Search Results - "Reischke, R"

KiDS + GAMA: constraints on horndeski gravity from combined large-scale structure probes by Spurio Mancini, A, Köhlinger, F, Joachimi, B, Pettorino, V, Schäfer, B M, Reischke, R, van Uitert, E, Brieden, S, Archidiacono, M, Lesgourgues, J

“…ABSTRACT We present constraints on Horndeski gravity from a combined analysis of cosmic shear, galaxy–galaxy lensing and galaxy clustering from $450\,…”
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Testing (modified) gravity with 3D and tomographic cosmic shear by Spurio Mancini, A, Reischke, R, Pettorino, V, Schäfer, B M, Zumalacárregui, M

“…Cosmic shear is one of the primary probes to test gravity with current and future surveys. There are two main techniques to analyse a cosmic shear survey: a…”
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Extreme value statistics of weak lensing shear peak counts by Reischke, R., Maturi, M., Bartelmann, M.

“…The statistics of peaks in weak gravitational lensing maps is a promising technique to constrain cosmological parameters in present and future surveys. Here we…”
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The N5K Challenge: Non-Limber Integration for LSST Cosmology by Leonard, C. Danielle, Ferreira, Tassia, Fang, Xiao, Reischke, Robert, Schoeneberg, Nils, Tröster, Tilman, Alonso, David, Campagne, Jean-Eric, Lanusse, François, Slosar, Anže, Ishak, Mustapha

“…The rapidly increasing statistical power of cosmological imaging surveys requires us to reassess the regime of validity for various approximations that…”
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The N5K Challenge: Non-Limber Integration for LSST Cosmology by Leonard, C. D, Ferreira, T, Fang, X, Reischke, R, Schoeneberg, N, Tröster, T, Alonso, D, Campagne, J. E, Lanusse, F, Slosar, A, Ishak, M, Collaboration, the LSST Dark Energy Science

“…The rapidly increasing statistical power of cosmological imaging surveys requires us to reassess the regime of validity for various approximations that…”
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Euclid and KiDS-1000: Quantifying the impact of source-lens clustering on cosmic shear analyses by Unruh, S, Schrabback, T, Hoekstra, H, Joachimi, B, Wright, A. H, Aghanim, N, Altieri, B, Amara, A, Andreon, S, Baccigalupi, C, Baldi, M, Branchini, E, Brescia, M, Brinchmann, J, Capobianco, V, Carbone, C, Cardone, V. F, Castellano, M, Cavuoti, S, Cimatti, A, Conselice, C. J, Conversi, L, Copin, Y, Courtois, H. M, Degaudenzi, H, Dinis, J, Dupac, X, Dusini, S, Farrens, S, Ferriol, S, Fosalba, P, Franceschi, E, Galeotta, S, Gillis, B, Grazian, A, Grupp, F, Guzzo, L, Haugan, S. V. H, Holmes, W, Hook, I, Hormuth, F, Hornstrup, A, Jahnke, K, Keihänen, E, Kermiche, S, Kiessling, A, Kilbinger, M, Kuijken, K, Kümmel, M, Kurki-Suonio, H, Lilje, P. B, Lindholm, V, Lloro, I, Maiorano, E, Mansutti, O, Marggraf, O, Markovic, K, Marulli, F, Massey, R, Medinaceli, E, Meneghetti, M, Meylan, G, Moscardini, L, Nakajima, R, Nichol, R. C, Niemi, S. -M, Nightingale, J. W, Padilla, C, Paltani, S, Pasian, F, Pedersen, K, Pires, S, Polenta, G, Poncet, M, Popa, L. A, Raison, F, Rebolo, R, Rhodes, J, Riccio, G, Romelli, E, Roncarelli, M, Saglia, R, Sakr, Z, Sapone, D, Sartoris, B, Seidel, G, Serrano, S, Sirignano, C, Sirri, G, Stanco, L, Tutusaus, I, Vassallo, T, Veropalumbo, A, Wang, Y, Weller, J, Zamorani, G, Zucca, E, Burigana, C, Pezzotta, A, Scottez, V

“…Cosmic shear is a powerful probe of cosmological models and the transition from current Stage-III surveys like the Kilo-Degree Survey (KiDS) to the increased…”
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DES Y3 + KiDS-1000: Consistent cosmology combining cosmic shear surveys by Survey, Dark Energy, Collaboration, Kilo-Degree Survey, :, Abbott, T. M. C, Alarcon, A, Alves, O, Asgari, M, Avila, S, Bacon, D, Bechtol, K, Bernstein, G. M, Bertin, E, Brooks, D, Camacho, H, Rosell, A. Carnero, Kind, M. Carrasco, Cawthon, R, Chen, R, Conselice, C, da Costa, L. N, Pereira, M. E. da Silva, de Jong, J. T. A, Desai, S, Diehl, H. T, Dodelson, S, Doel, P, Doux, C, Drlica-Wagner, A, Dvornik, A, Eckert, K, Eifler, T. F, Elvin-Poole, J, Fang, X, Ferté, A, Frieman, J, García-Bellido, J, Gatti, M, Giannini, G, Gruen, D, Gruendl, R. A, Gutierrez, G, Hartley, W. G, Heymans, C, Hildebrandt, H, Hoekstra, H, Honscheid, K, Huterer, D, James, D. J, Jarvis, M, Jeffrey, N, Joachimi, B, Joudaki, S, Kannawadi, A, Kuropatkin, N, Lahav, O, Lemos, P, Li, X, Liddle, A. R, Lima, M, Lin, C. -A, Lin, H, MacCrann, N, Menanteau, F, Miquel, R, Mohr, J. J, Myles, J, Navarro-Alsina, A, Ogando, R. L. C, Paterno, M, Peacock, J. A, Pieres, A, Malagón, A. A. Plazas, Porredon, A, Raveri, M, Reischke, R, Robertson, N. C, Rollins, R. P, Romer, A. K, Rykoff, E. S, Sánchez, C, Sanchez, J, Schneider, P, Secco, L. F, Sheldon, E, Shin, T, Sifón, C, Smith, M, Stölzner, B, Tarle, G, To, C, Troxel, M. A, Tröster, T, Busch, J. L. van den, Wechsler, R. H, Weller, J, Wright, A. H, Yanny, B, Yin, B, Yoon, M, Zhang, Y

“…We present a joint cosmic shear analysis of the Dark Energy Survey (DES Y3) and the Kilo-Degree Survey (KiDS-1000) in a collaborative effort between the two…”
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Testing (modified) gravity with 3D and tomographic cosmic shear by Mancini, A. Spurio, Reischke, R, Pettorino, V, Schäfer, B. M, Zumalacárregui, M

“…MNRAS, Volume 480, Issue 3, 1 November 2018, Pages 3725-3738 Cosmic shear is one of the primary probes to test gravity with current and future surveys. There…”
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3D cosmic shear: numerical challenges, 3D lensing random fields generation and Minkowski Functionals for cosmological inference by Mancini, A. Spurio, Taylor, P. L, Reischke, R, Kitching, T, Pettorino, V, Schäfer, B. M, Zieser, B, Merkel, Ph. M

“…Phys. Rev. D 98, 103507 (2018) Cosmic shear - the weak gravitational lensing effect generated by fluctuations of the gravitational tidal fields of the…”
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