REFERENCES Hennawi, J. F., Dalal, N., Bode, P., & Ostriker, J. P. 2005, ArXiv Astrophysics e-pr<strong>in</strong>ts —. 2007, ApJ, 654, 714 Hetterscheidt, M., Simon, P., Schirmer, M., Hildebr<strong>and</strong>t, H., Schrabback, T., Erben, T., & Schneider, P. 2007, A&A, 468, 859 Heymans, C. et al. 2006, MNRAS, 368, 1323 Hoekstra, H., Franx, M., Kuijken, K., & Squires, G. 1998, ApJ, 504, 636 Hoekstra, H. et al. 2006, ApJ, 647, 116 Homeier, N. L. et al. 2005, ApJ, 621, 651 Hudson, M. J., Gwyn, S. D. J., Dahle, H., & Kaiser, N. 1998, ApJ, 503, 531 Huertas-Company, M., Foex, G., Soucail, G., & Pelló, R. 2009, A&A, 505, 83 Ilbert, O. et al. 2009, ApJ, 690, 1236 Inada, N. et al. 2003, Nature, 426, 810 Ja<strong>in</strong>, B., Connolly, A., & Takada, M. 2007, J. Cosmology Astropart. Phys., 3, 13 Ja<strong>in</strong>, B., & Taylor, A. 2003, Physical Review Letters, 91, 141302 Jee, M. J. et al. 2009, ApJ, 704, 672 Jee, M. J., White, R. L., Benítez, N., Ford, H. C., Blakeslee, J. P., Rosati, P., Demarco, R., & Ill<strong>in</strong>gworth, G. D. 2005, ApJ, 618, 46 J<strong>in</strong>g, Y. P. 2000, ApJ, 535, 30 J<strong>in</strong>g, Y. P., & Suto, Y. 2002, ApJ, 574, 538 Jones, C., & Forman, W. 1984, ApJ, 276, 38 150
REFERENCES Kaiser, N. 1995, ApJ, 439, L1 Kaiser, N., & Squires, G. 1993, ApJ, 404, 441 Kaiser, N., Squires, G., & Broadhurst, T. 1995, ApJ, 449, 460 Kashikawa, N. et al. 2004, PASJ, 56, 1011 Katgert, P., Biviano, A., & Mazure, A. 2004, ApJ, 600, 657 Kauffmann, G., Nusser, A., & Ste<strong>in</strong>metz, M. 1997, MNRAS, 286, 795 Kenney, J. D. P., Tal, T., Crowl, H. H., Feldmeier, J., & Jacoby, G. H. 2008, ApJ, 687, L69 K<strong>in</strong>g, I. 1962, AJ, 67, 471 K<strong>in</strong>ney, A. L., Calzetti, D., Bohl<strong>in</strong>, R. C., McQuade, K., Storchi-Bergmann, T., & Schmitt, H. R. 1996, ApJ, 467, 38 Kitayama, T., & Suto, Y. 1996, ApJ, 469, 480 Kitch<strong>in</strong>g, T. D., Heavens, A. F., Taylor, A. N., Brown, M. L., Meisenheimer, K., Wolf, C., Gray, M. E., & Bacon, D. J. 2007, MNRAS, 376, 771 Kneib, J.-P., Ellis, R. S., Smail, I., Couch, W. J., & Sharples, R. M. 1996, ApJ, 471, 643 Kneib, J.-P. et al. 2003, ApJ, 598, 804 Kotulla, R., Fritze, U., Weilbacher, P., & Anders, P. 2009, MNRAS, 396, 462 Kronberger, T., Kapferer, W., Ferrari, C., Unterguggenberger, S., & Sch<strong>in</strong>dler, S. 2008, A&A, 481, 337 Lacey, C., & Cole, S. 1993, MNRAS, 262, 627 Lapi, A., & Cavaliere, A. 2009, ApJ, 695, L125 Limber, D. N., & Mathews, W. G. 1960, ApJ, 132, 286 151
- Page 1:
TELAVIVUNIVERSITY SCHOOLOFPHYSICS&A
- Page 5:
To my parents
- Page 8 and 9:
1.2.3 Weak Gravitational Lensing .
- Page 10 and 11:
5 Discussion 139 5.1 Summary . . .
- Page 12 and 13:
negligibly contaminated by the clus
- Page 15 and 16:
Acknowledgments I would like to tha
- Page 17 and 18:
Chapter 1 Introduction Clusters of
- Page 19 and 20:
1.1 Clusters of Galaxies The space
- Page 21 and 22:
1.1 Clusters of Galaxies and a grav
- Page 23 and 24:
1.1 Clusters of Galaxies to the sph
- Page 25 and 26:
1.1 Clusters of Galaxies 1.1.5 X-ra
- Page 27 and 28:
1.2 Gravitational Lensing increase
- Page 29 and 30:
1.2 Gravitational Lensing Broadhurs
- Page 31 and 32:
1.2 Gravitational Lensing If we ins
- Page 33 and 34:
1.2 Gravitational Lensing Figure 1.
- Page 35 and 36:
1.2 Gravitational Lensing 1.2.3.1 M
- Page 37 and 38:
1.2 Gravitational Lensing a transfo
- Page 39 and 40:
1.2 Gravitational Lensing effects c
- Page 41:
1.3 The Structure of the Thesis 1.3
- Page 44 and 45:
Weak Lensing Dilution in A1689 clus
- Page 46 and 47:
Weak Lensing Dilution in A1689 beha
- Page 48 and 49:
Weak Lensing Dilution in A1689 Figu
- Page 50 and 51:
Weak Lensing Dilution in A1689 blue
- Page 52 and 53:
Weak Lensing Dilution in A1689 gala
- Page 54 and 55:
Weak Lensing Dilution in A1689 0.5
- Page 56 and 57:
Weak Lensing Dilution in A1689 not
- Page 58 and 59:
Weak Lensing Dilution in A1689 lens
- Page 60 and 61:
2.5 Photometric redshifts Weak Lens
- Page 62 and 63:
Weak Lensing Dilution in A1689 0.85
- Page 64 and 65:
Weak Lensing Dilution in A1689 the
- Page 66 and 67:
Weak Lensing Dilution in A1689 1.4
- Page 68 and 69:
Weak Lensing Dilution in A1689 expe
- Page 70 and 71:
Weak Lensing Dilution in A1689 0.86
- Page 72 and 73:
Weak Lensing Dilution in A1689 et a
- Page 74 and 75:
Weak Lensing Dilution in A1689 g +
- Page 76 and 77:
Weak Lensing Dilution in A1689 Note
- Page 78 and 79:
Weak Lensing Dilution in A1689 Usin
- Page 80 and 81:
Weak Lensing Dilution in A1689 We a
- Page 82 and 83:
Weak Lensing Dilution in A1689 limi
- Page 84 and 85:
Weak Lensing Dilution in A1689 rela
- Page 86 and 87:
Weak Lensing Dilution in A1689 To s
- Page 88 and 89:
Weak Lensing Dilution in A1689 30 2
- Page 91 and 92:
Chapter 3 Detailed Cluster Mass and
- Page 93 and 94:
3.1 Introduction Stars are not expe
- Page 95 and 96:
3.2 Subaru data reduction § 3.3 we
- Page 97 and 98:
3.3 Sample selection from the color
- Page 99 and 100:
3.3 Sample selection from the color
- Page 101 and 102:
3.3 Sample selection from the color
- Page 103 and 104:
3.4 Evolutionary color tracks 0.25
- Page 105 and 106:
3.5 Depth estimation from SDF/COSMO
- Page 107 and 108:
3.5 Depth estimation from SDF/COSMO
- Page 109 and 110:
3.6 Weak lensing analysis 3.6 Weak
- Page 111 and 112:
3.6 Weak lensing analysis where θ
- Page 113 and 114:
3.8 Cluster light profiles 600 A168
- Page 115 and 116: 3.9 M/L profiles Broadhurst et al.
- Page 117 and 118: 3.9 M/L profiles 10 5 r [Mpc/h] bri
- Page 119 and 120: 3.9 M/L profiles very moderate decl
- Page 121 and 122: 3.9 M/L profiles 0.6 0.4 0.2 log 10
- Page 123 and 124: 3.10 Cluster luminosity functions b
- Page 125 and 126: 3.11 Discussion and conclusions Tab
- Page 127 and 128: 3.11 Discussion and conclusions law
- Page 129 and 130: Chapter 4 A Weak Lensing Determinat
- Page 131 and 132: 4.1 Introduction Zitrin et al. 2009
- Page 133 and 134: 4.3 Sample selection from the color
- Page 135 and 136: 4.3 Sample selection from the color
- Page 137 and 138: 4.3 Sample selection from the color
- Page 139 and 140: 4.4 Weak lensing measurements objec
- Page 141 and 142: 4.5 Results tion N i (z s ) of i-th
- Page 143 and 144: 4.5 Results n [arcmin −2 ] 10 1 1
- Page 145 and 146: 4.5 Results 3.5 3 2.5 4 3.5 3 B −
- Page 147 and 148: 4.5 Results 0.4 0.35 0.3 0.25 foreg
- Page 149 and 150: 4.5 Results Γ (g T amplitude ratio
- Page 151 and 152: 4.5 Results 1.6 1.4 1.2 Γ (g T amp
- Page 153 and 154: 4.7 Discussion and conclusions is t
- Page 155 and 156: Chapter 5 Discussion 5.1 Summary In
- Page 157 and 158: 5.1 Summary excluding the foregroun
- Page 159 and 160: 5.3 Future work observations we obt
- Page 161 and 162: References Abadi, M. G., Moore, B.,
- Page 163 and 164: REFERENCES Broadhurst, T., Umetsu,
- Page 165: REFERENCES Gaidos, E. J. 1997, AJ,
- Page 169 and 170: REFERENCES Natarajan, P., Loeb, A.,
- Page 171 and 172: REFERENCES Schrabback, T. et al. 20
- Page 173 and 174: כפי שמתואר בפרק השל
- Page 175 and 176: עבודה זו נעשתה בהנח
Change language