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61by Bocquet, Sebastian, Saro, Alex, Dolag, Klaus, Mohr, Joseph J.“... of their number density. This effect vanishes at high redshift $z\sim2$ and for high masses $M_{200\textrm m...”
Published in Monthly Notices of the Royal Astronomical Society (2015)
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62by Alfultis, Michael Aaron“... of the STMW layer is N${\sim}2.0\times10\sp{-4}\sp\circ$C per 100 m per day. The STMW layer which...”
Published 1997
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63by Savage, Kathleen, 1967-“... the warmest, driest sites with faster nutrient cycling processes and thin ($ sim$2 to 10 cm) organic layers...”
Published 1995
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64by Santucci, Giulia, Brough, Sarah, Scott, Nicholas, Montes, Mireia, Owers, Matt S., van de Sande, Jesse, Bland-Hawthorn, Joss, Bryant, Julia J., Croom, Scott M., Ferreras, Ignacio, Lawrence, Jon S., López-Sánchez, Ángel R., Richards, Samuel N.“... passive central galaxies up to $\sim 2 R_e$. The targeted groups have a halo mass range spanning from $11...”
Published 2020
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65by Davies, Rebecca L., Schreiber, N. M. Förster, Genzel, R., Shimizu, T. T., Davies, R. I., Schruba, A., Tacconi, L. J., Übler, H., Wisnioski, E., Wuyts, S., Fossati, M., Herrera-Camus, R., Lutz, D., Mendel, J. T., Naab, T., Price, S. H., Renzini, A., Wilman, D., Beifiori, A., Belli, S., Burkert, A., Chan, J., Contursi, A., Fabricius, M., Lee, M. M., Saglia, R. P., Sternberg, A.“... material decreases from 187$^{+140}_{-132}$ cm$^{-3}$ at $z\sim$ 2.2 to 32$^{+4}_{-9}$ cm$^{-3}$ at $z\sim...”
Published 2020
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66by Davies, Rebecca L., Schreiber, N. M. Förster, Genzel, R., Shimizu, T. T., Davies, R. I., Schruba, A., Tacconi, L. J., Übler, H., Wisnioski, E., Wuyts, S., Fossati, M., Herrera-Camus, R., Lutz, D., Mendel, J. T., Naab, T., Price, S. H., Renzini, A., Wilman, D., Beifiori, A., Belli, S., Burkert, A., Chan, J., Contursi, A., Fabricius, M., Lee, M. M., Saglia, R. P., Sternberg, A.“...-emitting material decreases from 187$^{+140}_{-132}$ cm$^{-3}$ at $z\sim$ 2.2 to 32$^{+4}_{-9}$ cm$^{-3...”
Published in The Astrophysical Journal (2020)
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67by Santucci, Giulia, Brough, Sarah, Scott, Nicholas, Montes, Mireia, Owers, Matt S., van de Sande, Jesse, Bland-Hawthorn, Joss, Bryant, Julia J., Croom, Scott M., Ferreras, Ignacio, Lawrence, Jon S., López-Sánchez, Ángel R., Richards, Samuel N.“...$ 100 passive central galaxies up to $\sim 2 R_e$. The targeted groups have a halo mass range spanning...”
Published in The Astrophysical Journal (2020)
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68by Bernier, Louis, 1961-“...-T conditions of ${ sim}2.5$ kbar and ${ sim}55 sp circ$C at Atik Lake (andalusite zone), ${ sim}4.5$ kbar...”
Published 1992
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69by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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70by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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71by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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72by Ansarinejad, B, Raghunathan, S, Abbott, T.M.C, Ade, P.A.R, Aguena, M, Alves, O, Anderson, A.J, Andrade-Oliveira, F, Archipley, M, Balkenhol, L, Benabed, K, Bender, A.N, Benson, B.A, Bertin, E, Bianchini, F, Bleem, L.E, Bocquet, S, Bouchet, F.R, Brooks, D, Bryant, L, Burke, D.L, Camphuis, E, Carlstrom, J.E, Carnero Rosell, A, Carretero, J, Castander, F.J, Cecil, T.W, Chang, C.L, Chaubal, P, Chichura, P.M, Chou, T.-L, Coerver, A, Costanzi, M, Crawford, T.M, Cukierman, A, da Costa, L.N, Daley, C, Davis, T.M, de Haan, T, Desai, S, de Vicente, J, Dibert, K.R, Dobbs, M.A, Doel, P, Doussot, A, Doux, C, Dutcher, D, Everett, W, Feng, C, Ferguson, K.R, Ferrero, I, Fichman, K, Foster, A, Frieman, J, Galli, S, Gambrel, A.E, García-Bellido, J, Gardner, R.W, Gaztanaga, E, Ge, F, Giannini, G, Goeckner-Wald, N, Grandis, S, Gruendl, R.A, Gualtieri, R, Guidi, F, Guns, S, Gutierrez, G, Halverson, N.W, Hinton, S.R, Hivon, E, Holder, G.P, Hollowood, D.L, Holzapfel, W.L, Honscheid, K, Hood, J.C, Huang, N, James, D.J, Kéruzoré, F, Knox, L, Korman, M, Kuo, C.-L, Lee, A.T, Lee, S, Levy, K, Lowitz, A.E, Lu, C, Maniyar, A, Marshall, J.L, Mena-Fernández, J, Menanteau, F, Miquel, R, Millea, M, Mohr, J.J, Montgomery, J, Nakato, Y, Natoli, T, Noble, G.I, Novosad, V, Ogando, R.L.C, Omori, Y, Padin, S, Palmese, A, Pan, Z, Paschos, P, Pereira, M.E.S, Pieres, A, Plazas Malagón, A.A, Prabhu, K, Quan, W, Rahlin, A, Rahimi, M, Reichardt, C.L, Reil, K, Romer, A.K, Rouble, M, Ruhl, J.E, Sanchez, E, Sanchez Cid, D, Schiappucci, E, Sevilla-Noarbe, I, Smecher, G, Smith, M, Sobrin, J.A, Stark, A.A, Stephen, J, Suchyta, E, Suzuki, A, Swanson, M.E.C, Tandoi, C, Tarle, G, Thompson, K.L, Thorne, B, Trendafilova, C, Tucker, C, Umilta, C, Vieira, J.D, Wang, G, Weaverdyck, N, Whitehorn, N, Wiseman., P, Wu, W.L.K, Yefremenko, V, Young, M.R, Zebrowski., J.A“...$ [stat.]$\pm0.05$ [sys.]$\times{10}^{14}\ {\rm{M}}_{\odot }$, respectively. This is a factor of $\sim2...”
Published 2024
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73by Ansarinejad, B, Raghunathan, S, Abbott, T.M.C, Ade, P.A.R, Aguena, M, Alves, O, Anderson, A.J, Andrade-Oliveira, F, Archipley, M, Balkenhol, L, Benabed, K, Bender, A.N, Benson, B.A, Bertin, E, Bianchini, F, Bleem, L.E, Bocquet, S, Bouchet, F.R, Brooks, D, Bryant, L, Burke, D.L, Camphuis, E, Carlstrom, J.E, Carnero Rosell, A, Carretero, J, Castander, F.J, Cecil, T.W, Chang, C.L, Chaubal, P, Chichura, P.M, Chou, T.-L, Coerver, A, Costanzi, M, Crawford, T.M, Cukierman, A, da Costa, L.N, Daley, C, Davis, T.M, de Haan, T, Desai, S, de Vicente, J, Dibert, K.R, Dobbs, M.A, Doel, P, Doussot, A, Doux, C, Dutcher, D, Everett, W, Feng, C, Ferguson, K.R, Ferrero, I, Fichman, K, Foster, A, Frieman, J, Galli, S, Gambrel, A.E, García-Bellido, J, Gardner, R.W, Gaztanaga, E, Ge, F, Giannini, G, Goeckner-Wald, N, Grandis, S, Gruendl, R.A, Gualtieri, R, Guidi, F, Guns, S, Gutierrez, G, Halverson, N.W, Hinton, S.R, Hivon, E, Holder, G.P, Hollowood, D.L, Holzapfel, W.L, Honscheid, K, Hood, J.C, Huang, N, James, D.J, Kéruzoré, F, Knox, L, Korman, M, Kuo, C.-L, Lee, A.T, Lee, S, Levy, K, Lowitz, A.E, Lu, C, Maniyar, A, Marshall, J.L, Mena-Fernández, J, Menanteau, F, Miquel, R, Millea, M, Mohr, J.J, Montgomery, J, Nakato, Y, Natoli, T, Noble, G.I, Novosad, V, Ogando, R.L.C, Omori, Y, Padin, S, Palmese, A, Pan, Z, Paschos, P, Pereira, M.E.S, Pieres, A, Plazas Malagón, A.A, Prabhu, K, Quan, W, Rahlin, A, Rahimi, M, Reichardt, C.L, Reil, K, Romer, A.K, Rouble, M, Ruhl, J.E, Sanchez, E, Sanchez Cid, D, Schiappucci, E, Sevilla-Noarbe, I, Smecher, G, Smith, M, Sobrin, J.A, Stark, A.A, Stephen, J, Suchyta, E, Suzuki, A, Swanson, M.E.C, Tandoi, C, Tarle, G, Thompson, K.L, Thorne, B, Trendafilova, C, Tucker, C, Umilta, C, Vieira, J.D, Wang, G, Weaverdyck, N, Whitehorn, N, Wiseman., P, Wu, W.L.K, Yefremenko, V, Young, M.R, Zebrowski., J.A“...$ [stat.]$\pm0.05$ [sys.]$\times{10}^{14}\ {\rm{M}}_{\odot }$, respectively. This is a factor of $\sim2...”
Published 2024
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74by Ansarinejad, B, Raghunathan, S, Abbott, T.M.C, Ade, P.A.R, Aguena, M, Alves, O, Anderson, A.J, Andrade-Oliveira, F, Archipley, M, Balkenhol, L, Benabed, K, Bender, A.N, Benson, B.A, Bertin, E, Bianchini, F, Bleem, L.E, Bocquet, S, Bouchet, F.R, Brooks, D, Bryant, L, Burke, D.L, Camphuis, E, Carlstrom, J.E, Carnero Rosell, A, Carretero, J, Castander, F.J, Cecil, T.W, Chang, C.L, Chaubal, P, Chichura, P.M, Chou, T.-L, Coerver, A, Costanzi, M, Crawford, T.M, Cukierman, A, da Costa, L.N, Daley, C, Davis, T.M, de Haan, T, Desai, S, de Vicente, J, Dibert, K.R, Dobbs, M.A, Doel, P, Doussot, A, Doux, C, Dutcher, D, Everett, W, Feng, C, Ferguson, K.R, Ferrero, I, Fichman, K, Foster, A, Frieman, J, Galli, S, Gambrel, A.E, García-Bellido, J, Gardner, R.W, Gaztanaga, E, Ge, F, Giannini, G, Goeckner-Wald, N, Grandis, S, Gruendl, R.A, Gualtieri, R, Guidi, F, Guns, S, Gutierrez, G, Halverson, N.W, Hinton, S.R, Hivon, E, Holder, G.P, Hollowood, D.L, Holzapfel, W.L, Honscheid, K, Hood, J.C, Huang, N, James, D.J, Kéruzoré, F, Knox, L, Korman, M, Kuo, C.-L, Lee, A.T, Lee, S, Levy, K, Lowitz, A.E, Lu, C, Maniyar, A, Marshall, J.L, Mena-Fernández, J, Menanteau, F, Miquel, R, Millea, M, Mohr, J.J, Montgomery, J, Nakato, Y, Natoli, T, Noble, G.I, Novosad, V, Ogando, R.L.C, Omori, Y, Padin, S, Palmese, A, Pan, Z, Paschos, P, Pereira, M.E.S, Pieres, A, Plazas Malagón, A.A, Prabhu, K, Quan, W, Rahlin, A, Rahimi, M, Reichardt, C.L, Reil, K, Romer, A.K, Rouble, M, Ruhl, J.E, Sanchez, E, Sanchez Cid, D, Schiappucci, E, Sevilla-Noarbe, I, Smecher, G, Smith, M, Sobrin, J.A, Stark, A.A, Stephen, J, Suchyta, E, Suzuki, A, Swanson, M.E.C, Tandoi, C, Tarle, G, Thompson, K.L, Thorne, B, Trendafilova, C, Tucker, C, Umilta, C, Vieira, J.D, Wang, G, Weaverdyck, N, Whitehorn, N, Wiseman., P, Wu, W.L.K, Yefremenko, V, Young, M.R, Zebrowski., J.A“...$ [stat.]$\pm0.05$ [sys.]$\times{10}^{14}\ {\rm{M}}_{\odot }$, respectively. This is a factor of $\sim2...”
Published 2024
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75by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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76by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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77by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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78by Ovsepyan, Ekaterina, Ivanova, Elena, Tetard, Martin, Max, Lars, Tiedemann, Ralf“... Bering Sea. Intermediate waters were characterized by an oxygen content of & SIM;2.0 ml L-1 or more...”
Published in Frontiers in Earth Science (2021)
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