论文信息 - The Quadruple Gravitational Lens PG 1115+080: Time Delays and Models - 字舞流文

The Quadruple Gravitational Lens PG 1115+080: Time Delays and Models

Optical photometry is presented for the quadruple gravitational lens PG 1115+080. A preliminary reduction of data taken from 1995 November to 1996 June gives component C leading component B by 23.7 ? 3.4 days and components A1 and A2 by 9.4 days. A range of models has been fitted to the image positions, none of which gives an adequate fit. The best-fitting and most physically plausible of these, taking the lensing galaxy and the associated group of galaxies to be singular isothermal spheres, gives a Hubble constant of 42 km s-1 Mpc-1 for ? = 1, with an observational uncertainty of 14%, as computed from the B - C time delay measurement. Taking the lensing galaxy to have an approximately E5 isothermal mass distribution yields H0 = 64 km s-1 Mpc-1, while taking the galaxy to be a point mass gives H0 = 84 km s-1 Mpc-1. The former gives a particularly bad fit to the position of the lensing galaxy, while the latter is inconsistent with measurements of nearby galaxy rotation curves. Constraints on these and other possible models are expected to improve with planned Hubble Space Telescope observations.

K. Gebhardt | J. R. Thorstensen | G. M. Bernstein | J. Hjorth | J. P. Blakeslee | J. N. Hewitt | A. O. Jaunsen | E. E. Falco | J. L. Tonry | P. L. Schechter | J. Thorstensen | J. Hjorth | A. Jaunsen | G. Bernstein | P. Schechter | J. Tonry | J. Hewitt | E. Falco | A. Dressler | S. Bus | J. Blakeslee | K. Gebhardt | D. Richstone | G. Wegner | R. Fesen | L. Sparke | R. Barvainis | G. Worthey | R. Barr | C. D. Bailyn | D. O. Richstone | T. Hurt | C. Becker | D. Mehlert | G. Wegner | S. J. Bus | M. Mateo | R. A. Fesen | A. Dressler | C. Bailyn | C. M. Becker | P. Fischer | R. Barvainis | D. Harmer | T. Hurt | L. S. Sparke | D. W. Willmarth | G. Worthey | Robert Barr | M. Mateo | D. Harmer | D. Willmarth | Phillipe Fischer | D. Mehlert

[1] R. Blandford,et al. Cosmological Applications of Gravitational Lensing , 1992 .

[2] C. B. Moore,et al. The lensing galaxy in MG 0414+0534 , 1993 .

[3] D. Schneider,et al. Imaging of the gravitational lens system PG 1115+080 with the Hubble Space Telescope , 1993 .

[4] C. Kochanek,et al. Astrophysical Applications of Gravitational Lensing , 1996 .

[5] S. Chitre,et al. The Triple Quasar PG1115+080 , 1992 .

[6] S. Refsdal. On the possibility of determining Hubble's parameter and the masses of galaxies from the gravitational lens effect , 1964 .

[7] C. Alcock. Gravitational lenses , 1982, Nature.

[8] C. Kochanek. The implications of lenses for galaxy structure , 1991 .

[9] J. Heasley,et al. High-resolution imaging from Mauna Kea: the triple quasar in 0.3-arc s seeing , 1986, Nature.

[10] P. Schechter,et al. On the universality of microlensing in quadruple gravitational lenses , 1995 .

[11] The VLA Light Curves of 0957+561; 1979-1994 , 1996 .

[12] R. Blandford,et al. Gravitational imaging by isolated elliptical potential wells. I. Cross sections. II. Probability distributions , 1987 .

[13] J. Wambsganss,et al. Parameter degeneracy in models of the quadruple lens system Q2237+0305 , 1994, astro-ph/9408084.

[14] J. Surdej,et al. 'Gravitational lenses in the Universe', The proceedings of the 31st Liège International Astrophysical Colloquium , 1993 .

[15] R. E. Schild,et al. CCD camera brightness monitoring of Q0957 + 561 A, B , 1986 .

[16] William H. Press,et al. The Time Delay of Gravitational Lens 0957+561. I. Methodology and Analysis of Optical Photometric Data , 1992 .

[17] D. Blandford. The Gravitational lens system B1422+231: Dark matter, superluminal expansion and the hubble constant , 1993, astro-ph/9311077.

[18] J. Angel,et al. The triple QSO PG1115 + 08: another probable gravitational lens , 1980, Nature.

[19] N. Grogin,et al. A New Model of the Gravitational Lens 0957+561 and a Limit on the Hubble Constant , 1996 .

[20] Peter R. Young,et al. The triple quasar Q1115+080A, B, C - A quintuple gravitational lens image , 1981 .