1 |
Bernstein, G. & Fischer, P., 1999, Values of H_0 from Models of the Gravitational Lens 0957+561, AJ, 118, 14
DOI
ScienceOn
|
2 |
Browne, I. W. A., Wilkinson, P. N., Jackson, N. J. F. et al., 2003, The Cosmic Lens All-Sky Survey - II. Gravitational Lens Candidate Selection and Follow-up, MNRAS, 341, 13
DOI
ScienceOn
|
3 |
Burud, I., Courbin, F., Magain, P., et al., 2002, An Optical Time-delay for the Lensed BAL Quasar HE 2149-2745, A&A, 383, 71
|
4 |
Chiba, M. & Yoshii, Y., 1999, New Limits on a Cosmological Constant from Statistics of Gravitational Lensing, ApJ, 510, 42
DOI
ScienceOn
|
5 |
Courbin, F., 2003, Quasar Lensing: the Observer's Point of View, astro-ph/0304497
|
6 |
Dev, A., Jain, D., & Mahajan, S., 2004, Dark Energy and the Statistical Study of the Observed Image Separations of the Multiply-Imaged Systems in the Class Statistical Sample, International Journal of Modern Physics D, 13, 1005
DOI
ScienceOn
|
7 |
Fassnacht, C. D., Xanthopoulos, E., Koopmans, L. V. E., & Rusin, D., 2002, A Determination of H0 with the CLASS Gravitational Lens B1608+656. III. A Significant Improvement in the Precision of the Time Delay Measurements, ApJ, 581, 823
DOI
ScienceOn
|
8 |
Fischer, P., Bernstein, G., Rhee, G., & Tyson, J. A., 1997, The Mass Distribution of the Cluster 0957+561 From Gravitational Lensing, AJ, 113, 521
DOI
ScienceOn
|
9 |
Gil-Merino, R., Wisotzki, L., & Wambsganss, J., 2002, The Double Quasar HE1104-1805: A Case Study for Time Delay Determination with Poorly Sampled Lightcurves, A&A, 381, 428
|
10 |
Gott, J.-R., Park, M.-G., & Lee, H.-M., 1989, Setting Limits on q0 Using Gravitational Lensing, ApJ, 338, 1
|
11 |
Grogin, N. A. & Narayan, R., 1996a, A New Model of the Gravitational Lens 0957+561 and a Limit on the Hubble Constant, ApJ, 464, 92
DOI
|
12 |
Hewitt, A. & Burbidge, G., 1989, The First Addition to the New Optical Catalog of Quasi-stellar Objects, ApJS, 69, 1
|
13 |
Hinshaw, G. & Krauss, L. M., 1987, Gravitational Lensing by Isothermal Spheres with Finite Core Radii - Galaxies and Dark Matter, ApJ, 320, 468
|
14 |
Hjorth, J., Burud, I., Jaunsen, A. O., et al., 2002, The Time Delay of the Quadruple Quasar RX J0911.4+0551, ApJL, 572, L11
DOI
ScienceOn
|
15 |
Im, M., Griffiths, R. E., & Ratnatunga, K. U., 1997, A Measurement of the Cosmological Constant Using Elliptical Galaxies as Strong Gravitational Lenses, ApJ, 475, 457
DOI
ScienceOn
|
16 |
Irwin, M. J., Webster, R. L., Hewett, P. C., Corrigan, R. T., & Jedrzejewski, R. I., 1989, Photometric Variations in the Q2237 + 0305 System - First Detection of a Microlensing Event, AJ, 98, 1989
|
17 |
Keeton, C. R., Gaudi, B. S., & Petters, A. O., 2005, Identifying Lenses with Small-Scale Structure. II. Fold Lenses, ApJ, 635, 35
DOI
|
18 |
Kochanek, C. S., 1993, The Analysis of Gravitational Lens Surveys. II. Maximum Likelihood Models and Singular Potentials, ApJ, 419, 12
DOI
|
19 |
Kochanek, C. S., 1996a, Gravitational Lenses and the Structure of Galaxies, IAU Symp. 173: Astrophysical Applications of Gravitational Lensing, 173, 177 (astro-ph/9510075)
|
20 |
Lovell, J. E. J., Jauncey, D. L., Reynolds, J. E., Wieringa, M. H., King, E. A., Tzioumis, A. K., McCulloch, P. M., & Edwards, P. G., 1998, The Time Delay in the Gravitational Lens PKS 1830-211, ApJL, 508, L51
|
21 |
Ostensen, R., Refsdal, S., Stabell, R., et al. 1996, Monitoring of the Einstein Cross with the Nordic Optical Telescope., A&A, 309, 59
|
22 |
Ostriker, J. P. & Steinhardt, P. J., 1995, The Observational Case for a Low Density Universe with a Non-Zero Cosmological Constant, Nature, 377, 600
|
23 |
Perlmutter, S., Aldering, G., Goldhaber, G., et al., 1999, Measurements of Omega and Lambda from 42 High-Redshift Supernovae, ApJ, 517, 565
|
24 |
Schechter, P. L., Bailyn, C. D., Barr, R. et al., 1997, The Quadruple Gravitational Lens PG 1115+080: Time Delays and Models, ApJL, 475, L85
DOI
ScienceOn
|
25 |
Tully, R. B. & Fisher, J. R., 1977, A New Method of Determining Distances to Galaxies, A&A, 54, 661
|
26 |
Turner, E. L., Ostriker, J. P., & Gott, J. R., III 1984, The Statistics of Gravitational Lenses - The Distributions of Image Angular Separations and Lens Redshifts, ApJ, 284, 1
|
27 |
Weymann, R. J., Latham, D., Roger, J., et al., 1980, The Triple QSO PG1115+08 - Another Probable Gravitational Lens, Nature, 285, 641
|
28 |
Fukugita, M. & Turner, E. L., 1991, Gravitational Lensing Frequencies - Galaxy Cross-sections and Selection Effects, MNRAS, 253, 99
|
29 |
Folkes, S., Ronen, S., Price, I., et al., 1999, The 2dF Galaxy Redshift Survey: Spectral Types and Luminosity Functions, MNRAS, 308, 459
DOI
ScienceOn
|
30 |
Freedman, W. L., Madore, B. F., Gibson, B. K., et al., 2001, Final Results from the Hubble Space Telescope Key Project to Measure the Hubble Constant, ApJ, 553, 47
DOI
ScienceOn
|
31 |
Turner, E. L., 1990, Gravitational Lensing Limits on the Cosmological Constant in a Flat Universe, ApJL, 365, L43
DOI
|
32 |
Moreau, O., Libbrecht, C., Lee, D.-W., & Surdej, J., 2005, Accurate Photometric Light Curves of the Lensed Components of Q2237+0305 Derived with an Optimal Image Subtraction Technique: Evidence for Microlensing in Image A, A&A, 436, 479
DOI
ScienceOn
|
33 |
Cohn, J. D. & Kochanek, C. S., 2004, The Effects of Massive Substructures on Image Multiplicities in Gravitational Lenses, ApJ, 608, 25
DOI
ScienceOn
|
34 |
Fukugita, M., Futamase, T., Kasai, M., & Turner, E. L., 1992, Statistical Properties of Gravitational Lenses with a Nonzero Cosmological Constant, ApJ, 393, 3
DOI
|
35 |
Maoz, D. & Rix, H.-W., 1993, Early-Type Galaxies, Dark Halos, and Gravitational Lensing Statistics, ApJ, 416, 425
|
36 |
Biggs, A. D., Browne, I. W. A., Helbig, P., Koopmans, L. V. E., Wilkinson, P. N., & Perley, R. A., 1999, Time Delay for the Gravitational Lens System B0218+357, MNRAS, 304, 349
DOI
ScienceOn
|
37 |
Hartwick, F. D. A. & Schade, David 1990, The Space Distribution of Quasars, ARAA, 28, 437
DOI
ScienceOn
|
38 |
Kochanek, C. S., 1996b, Is There a Cosmological Constant?, ApJ, 466, 638
DOI
ScienceOn
|
39 |
Impey, C. D., Falco, E. E., Kochanek, C. S., Leha' r, J., McLeod, B. A., Rix, H.-W., Peng, C. Y. & Keeton, C. R., 1998, An Infrared Einstein Ring in the Gravitational Lens PG 1115+080, ApJ, 509, 551
|
40 |
Park, M.-G. & Han, C., 2001, Gravitational Microlensing, JKAS, 34, 81
|
41 |
Vakulik, V., Schild, R., Dudinov, V., Nuritdinov, S., Tsvetkova, V., Burkhonov, O., & Akhunov, T., 2006, Observational Determination of the Time Delays in Gravitational Lens System Q2237+0305, A&A, 447, 905
DOI
ScienceOn
|
42 |
Mitchell, Jonathan L., Keeton, Charles R., Frieman, Joshua A., & Sheth, Ravi K., 2005, Improved Cosmological Constraints from Gravitational Lens Statistics, ApJ, 622, 81
DOI
ScienceOn
|
43 |
Pooley, D., Blackburne, J. A., Rappaport, S., Schechter, P. L., & Fong, W., 2006, A Strong X-Ray Flux Ratio Anomaly in the Quadruply Lensed Quasar PG 1115+080, ApJ, 648, 67
DOI
|
44 |
Treu, T. & Koopmans, L. V. E., 2002, The Internal Structure of the Lens PG1115+080: Breaking Degeneracies in the Value of the Hubble Constant, MNRAS, 337, L6
DOI
ScienceOn
|
45 |
Hewitt, A. & Burbidge, G., 1987, A New Optical Catalog of Quasi-stellar Objects, ApJS, 63, 1
|
46 |
Park, M.-G., 1996, Gravitational Lensing Statistics in a Flat Universe', Journal of Korean Physical Society, 29, 664
|
47 |
Jaroszy?ki, M., Wambsganss, J., & Paczy?ki, B., 1992, Microlensed Light Curves for Thin Accretion Disks around Schwarzschild and Kerr Black Holes, ApJL, 396, L65
DOI
|
48 |
Park, M.-G. & Gott, J. R., 1997, Curvature of the Universe and Observed Gravitational Lens Image Separations versus Redshift, ApJ, 489, 476
|
49 |
Refsdal, S., 1964, On the Possibility of Determining Hubble's Parameter and the Masses of Galaxies from the Gravitational Lens Effect, MNRAS, 128, 307
DOI
|
50 |
Lee, H.-A. & Park, M.-G., 1994, Statistical Properties of Gravitational Lensing in Cosmological Models with Cosmological Constant, JKAS, 27, 103
|
51 |
Witt, Hans J., Mao, S., & Schechter, P. L., 1995, On the Universality of Microlensing in Quadruple Gravitational Lenses, ApJ, 443, 18
DOI
|
52 |
Choi, Y.-Y., Park, C., & Vogeley, M. S., 2006, Internal and Collective Properties of Galaxies in the Sloan Digital Sky Survey, astro-ph/0611607
|
53 |
Faber, S. M. & Jackson, R. E., 1976, Velocity Dispersions and Mass-to-light Ratios for Elliptical Galaxies, ApJ, 204, 668
|
54 |
Lauer, T. R. 1985, High-resolution Surface Photometry of Elliptical Galaxies, ApJS, 57, 473
|
55 |
York, T., Jackson, N., Browne, I. W. A., Wucknitz, O., & Skelton, J. E., 2005, The Hubble Constant from the Gravitational Lens CLASS B0218+357 Using the Advanced Camera for Surveys, MNRAS, 357, 124
DOI
ScienceOn
|
56 |
Chiba, M. & Yoshii, Y., 1997, Do Lensing Statistics Rule Out a Cosmological Constant?, ApJ, 489, 485
DOI
ScienceOn
|
57 |
Schneider, D. P., Turner, E. L., Gunn, J. E., Hewitt, J. N., Schmidt, M., & Lawrence, C. R., 1988, High-resolution CCD Imaging and Derived Gravitational Lens Models of 2237+0305, AJ, 95, 1619
|
58 |
Chae, K.-H., 2003, The Cosmic Lens All-Sky Survey: statistical strong lensing, cosmological parameters, and global properties of galaxy populations, MNRAS, 346, 746
DOI
ScienceOn
|
59 |
Lupton, R., 1993, Statistics in Theory and Practice (Princeton Univ. Press)
|
60 |
Riess, Adam G., Filippenko, Alexei V., Challis, Peter, et al., 1998, Observational Evidence from Supernovae for an Accelerating Universe and a Cosmological Constant, AJ, 116, 1009
DOI
ScienceOn
|
61 |
Yoon, S.-Y. & Park, M.-G., 1996, Statistics of Gravitational Lensing by a Galaxy in Cluster or in Field, JKAS, 29, 119
|
62 |
Burud, I., Hjorth, J., Jaunsen, A. O., et al., 2000, An Optical Time Delay Estimate for the Double Gravitational Lens System B1600+434, ApJ, 544, 117
DOI
ScienceOn
|
63 |
Corrigan, R. T., Irwin, M. J., Arnaud, J., et al., 1991, Initial light curve of Q2237 + 0305, AJ, 102, 34
DOI
|
64 |
Grogin, N. A. & Narayan, R., 1996b, A New Model of the Gravitational Lens 0957+561 and a Limit on the Hubble Constant: Erratum, ApJ, 473, 570
|
65 |
Inada, N., Oguri, M., Becker, R. H., et al., 2007, Two New Gravitationally Lensed Double Quasars from the Sloan Digital Sky Survey, AJ, 133, 206
DOI
ScienceOn
|
66 |
Kochanek, C. S., 2005, in Saas-Fee Advanced Course 33, Gravitational Lensing: Strong, Weak and Micro (Springer)
|
67 |
Schneider, P., Kochanek, C. S., & Wambsganss, J., 2006, Saas-Fee Advanced Course 33, Gravitational Lensing: Strong, Weak and Micro (Springer)
|
68 |
Rauch, K. P. & Blandford, R. D., 1991, Microlensing and the Structure of Active Galactic Nucleus Accretion Disks, ApJL, 381, L39
DOI
|
69 |
Wozniak, P. R., Udalski, A., Szymanski, M., Kubiak, M., Pietrzynski, G., Soszynski, I., & Zebrun, K., 2000, The Optical Gravitational Lensing Experiment: A Hunt for Caustic Crossings in QSO 2237+0305, ApJL, 540, L65
DOI
|
70 |
Burud, I., Hjorth, J., Courbin, F., et al., 2002, Time Delay and Lens Redshift for the Doubly Imaged BAL Quasar SBS 1520+530, A&A, 391, 481
DOI
ScienceOn
|
71 |
Haarsma, D. B., Hewitt, J. N., Lehar, J., & Burke, B. F., 1997, The 6 Centimeter Light Curves of B0957+561, 1979 - 1994: New Features and Implications for the Time Delay, ApJ, 479, 102
|
72 |
Myers, S. T., Jackson, N. J., Browne, I. W. A., et al., 2003, The Cosmic Lens All-Sky Survey - I. Source Selection and Observations, MNRAS, 341, 1
DOI
ScienceOn
|
73 |
Walsh, D., Carswell, R. F., & Weymann, R. J., 1979, 0957 + 561 A, B - Twin Quasistellar Objects or Gravitational Lens, Nature, 279, 381
|
74 |
Koopmans, L. V. E., de Bruyn, A. G., Xanthopoulos, E., & Fassnacht, C. D., 2000, A Time-delay Determination from VLA Light Curves of the CLASS Gravitational Lens B1600+434, A&A, 356, 391
|
75 |
Kundic' , T., Turner, E. L., Colley, W. N., Gott, J. R., Rhoads, J. E., Wang, Y., Bergeron, L. E., Gloria, K. A., Long, D. C., Malhotra, S., & Wambsganss, J., 1997, A Robust Determination of the Time Delay in 0957+561A, B and a Measurement of the Global Value of Hubble's Constant, ApJ, 482, 75
DOI
ScienceOn
|
76 |
Schechter, P., 1976, An Analytic Expression for the Luminosity Function for Galaxies., ApJ, 203, 297
DOI
|
77 |
박명구, 2001, 약한 중력렌즈와 그 응용, 새물리, 42, 1
|
78 |
Chae, K.-H., 1999, New Modeling of the Lensing Galaxy and Cluster of Q0957+561: Implications for the Global Value of the Hubble Constant, ApJ, 524, 582
|
79 |
Fukugita, M., Futamase, T., & Kasai, M., 1990, A Possible Test for the Cosmological Constant with Gravitational Lenses, MNRAS, 246, 24
|