Information AboutReionization |
| CATEGORIES ABOUT REIONIZATION | |
| space plasmas | |
| astrophysics | |
| physical cosmology | |
| SHOPPER'S DELIGHT | |
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The efficiency with which intervening gas between a Quasar and an observer can absorb radiation at certain wavelengths, such as at the Lyman-alpha transition of the Lyman Series of atomic hydrogen, depends sensitively on the degree to which it is ionized. Due to the expansion of the universe however, these absorption features are Redshifted more and more the farther from us that the absorption actually occurred, so that absorption features in different parts of the Electromagnetic Spectrum are produced by gas at different points along the line of sight. Since light from the quasar that reaches us now passed different points along the line of sight at different times, differing parts of the spectrum correspond to different times in the evolution of the universe. Looking at the spectrum of a quasar can therefore tell us not just Spatial , but also Temporal information with regard to the degree to which the universe is ionized. It can be inferred from the lack of the appearance of a Gunn-Peterson Trough of absorption in the spectrum of quasars at Redshifts of less than (seen as they were more than about one billion years after the Big Bang), that most of the intervening Intergalactic Medium since then consists not of neutral atoms (which would form a Gunn-Peterson trough) but rather of a highly-ionized Plasma . The absorption lines seen in the spectra of such quasars, known as the Lyman-alpha Forest , are due to absorption by a small but enhanced fraction of neutral gas lying in dense regions along the line of sight. Recent observations of quasars at redshifts slightly higher than , however, do show a Gunn-Peterson trough, indicating that the universe was at least a few percent reionized at that time. Theoretical studies of reionization suggest that the universe should go from highly neutral to highly ionized in a relatively short period of time. The presence of a Gunn-Peterson trough in the spectra of quasars at , implying the universe was already a few percent neutral, indicated that perhaps reionization began not much earlier, and that the universe was mostly neutral at redshifts . In 2003, observations from Optical Depth to electrons implied that if reionization occurred abruptly, it had to begin and end at a much earlier time, (about 200 million years after the Big Bang) than implied by the results from quasar spectra. However, new results from three year WMAP data indicate that the first year result was an overestimate, and that reionization occurred later, around (about 600 million years after the Big Bang). This result is more consistent with the quasar data, although some mysteries still remain. SEE ALSO EXTERNAL REFERENCES |