| 10 | -- | 11 | David P. Landau. Phase transitions and critical phenomena |
| 12 | -- | 15 | Nancy Forbes, Laura F. Landweber. Computer science and the evolution of genetic information |
| 16 | -- | 19 | David I. Lewin. Cruising digital ships on electronic seas |
| 20 | -- | 23 | Priya Vashishta, Aiichiro Nakano. Dynamic Fracture Analysis |
| 24 | -- | 31 | Krishnaswamy Ravi-Chandar, Wolfgang Knauss. Processes controlling fast fracture of brittle solids |
| 32 | -- | 38 | Elisabeth Bouchaud, Florin Paun. Fracture and damage at a microstructural scale |
| 39 | -- | 47 | Aiichiro Nakano, Rajiv K. Kalia, Priya Vashishta. Scalable molecular-dynamics, visualization, and data management algorithms for materials simulations |
| 48 | -- | 55 | Michael Marder. Molecular dynamics of cracks |
| 56 | -- | 65 | Priya Vashishta, Rajiv K. Kalia, Aiichiro Nakano. Large-scale atomistic simulations of dynamic fracture |
| 66 | -- | 0 | Paul F. Dubois, T.-Y. Brian Yang. Extending Python with Fortran |
| 74 | -- | 76 | Enrique Canessa. Enabling synchronous math discussions on the Web |
| 77 | -- | 83 | Seymour Trester. Computer-simulated Fresnel diffraction using the Fourier transform |
| 84 | -- | 88 | William J. Thompson. Don't subtract the background [signal count analysis method] |
| 89 | -- | 98 | Dirk Helbing, Martin Treiber. Numerical simulation of macroscopic traffic equations |
| 100 | -- | 103 | Mark F. Gyure. Bridging time and length scales in semiconductor process model development |
| 104 | -- | 105 | Norris Parker Smith. Terms of life defined in agreement with fate.com - A fantasy |