| 1 | | Nonimaging optical systems and their uses | | 1 |
| 2 | | Some basic ideas in geometrical optics | | 7 |
| 3 | | Some designs of image-forming concentrators | | 25 |
| 4 | | Nonimaging optical systems | | 43 |
| 5 | | Developments and modifications of the compound parabolic concentrator | | 69 |
| 6 | | The flow-line method for designing nonimaging optical systems | | 99 |
| 7 | | Concentrators for prescribed irradiance | | 159 |
| 8 | | Simultaneous multiple surface design method | | 181 |
| 9 | | Imaging applications of nonimaging concentrators | | 219 |
| 10 | | Consequences of symmetry by Narkis Shatz and John C. Bortz | | 235 |
| 11 | | Global optimization of high-performance concentrators by Narkis Shatz and John C. Bortz | | 265 |
| 12 | | A paradigm for a wave description of optical measurements | | 305 |
| 13 | | Applications to solar energy concentration | | 317 |
| 14 | | Manufacturing tolerances | | 395 |
| App. A | | Derivation and explanation of the etendue invariant, including the dynamical analogy; derivation of the skew invariant | | 415 |
| App. B | | The edge-ray theorem | | 421 |
| App. C | | Conservation of skew and linear momentum | | 433 |
| App. D | | Conservation of etendue for two-parameter bundles of rays | | 439 |
| App. E | | Perfect off-axis imaging | | 449 |
| App. F | | The Luneberg lens | | 461 |
| App. G | | The geometry of the basic compound parabolic concentrator | | 467 |
| App. H | | The [theta][subscript i]/[theta][subscript o] concentrator | | 471 |
| App. I | | The truncated compound parabolic concentrator | | 473 |
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