1 - Davila, Joseph M.
A1 - Del Zanna, Giulio
A1 - Doschek, George A.
A1 - Fineschi, Silvano
A1 - Fludra, Andrzej
A1 - Gallagher, Peter T.
A1 - Green, Lucie
A1 - Harra, Louise K.
A1 - Imada, Shinsuke
A1 - Innes, Davina
A1 - Kliem, Bernhard
A1 - Korendyke, Clarence
A1 - Mariska, John T.
A1 - Martinez-Pillet, Valentin
A1 - Parenti, Susanna
A1 - Patsourakos, Spiros
A1 - Peter, Hardi
A1 - Poletto, Luca
A1 - Rutten, Robert J.
A1 - Schuehle, Udo
A1 - Siemer, Martin
A1 - Shimizu, Toshifumi
A1 - Socas-Navarro, Hector
A1 - Solanki, Sami K.
A1 - Spadaro, Daniele
A1 - Trujillo-Bueno, Javier
A1 - Tsuneta, Saku
A1 - Dominguez, Santiago Vargas
A1 - Vial, Jean-Claude
A1 - Walsh, Robert
A1 - Warren, Harry P.
A1 - Wiegelmann, Thomas
A1 - Winter, Berend
A1 - Young, Peter
T1 - LEMUR large european module for solar ultraviolet research
JF - Experimental astronomy : an international journal on astronomical instrumentation and data analysis
N2 - The solar outer atmosphere is an extremely dynamic environment characterized by the continuous interplay between the plasma and the magnetic field that generates and permeates it. Such interactions play a fundamental role in hugely diverse astrophysical systems, but occur at scales that cannot be studied outside the solar system. Understanding this complex system requires concerted, simultaneous solar observations from the visible to the vacuum ultraviolet (VUV) and soft X-rays, at high spatial resolution (between 0.1'' and 0.3''), at high temporal resolution (on the order of 10 s, i.e., the time scale of chromospheric dynamics), with a wide temperature coverage (0.01 MK to 20 MK, from the chromosphere to the flaring corona), and the capability of measuring magnetic fields through spectropolarimetry at visible and near-infrared wavelengths. Simultaneous spectroscopic measurements sampling the entire temperature range are particularly important. These requirements are fulfilled by the Japanese Solar-C mission (Plan B), composed of a spacecraft in a geosynchronous orbit with a payload providing a significant improvement of imaging and spectropolarimetric capabilities in the UV, visible, and near-infrared with respect to what is available today and foreseen in the near future. The Large European Module for solar Ultraviolet Research (LEMUR), described in this paper, is a large VUV telescope feeding a scientific payload of high-resolution imaging spectrographs and cameras. LEMUR consists of two major components: a VUV solar telescope with a 30 cm diameter mirror and a focal length of 3.6 m, and a focal-plane package composed of VUV spectrometers covering six carefully chosen wavelength ranges between 170 and 1270 . The LEMUR slit covers 280'' on the Sun with 0.14'' per pixel sampling. In addition, LEMUR is capable of measuring mass flows velocities (line shifts) down to 2 km s (-aEuro parts per thousand 1) or better. LEMUR has been proposed to ESA as the European contribution to the Solar C mission.
KW - Sun: atmosphere
KW - Space vehicles: instruments
KW - Techniques: spectroscopy
KW - ESA cosmic vision
Y1 - 2012
U6 - https://doi.org/10.1007/s10686-011-9274-x
SN - 0922-6435
VL - 34
IS - 2
SP - 273
EP - 309
PB - Springer
CY - Dordrecht
ER -
TY - JOUR
A1 - Abdalla, Hassan E.
A1 - Aharonian, Felix A.
A1 - Ait Benkhali, Faical
A1 - Angüner, Ekrem Oǧuzhan
A1 - Arakawa, M.
A1 - Arcaro, C.
A1 - Armand, C.
A1 - Arrieta, M.
A1 - Backes, Michael
A1 - Barnard, M.
A1 - Becherini, Yvonne
A1 - Tjus, J. Becker
A1 - Berge, D.
A1 - Bernhard, S.
A1 - Bernlöhr, Konrad
A1 - Blackwell, R.
A1 - Böttcher, Markus
A1 - Boisson, C.
A1 - Bolmont, Julien
A1 - Bonnefoy, S.
A1 - Bordas, Pol
A1 - Bregeon, J.
A1 - Brun, F.
A1 - Brun, P.
A1 - Bryan, M.
A1 - Büchele, M.
A1 - Bulik, Tomasz
A1 - Bylund, Tomas
A1 - Capasso, Massimo
A1 - Caroff, S.
A1 - Carosi, A.
A1 - Casanova, Sabrina
A1 - Cerruti, Matteo
A1 - Chakraborty, Nachiketa
A1 - Chandra, S.
A1 - Chaves, R. C. G.
A1 - Chen, A.
A1 - Colafrancesco, Sergio
A1 - Condon, B.
A1 - Davids, Isak
A1 - Deil, Christoph
A1 - Devin, J.
A1 - deWilt, P.
A1 - Dirson, L.
A1 - Djannati-Atai, A.
A1 - Dmytriiev, A.
A1 - Donath, Axel
A1 - Doroshenko, Victor
A1 - Dyks, J.
A1 - Egberts, Kathrin
A1 - Emery, G.
A1 - Ernenwein, J. -P.
A1 - Eschbach, Stefan
A1 - Fegan, S.
A1 - Fiasson, Armand
A1 - Fontaine, G.
A1 - Funk, Sebastian
A1 - Füßling, Matthias
A1 - Gabici, S.
A1 - Gallant, Y. A.
A1 - Gate, F.
A1 - Giavitto, Gianluca
A1 - Eisenacher Glawion, Dorit
A1 - Glicenstein, Jean-François
A1 - Gottschall, D.
A1 - Grondin, Marie-Hélène
A1 - Hahn, J.
A1 - Haupt, M.
A1 - Heinzelmann, G.
A1 - Henri, Gilles
A1 - Hermann, G.
A1 - Hinton, James Anthony
A1 - Hofmann, Werner
A1 - Hoischen, Clemens
A1 - Holch, Tim Lukas
A1 - Holler, M.
A1 - Horns, D.
A1 - Huber, D.
A1 - Iwasaki, H.
A1 - Jacholkowska, A.
A1 - Jamrozy, M.
A1 - Jankowsky, David
A1 - Jankowsky, Felix
A1 - Jouvin, L.
A1 - Jung-Richardt, I.
A1 - Kastendieck, M. A.
A1 - Katarzyński, Krzysztof
A1 - Katsuragawa, M.
A1 - Katz, U.
A1 - Kerszberg, D.
A1 - Khangulyan, D.
A1 - Khelifi, B.
A1 - King, J.
A1 - Klepser, S.
A1 - Kluzniak, W.
A1 - Komin, Nu.
A1 - Kosack, K.
A1 - Krakau, S.
A1 - Kraus, M.
A1 - Kruger, P. P.
A1 - Lamanna, G.
A1 - Lau, J.
A1 - Lefaucheur, J.
A1 - Lemiere, A.
A1 - Lemoine-Goumard, M.
A1 - Lenain, J. -P.
A1 - Leser, Eva
A1 - Lohse, T.
A1 - Lorentz, M.
A1 - Lopez-Coto, R.
A1 - Lypova, I.
A1 - Malyshev, D.
A1 - Marandon, V.
A1 - Marcowith, Alexandre
A1 - Mariaud, C.
A1 - Marti-Devesa, G.
A1 - Marx, R.
A1 - Maurin, G.
A1 - Meintjes, P. J.
A1 - Mitchell, A. M. W.
A1 - Moderski, R.
A1 - Mohamed, M.
A1 - Mohrmann, L.
A1 - Moulin, Emmanuel
A1 - Murach, T.
A1 - Nakashima, S.
A1 - de Naurois, M.
A1 - Ndiyavala, H.
A1 - Niederwanger, F.
A1 - Niemiec, J.
A1 - Oakes, L.
A1 - Odaka, H.
A1 - Ohm, S.
A1 - Ostrowski, M.
A1 - Oya, I.
A1 - Padovani, M.
A1 - Panter, M.
A1 - Parsons, R. D.
A1 - Perennes, C.
A1 - Petrucci, P. -O.
A1 - Peyaud, B.
A1 - Piel, Q.
A1 - Pita, S.
A1 - Poireau, V.
A1 - Noel, A. Priyana
A1 - Prokhorov, D. A.
A1 - Prokoph, H.
A1 - Puehlhofer, G.
A1 - Punch, M.
A1 - Quirrenbach, A.
A1 - Raab, S.
A1 - Rauth, R.
A1 - Reimer, A.
A1 - Reimer, O.
A1 - Renaud, M.
A1 - Rieger, F.
A1 - Rinchiuso, L.
A1 - Romoli, C.
A1 - Rowell, G.
A1 - Rudak, B.
A1 - Ruiz-Velasco, E.
A1 - Sahakian, V.
A1 - Saito, S.
A1 - Sanchez, D. A.
A1 - Santangelo, Andrea
A1 - Sasaki, M.
A1 - Schlickeiser, R.
A1 - Schussler, F.
A1 - Schulz, A.
A1 - Schwanke, U.
A1 - Schwemmer, S.
A1 - Seglar-Arroyo, M.
A1 - Senniappan, M.
A1 - Seyffert, A. S.
A1 - Shafi, N.
A1 - Shilon, I.
A1 - Shiningayamwe, K.
A1 - Simoni, R.
A1 - Sinha, A.
A1 - Sol, H.
A1 - Spanier, F.
A1 - Specovius, A.
A1 - Spir-Jacob, M.
A1 - Stawarz, L.
A1 - Steenkamp, R.
A1 - Stegmann, Christian
A1 - Steppa, Constantin Beverly
A1 - Takahashi, T.
A1 - Tavernet, J. -P.
A1 - Tavernier, T.
A1 - Taylor, A. M.
A1 - Terrier, R.
A1 - Tibaldo, L.
A1 - Tiziani, D.
A1 - Tluczykont, M.
A1 - Trichard, C.
A1 - Tsirou, M.
A1 - Tsuji, N.
A1 - Tuffs, R.
A1 - Uchiyama, Y.
A1 - van der Walt, D. J.
A1 - van Eldik, C.
A1 - van Rensburg, C.
A1 - van Soelen, B.
A1 - Vasileiadis, G.
A1 - Veh, J.
A1 - Venter, C.
A1 - Viana, A.
A1 - Vincent, P.
A1 - Vink, J.
A1 - Voisin, F.
A1 - Voelk, H. J.
A1 - Vuillaume, T.
A1 - Wadiasingh, Z.
A1 - Wagner, S. J.
A1 - Wagner, R. M.
A1 - White, R.
A1 - Wierzcholska, A.
A1 - Yang, R.
A1 - Zaborov, D.
A1 - Zacharias, M.
A1 - Zanin, R.
A1 - Zdziarski, A.
A1 - Zech, Alraune
A1 - Zefi, F.
A1 - Ziegler, A.
A1 - Zorn, J.
A1 - Zywucka, N.
A1 - Cirelli, M.
A1 - Panci, P.
A1 - Sala, F.
A1 - Silk, J.
A1 - Taoso, M.
T1 - Searches for gamma-ray lines and 'pure WIMP' spectra from Dark Matter annihilations in dwarf galaxies with H.E.S.S.
JF - Journal of cosmology and astroparticle physics
N2 - Dwarf spheroidal galaxies are among the most promising targets for detecting signals of Dark Matter (DM) annihilations. The H.E.S.S. experiment has observed five of these systems for a total of about 130 hours. The data are re-analyzed here, and, in the absence of any detected signals, are interpreted in terms of limits on the DM annihilation cross section. Two scenarios are considered: i) DM annihilation into mono-energetic gamma-rays and ii) DM in the form of pure WIMP multiplets that, annihilating into all electroweak bosons, produce a distinctive gamma-ray spectral shape with a high-energy peak at the DM mass and a lower-energy continuum. For case i), upper limits at 95% confidence level of about less than or similar to 3 x 10(-25) cm(3) s(-1) are obtained in the mass range of 400 GeV to 1TeV. For case ii), the full spectral shape of the models is used and several excluded regions are identified, but the thermal masses of the candidates are not robustly ruled out.
KW - dark matter detectors
KW - dark matter experiments
KW - dwarfs galaxies
KW - gamma ray detectors
Y1 - 2018
U6 - https://doi.org/10.1088/1475-7516/2018/11/037
SN - 1475-7516
IS - 11
PB - IOP Publishing Ltd. (Bristol)
CY - Bristol
ER -
TY - JOUR
A1 - Werner, A.
A1 - Müller, K.
A1 - Wenkel, K.-O.
A1 - Bork, Hans-Rudolf
T1 - Partizipative und iterative Planung als Voraussetzung für die Integration ökologischer Ziele in die Landschaftsplanung des ländlichen Raumes
Y1 - 1997
ER -
TY - JOUR
A1 - Rauch, Thomas
A1 - Quinet, P.
A1 - Hoyer, D.
A1 - Werner, K.
A1 - Richter, Philipp
A1 - Kruk, J. W.
A1 - Demleitner, M.
T1 - VII. New Kr IV - VII oscillator strengths and an improved spectral analysis of the hot, hydrogen-deficient DO-type white dwarf RE 0503-289
JF - Plant physiology : an international journal devoted to physiology, biochemistry, cellular and molecular biology, biophysics and environmental biology of plants
N2 - Context. For the spectral analysis of high-resolution and high signal-to-noise (S/N) spectra of hot stars, state-of-the-art non-local thermodynamic equilibrium (NLTE) model atmospheres are mandatory. These are strongly dependent on the reliability of the atomic data that is used for their calculation. Aims. New Kr IV-VII oscillator strengths for a large number of lines enable us to construct more detailed model atoms for our NLTE model-atmosphere calculations. This enables us to search for additional Kr lines in observed spectra and to improve Kr abundance determinations. Methods. We calculated Kr IV-VII oscillator strengths to consider radiative and collisional bound-bound transitions in detail in our NLTE stellar-atmosphere models for the analysis of Kr lines that are exhibited in high-resolution and high S/N ultraviolet (UV) observations of the hot white dwarf RE 0503-289. Results. We reanalyzed the effective temperature and surface gravity and determined T-eff = 70 000 +/- 2000 K and log (g/cm s(-2)) = 7.5 +/- 0.1. We newly identified ten Kr V lines and one Kr vi line in the spectrum of RE 0503-289. We measured a Kr abundance of 3.3 +/- 0.3 (logarithmic mass fraction). We discovered that the interstellar absorption toward RE 0503-289 has a multi-velocity structure within a radial-velocity interval of -40 km s(-1) < upsilon(rad) < +18 km s(-1). Conclusions. Reliable measurements and calculations of atomic data are a prerequisite for state-of-the-art NLTE stellar-atmosphere modeling. Observed Kr V-VII line profiles in the UV spectrum of the white dwarf RE 0503-289 were simultaneously well reproduced with our newly calculated oscillator strengths.
KW - atomic data
KW - line: identification
KW - stars: abundances
KW - stars: individual: RE 0503-289
KW - virtual observatory tools
KW - stars: individual: RE 0457-281
Y1 - 2016
U6 - https://doi.org/10.1051/0004-6361/201628131
SN - 1432-0746
VL - 590
PB - EDP Sciences
CY - Les Ulis
ER -
TY - JOUR
A1 - Böhm, Uwe
A1 - Kucken, M.
A1 - Hauffe, D.
A1 - Gerstengarbe, F. W.
A1 - Werner, P. C.
A1 - Flechsig, M.
A1 - Keuler, K.
A1 - Block, A.
A1 - Ahrens, W.
A1 - Nocke, T.
T1 - Reliability of regional climate model simulations of extremes and of long-term climate
N2 - We present two case studies that demonstrate how a common evaluation methodology can be used to assess the reliability of regional climate model simulations from different fields of research. In Case I, we focused on the agricultural yield loss risk for maize in Northeastern Brazil during a drought linked to an El-Nino event. In Case II, the present-day regional climatic conditions in Europe for a 10-year period are simulated. To comprehensively evaluate the model results for both kinds of investigations, we developed a general methodology. On its basis, we elaborated and implemented modules to assess the quality of model results using both advanced visualization techniques and statistical algorithms. Besides univariate approaches for individual near-surface parameters, we used multivariate statistics to investigate multiple near-surface parameters of interest together. For the latter case, we defined generalized quality measures to quantify the model's accuracy. Furthermore, we elaborated a diagnosis tool applicable for atmospheric variables to assess the model's accuracy in representing the physical processes above the surface under various aspects. By means of this evaluation approach, it could be demonstrated in Case Study I that the accuracy of the applied regional climate model resides at the same level as that we found for another regional model and a global model. Excessive precipitation during the rainy season in coastal regions could be identified as a major contribution leading to this result. In Case Study II, we also identified the accuracy of the investigated mean characteristics for near- surface temperature and precipitation to be comparable to another regional model. In this case, an artificial modulation of the used initial and boundary data during preprocessing could be identified as the major source of error in the simulation. Altogether, the achieved results for the presented investigations indicate the potential of our methodology to be applied as a common test bed to different fields of research in regional climate modeling
Y1 - 2004
SN - 1561-8633
ER -
TY - JOUR
A1 - Simons, Nadja K.
A1 - Lewinsohn, Thomas
A1 - Bluethgen, Nico
A1 - Buscot, Francois
A1 - Boch, Steffen
A1 - Daniel, Rolf
A1 - Gossner, Martin M.
A1 - Jung, Kirsten
A1 - Kaiser, Kristin
A1 - Müller, Jörg
A1 - Prati, Daniel
A1 - Renner, Swen C.
A1 - Socher, Stephanie A.
A1 - Sonnemann, Ilja
A1 - Weiner, Christiane N.
A1 - Werner, Michael
A1 - Wubet, Tesfaye
A1 - Wurst, Susanne
A1 - Weisser, Wolfgang W.
T1 - Contrasting effects of grassland management modes on species-abundance distributions of multiple groups
JF - Agriculture, ecosystems & environment : an international journal for scientific research on the relationship of agriculture and food production to the biosphere
N2 - Intensive land use is a major cause of biodiversity loss, but most studies comparing the response of multiple taxa rely on simple diversity measures while analyses of other community attributes are only recently gaining attention. Species-abundance distributions (SADs) are a community attribute that can be used to study changes in the overall abundance structure of species groups, and whether these changes are driven by abundant or rare species. We evaluated the effect of grassland management intensity for three land-use modes (fertilization, mowing, grazing) and their combination on species richness and SADs for three belowground (arbuscular mycorrhizal fungi, prokaryotes and insect larvae) and seven aboveground groups (vascular plants, bryophytes and lichens; arthropod herbivores; arthropod pollinators; bats and birds). Three descriptors of SADs were evaluated: general shape (abundance decay rate), proportion of rare species (rarity) and proportional abundance of the commonest species (dominance). Across groups, taxonomic richness was largely unaffected by land-use intensity and only decreased with increasing mowing intensity. Of the three SAD descriptors, abundance decay rate became steeper with increasing combined land-use intensity across groups. This reflected a decrease in rarity among plants, herbivores and vertebrates. Effects of fertilization on the three descriptors were similar to the combined land-use intensity effects. Mowing intensity only affected the SAD descriptors of insect larvae and vertebrates, while grazing intensity produced a range of effects on different descriptors in distinct groups. Overall, belowground groups had more even abundance distribtitions than aboveground groups. Strong differences among aboveground groups and between above- and belowground groups indicate that no single taxonomic group can serve as an indicator for effects in other groups. In the past, the use of SADs has been hampered by concerns over theoretical models underlying specific forms of SADs. Our study shows that SAD descriptors that are not connected to a particular model are suitable to assess the effect of land use on community structure.
KW - Biodiversity
KW - Cutting frequency
KW - Management intensity
KW - Rank-abundance
KW - Species loss
KW - Rarity
Y1 - 2017
U6 - https://doi.org/10.1016/j.agee.2016.12.022
SN - 0167-8809
SN - 1873-2305
VL - 237
SP - 143
EP - 153
PB - Elsevier
CY - Amsterdam
ER -
TY - CHAP
A1 - Kusterer, D.-J.
A1 - Nagel, T.
A1 - Werner, K.
A1 - Feldmeier, Achim
T1 - Radiative transfer in CV disk winds
N2 - Mass accretion onto compact objects through accretion disks is a common phenomenon in the universe. It is seen in all energy domains from active galactic nuclei through cataclysmic variables (CVs) to young stellar objects. Because CVs are fairly easy to observe, they provide an ideal opportunity to study accretion disks in great detail and thus help us to understand accretion also in other energy ranges. Mass accretion in these objects is often accompanied by mass outflow from the disks. This accretion disk wind, at least in CVs, is thought to be radiatively driven, similar to O star winds. WOMPAT, a 3-D Monte Carlo radiative transfer code for accretion disk winds of CVs is presented.
Y1 - 2007
U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-17847
ER -
TY - JOUR
A1 - Kusterer, D. -J.
A1 - Nagel, T.
A1 - Hartmann, S.
A1 - Werner, K.
A1 - Feldmeier, Achim
T1 - Monte Carlo radiation transfer in CV disk winds: application to the AM CVn prototype
JF - Astronomy and astrophysics : an international weekly journal
N2 - Context. AMCVn systems are ultracompact binaries in which a (semi-) degenerate star transfers helium-dominated matter onto a white dwarf. They are effective gravitational-wave emitters and potential progenitors of Type Ia supernovae.
Aims. To understand the evolution of AMCVn systems it is necessary to determine their mass-loss rate through their radiation-driven accretion-disk wind. We constructed models to perform quantitative spectroscopy of P Cygni line profiles that were detected in UV spectra.
Methods. We performed 2.5D Monte Carlo radiative transfer calculations in hydrodynamic wind structures by making use of realistic NLTE spectra from the accretion disk and by accounting for the white dwarf as an additional photon source.
Results. We present first results from calculations in which LTE opacities are used in the wind model. A comparison with UV spectroscopy of the AMCVn prototype shows that the modeling procedure is potentially a good tool for determining mass-loss rates and abundances of trace metals in the helium-rich wind.
KW - radiative transfer
KW - stars: winds, outflows
KW - stars: individual: AM CVn
KW - accretion, accretion disks
Y1 - 2014
U6 - https://doi.org/10.1051/0004-6361/201321438
SN - 0004-6361
SN - 1432-0746
VL - 561
PB - EDP Sciences
CY - Les Ulis
ER -
TY - JOUR
A1 - Moser, Othmar
A1 - Mader, Julia K.
A1 - Tschakert, Gerhard
A1 - Mueller, Alexander
A1 - Groeschl, Werner
A1 - Pieber, Thomas R.
A1 - Koehler, Gerd
A1 - Messerschmidt, Janin
A1 - Hofmann, Peter
T1 - Accuracy of Continuous Glucose Monitoring (CGM) during Continuous and High-Intensity Interval Exercise in Patients with Type 1 Diabetes Mellitus
JF - Nutrients
N2 - Continuous exercise (CON) and high-intensity interval exercise (HIIE) can be safely performed with type 1 diabetes mellitus (T1DM). Additionally, continuous glucose monitoring (CGM) systems may serve as a tool to reduce the risk of exercise-induced hypoglycemia. It is unclear if CGM is accurate during CON and HIIE at different mean workloads. Seven T1DM patients performed CON and HIIE at 5% below (L) and above (M) the first lactate turn point (LTP1), and 5% below the second lactate turn point (LTP2) (H) on a cycle ergometer. Glucose was measured via CGM and in capillary blood (BG). Differences were found in comparison of CGM vs. BG in three out of the six tests (p < 0.05). In CON, bias and levels of agreement for L, M, and H were found at: 0.85 (-3.44, 5.15) mmol.L-1, -0.45 (-3.95, 3.05) mmol.L-1, -0.31 (-8.83, 8.20) mmol.L-1 and at 1.17 (-2.06, 4.40) mmol.L-1, 0.11 (-5.79, 6.01) mmol.L-1, 1.48 (-2.60, 5.57) mmol.L-1 in HIIE for the same intensities. Clinically-acceptable results (except for CON H) were found. CGM estimated BG to be clinically acceptable, except for CON H. Additionally, using CGM may increase avoidance of exercise-induced hypoglycemia, but usual BG control should be performed during intense exercise.
KW - continuous glucose monitoring
KW - exercise
KW - diabetes
KW - blood glucose
Y1 - 2016
U6 - https://doi.org/10.3390/nu8080489
SN - 2072-6643
VL - 8
PB - MDPI
CY - Basel
ER -
TY - GEN
A1 - Moser, Othmar
A1 - Mader, Julia K.
A1 - Tschakert, Gerhard
A1 - Mueller, Alexander
A1 - Groeschl, Werner
A1 - Pieber, Thomas R.
A1 - Koehler, Gerd
A1 - Messerschmidt, Janin
A1 - Hofmann, Peter
T1 - Accuracy of Continuous Glucose Monitoring (CGM) during continuous and high-intensity interval exercise in patients with Type 1 Diabetes Mellitus
N2 - Continuous exercise (CON) and high-intensity interval exercise (HIIE) can be safely performed with type 1 diabetes mellitus (T1DM). Additionally, continuous glucose monitoring (CGM) systems may serve as a tool to reduce the risk of exercise-induced hypoglycemia. It is unclear if CGM is accurate during CON and HIIE at different mean workloads. Seven T1DM patients performed CON and HIIE at 5% below (L) and above (M) the first lactate turn point (LTP1), and 5% below the second lactate turn point (LTP2) (H) on a cycle ergometer. Glucose was measured via CGM and in capillary blood (BG). Differences were found in comparison of CGM vs. BG in three out of the six tests (p < 0.05). In CON, bias and levels of agreement for L, M, and H were found at: 0.85 (−3.44, 5.15) mmol·L−1, −0.45 (−3.95, 3.05) mmol·L−1, −0.31 (−8.83, 8.20) mmol·L−1 and at 1.17 (−2.06, 4.40) mmol·L−1, 0.11 (−5.79, 6.01) mmol·L−1, 1.48 (−2.60, 5.57) mmol·L−1 in HIIE for the same intensities. Clinically-acceptable results (except for CON H) were found. CGM estimated BG to be clinically acceptable, except for CON H. Additionally, using CGM may increase avoidance of exercise-induced hypoglycemia, but usual BG control should be performed during intense exercise.
T3 - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - 338
KW - continuous glucose monitoring
KW - exercise
KW - diabetes
KW - blood glucose
Y1 - 2017
U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-400470
ER -
TY - JOUR
A1 - Reindl, Nicole
A1 - Rauch, Thomas
A1 - Parthasarathy, M.
A1 - Werner, K.
A1 - Kruk, J. W.
A1 - Hamann, Wolf-Rainer
A1 - Sander, Andreas Alexander Christoph
A1 - Todt, Helge Tobias
T1 - The rapid evolution of the exciting star of the Stingray nebula
JF - Astronomy and astrophysics : an international weekly journal
N2 - Context. SAO 244567, the exciting star of the Stingray nebula, is rapidly evolving. Previous analyses suggested that it has heated up from an effective temperature of about 21 kK in 1971 to over 50 kK in the 1990s. Canonical post-asymptotic giant branch evolution suggests a relatively high mass while previous analyses indicate a low-mass star.
Aims. A comprehensive model-atmosphere analysis of UV and optical spectra taken during 1988-2006 should reveal the detailed temporal evolution of its atmospheric parameters and provide explanations for the unusually fast evolution.
Methods. Fitting line profiles from static and expanding non-LTE model atmospheres to the observed spectra allowed us to study the temporal change of effective temperature, surface gravity, mass-loss rate, and terminal wind velocity. In addition, we determined the chemical composition of the atmosphere.
Results. We find that the central star has steadily increased its effective temperature from 38 kK in 1988 to a peak value of 60 kK in 2002. During the same time, the star was contracting, as concluded from an increase in surface gravity from log g = 4.8 to 6.0 and a drop in luminosity. Simultaneously, the mass-loss rate declined from log(M/M-circle dot yr(-1)) = -9.0 to -11.6 and the terminal wind velocity increased from v(infinity) = 1800 km s(-1) to 2800 km s(-1). Since around 2002, the star stopped heating and has cooled down again to 55 kK by 2006. It has a largely solar surface composition with the exception of slightly subsolar carbon, phosphorus, and sulfur. The results are discussed by considering different evolutionary scenarios.
Conclusions. The position of SAO 244567 in the log T-eff-log g plane places the star in the region of sdO stars. By comparison with stellar-evolution calculations, we confirm that SAO 244567 must be a low-mass star (M < 0.55 M-circle dot). However, the slow evolution of the respective stellar evolutionary models is in strong contrast to the observed fast evolution and the young planetary nebula with a kinematical age of only about 1000 years. We speculate that the star could be a late He-shell flash object. Alternatively, it could be the outcome of close-binary evolution. Then SAD 244567 would be a low-mass (0.354 M-circle dot) helium pre-white dwarf after the common-envelope phase, during which the planetary nebula was ejected.
KW - stars: abundances
KW - stars: evolution
KW - stars: AGB and post-AGB
KW - stars: individual: SAO 244567
KW - stars: fundamental parameters
KW - planetary nebulae: individual: Stingray nebula (Henize 3-1357)
Y1 - 2014
U6 - https://doi.org/10.1051/0004-6361/201323189
SN - 0004-6361
SN - 1432-0746
VL - 565
PB - EDP Sciences
CY - Les Ulis
ER -
TY - JOUR
A1 - Reindl, Nicole
A1 - Rauch, Thomas
A1 - Miller Bertolami, Marcelo Miguel
A1 - Todt, Helge Tobias
A1 - Werner, K.
T1 - Breaking news from the HST
BT - the central star of the Stingray Nebula is now returning towards the AGB
JF - Monthly notices of the Royal Astronomical Society
N2 - SAO 244567 is a rare example of a star that allows us to witness stellar evolution in real time. Between 1971 and 1990, it changed from a B-type star into the hot central star of the Stingray Nebula. This observed rapid heating has been a mystery for decades, since it is in strong contradiction with the low mass of the star and canonical post-asymptotic giant branch (AGB) evolution. We speculated that SAO 244567 might have suffered from a late thermal pulse (LTP) and obtained new observations with Hubble Space Telescope (HST)/COS to follow the evolution of the surface properties of SAO 244567 and to verify the LTP hypothesis. Our non-LTE spectral analysis reveals that the star cooled significantly since 2002 and that its envelope is now expanding. Therefore, we conclude that SAO 244567 is currently on its way back towards the AGB, which strongly supports the LTP hypothesis. A comparison with state-of-the-art LTP evolutionary calculations shows that these models cannot fully reproduce the evolution of all surface parameters simultaneously, pointing out possible shortcomings of stellar evolution models. Thereby, SAO 244567 keeps on challenging stellar evolution theory and we highly encourage further investigations.
KW - stars: AGB and post-AGB
KW - stars: atmospheres
KW - stars: evolution
Y1 - 2016
U6 - https://doi.org/10.1093/mnrasl/slw175
SN - 0035-8711
SN - 1365-2966
VL - 464
SP - L51
EP - L55
PB - Oxford Univ. Press
CY - Oxford
ER -
TY - JOUR
A1 - Bauer-Gogonea, Simona
A1 - Cheng, Z. Y.
A1 - Wirges, Werner
A1 - Bauer, Siegfried
A1 - Gerhard, Reimund
A1 - Das-Gupta, D. K.
T1 - Dielectric investigation of thermally-induced chromophore degradation in nonlinear optical polymer electrets
Y1 - 1998
ER -
TY - JOUR
A1 - Burkart, Bettina
A1 - Burkart, Michael
A1 - Gärtner, P.
A1 - Heyne, K.
A1 - Katscher, Kathleen
A1 - Prochnow, Annette
A1 - Segert, Astrid
A1 - Siniza, Swetlana
A1 - Striese, Michael
A1 - Tschöpe, Okka
A1 - Konold, Werner
T1 - Offenhaltung durch Beweidung mit Wildtieren
Y1 - 2002
ER -
TY - JOUR
A1 - Manning, Pete
A1 - Gossner, Martin M.
A1 - Bossdorf, Oliver
A1 - Allan, Eric
A1 - Zhang, Yuan-Ye
A1 - Prati, Daniel
A1 - Blüthgen, Nico
A1 - Boch, Steffen
A1 - Böhm, Stefan
A1 - Börschig, Carmen
A1 - Hölzel, Norbert
A1 - Jung, Kirsten
A1 - Klaus, Valentin H.
A1 - Klein, Alexandra-Maria
A1 - Kleinebecker, Till
A1 - Krauss, Jochen
A1 - Lange, Markus
A1 - Müller, Jörg
A1 - Pasalic, Esther
A1 - Socher, Stephanie A.
A1 - Tschapka, Marco
A1 - Türke, Manfred
A1 - Weiner, Christiane
A1 - Werner, Michael
A1 - Gockel, Sonja
A1 - Hemp, Andreas
A1 - Renner, Swen C.
A1 - Wells, Konstans
A1 - Buscot, Francois
A1 - Kalko, Elisabeth K. V.
A1 - Linsenmair, Karl Eduard
A1 - Weisser, Wolfgang W.
A1 - Fischer, Markus
T1 - Grassland management intensification weakens the associations among the diversities of multiple plant and animal taxa
JF - Ecology : a publication of the Ecological Society of America
N2 - Land-use intensification is a key driver of biodiversity change. However, little is known about how it alters relationships between the diversities of different taxonomic groups, which are often correlated due to shared environmental drivers and trophic interactions. Using data from 150 grassland sites, we examined how land-use intensification (increased fertilization, higher livestock densities, and increased mowing frequency) altered correlations between the species richness of 15 plant, invertebrate, and vertebrate taxa. We found that 54% of pairwise correlations between taxonomic groups were significant and positive among all grasslands, while only one was negative. Higher land-use intensity substantially weakened these correlations(35% decrease in rand 43% fewer significant pairwise correlations at high intensity), a pattern which may emerge as a result of biodiversity declines and the breakdown of specialized relationships in these conditions. Nevertheless, some groups (Coleoptera, Heteroptera, Hymenoptera and Orthoptera) were consistently correlated with multidiversity, an aggregate measure of total biodiversity comprised of the standardized diversities of multiple taxa, at both high and lowland-use intensity. The form of intensification was also important; increased fertilization and mowing frequency typically weakened plant-plant and plant-primary consumer correlations, whereas grazing intensification did not. This may reflect decreased habitat heterogeneity under mowing and fertilization and increased habitat heterogeneity under grazing. While these results urge caution in using certain taxonomic groups to monitor impacts of agricultural management on biodiversity, they also suggest that the diversities of some groups are reasonably robust indicators of total biodiversity across a range of conditions.
KW - Biodiversity indicators
KW - correlation
KW - fertilization
KW - grassland management
KW - grazing
KW - land-use change
KW - land-use intensity
KW - mowing
KW - multidiversity
KW - multitrophic interactions
Y1 - 2015
U6 - https://doi.org/10.1890/14-1307.1
SN - 0012-9658
SN - 1939-9170
VL - 96
IS - 6
SP - 1492
EP - 1501
PB - Wiley
CY - Washington
ER -
TY - GEN
A1 - Werner, John S.
A1 - Donnelly, Seaneen K.
A1 - Kliegl, Reinhold
T1 - Aging and human macular pigment density : appended with translations from the work of Max Schultze and Ewald Hering
N2 - The optical density of human macular pigment was measured for 50 observers ranging in age from 10 to 90 years. The psychophysical method required adjusting the radiance of a 1°, monochromatic light (400–550 nm) to minimize flicker (15 Hz) when presented in counterphase with a 460 nm standard. This test stimulus was presented superimposed on a broad-band, short-wave background. Macular pigment density was determined by comparing sensitivity under these conditions for the fovea, where macular pigment is maximal, and 5° temporally. This difference spectrum, measured for 12 observers, matched Wyszecki and Stiles's standard density spectrum for macular pigment. To study variation in macular pigment density for a larger group of observers, measurements were made at only selected spectral points (460, 500 and 550 nm). The mean optical density at 460 nm for the complete sample of 50 subjects was 0.39. Substantial individual differences in density were found (ca. 0.10–0.80), but this variation was not systematically related to age.
T3 - Zweitveröffentlichungen der Universität Potsdam : Humanwissenschaftliche Reihe - paper 037
KW - Macular pigment
KW - Color vision Aging
Y1 - 1987
U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-16836
ER -
TY - JOUR
A1 - Reindl, Nicole
A1 - Bainbridge, M.
A1 - Przybilla, Norbert
A1 - Geier, Stephan
A1 - Prvak, M.
A1 - Krticka, Jiri
A1 - Ostensen, R. H.
A1 - Telting, J.
A1 - Werner, K.
T1 - Unravelling the baffling mystery of the ultrahot wind phenomenon in white dwarfs
JF - Monthly notices of the Royal Astronomical Society
N2 - The presence of ultrahigh excitation (UHE) absorption lines (e.g. OVIII) in the optical spectra of several of the hottest white dwarfs poses a decades-long mystery and is something that has never been observed in any other astrophysical object. The occurrence of such features requires a dense environment with temperatures near 10(6) K, by far exceeding the stellar effective temperature. Here we report the discovery of a new hot wind white dwarf, GALEXJ014636.8+323615. Astonishingly, we found for the first time rapid changes of the equivalent widths of the UHE features, which are correlated to the rotational period of the star (P=0.242035 d). We explain this with the presence of a wind-fed circumstellar magnetosphere in which magnetically confined wind shocks heat up the material to the high temperatures required for the creation of the UHE lines. The photometric and spectroscopic variability of GALEXJ014636.8+323615 can then be understood as consequence of the obliquity of the magnetic axis with respect to the rotation axis of the white dwarf. This is the first time a wind-fed circumstellar magnetosphere around an apparently isolated white dwarf has been discovered and finally offers a plausible explanation of the ultrahot wind phenomenon.
KW - stars: AGB and post-AGB
KW - stars: evolution
KW - stars: magnetic field
Y1 - 2018
U6 - https://doi.org/10.1093/mnrasl/sly191
SN - 0035-8711
SN - 1365-2966
VL - 482
IS - 1
SP - L93
EP - L98
PB - Oxford Univ. Press
CY - Oxford
ER -