The paper [MNRAS 347, 59 (2004)], entitled " A model for infall around virialized halos", is available on the astro-ph archive, here.

The code in C cosistes of three files:
Infall.c (main program)
InfallSub.c (functions and subroutines)
Infall.h (header file)
Compile, e.g., with: gcc -O Infall.c -o Infall.out -lm

Here are six example input command files and the resulting output data files (Each file takes a couple seconds to run). These consider a 10¹⁰ solar mass halo that virializes at redshift 2. WMAP 5-year cosmological parameters are assumed.
Infall.out < Infall1.in > Infall1.out (mean initial profile)
Infall.out < Infall2.in > Infall2.out (-1-σ initial profile)
Infall.out < Infall3.in > Infall3.out (+1-σ initial profile)
Infall.out < Infall4.in > Infall4.out (mean final profile)
Infall.out < Infall5.in > Infall5.out (-1-σ final profile)
Infall.out < Infall6.in > Infall6.out (+1-σ final profile)

Here are two example figures that use these data files.
Supermongo input: InfallEx1.mon, resulting EPS figure: InfallEx1.eps. This figure is in the style of Figure 3 in Barkana (2004) (but it includes only some of the curves, and the cosmological parameters are slightly different). The same data files can be used to create figures in the style of Figures 1 and 2 from Barkana (2004).
Supermongo input: InfallEx2.mon, resulting EPS figure: InfallEx2.eps. This figure is in the style of Figure 4 in Barkana (2004) (but it includes only one curve, from the middle panel, and the cosmological parameters are slightly different).

The paper [ApJ 571, 585 (2002)], entitled "An Analytical Approach to Inhomogeneous Structure Formation", is available on the astro-ph archive, here.

The code in C is available here.

The paper [ApJ 502, 531 (1998)], entitled "Fast calculation of a family of elliptical mass gravitational lens models", is available on the astro-ph archive, here. (417 kbytes)

The same paper but with color figures is available (in postscript) here. (417 kbytes)

The code in Fortran is available here. (163 kbytes)

The paper [ApJ 520, 479 (1999)], entitled "A reassessment of the data and models of the gravitational lens Q0957+561", is available on the astro-ph archive, here. (417 kbytes)

In the paper we increased our parameter error estimates from the following by an additional factor of the square root of the reduced chisq, where the reduced chisq = 2.1933586480011 for 59 parameters fit to a total of 21040 visibility amplitudes and phases.

In the following, we give a complete covariance matrix for 74 parameters (of which 59 are independent). The order is: 34 A component parameters (corresponding to the top half of Table 1 in the paper. Thus there is a Flux, x-comp, y-comp, Maj. Axis, Axis Ratio, and Pos. Ang. for each of six components, except that the position of component #1 is set to 0,0 .), 34 B component parameters (as in the bottom half of Table 1 in the paper), and six magnification parameters (as in Table 2): M1 at A5, M2 at A5, phi_1, phi_2, M1 at A1, M2 at A1.

Click here for a file with the 74 parameters and their one-sigma errors.

Click here for a file with the normalized Covariance Matrix (Order is A_[ij], with j=i to 74 for each of i=1 to 74. Number of entrees is 2775, in 925 lines of 3 numbers each).