* Astronomy

Astronomers have run new simulations to see what could happen when an expected collision takes place between our galaxy and another big one - possibly within our descendants lifetimes.
The surprising results: little of the celestial fireworks that were widely expected to occur as great gas clouds crunch together to form new stars. In­stead, a more outlandish possibility arose.
 The computer simulations indicated there is a one in 37 chance well end up living in that other galaxy - majestic Andromeda, said the researchers, T. J. Cox and Abraham Loeb of the Harvard-Smithsonian Centre for Astrophysics in Cambridge, Mass.

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If Homo sapiens can stick it out on Earth for another two billion years, our descendants may witness quite a show in the night sky. Researchers estimate that the Milky Way will collide with its nearest neighbour, the Andromeda galaxy, at around that timewell before the sun collapses into a white dwarf.
This close encounter of the galactic kind could easily kick our solar system to the farthest reaches of the galaxy, and there is a small chance we might even take up residence in Andromeda, according to astronomers T. J. Cox and Abraham Loeb of the Harvard-Smithsonian Centre for Astrophysics in Cambridge, Mass.

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Title: The Spitzer c2d Survey of Large, Nearby, Interstellar Clouds VIII. Serpens Observed with MIPS
Authors: Paul M. Harvey, Luisa M. Rebull, Tim Brooke, William J. Spiesman, Nicholas Chapman, Tracy L. Huard, Neal J. Evans II, Lucas Cieza, Shih-Ping Lai, Lori E. Allen, Lee G. Mundy, Deborah L. Padgett, Anneila I. Sargent, Karl R. Stapelfeldt, Philip C. Myers, Ewine F. van Dishoeck, Geoffrey A. Blake, David W. Koerner

We present maps of 1.5 square degrees of the Serpens dark cloud at 24, 70, and 160µ observed with the Spitzer Space Telescope MIPS Camera. More than 2400 compact sources have been extracted at 24um, nearly 100 at 70um, and 4 at 160um. We estimate completeness limits for our 24um survey from Monte Carlo tests with artificial sources inserted into the Spitzer maps. We compare source counts, colours, and magnitudes in the Serpens cloud to two reference data sets, a 0.50 deg² set on a low-extinction region near the dark cloud, and a 5.3 deg² subset of the SWIRE ELAIS N1 data that was processed through our pipeline. These results show that there is an easily identifiable population of young stellar object candidates in the Serpens Cloud that is not present in either of the reference data sets. We also show a comparison of visual extinction and cool dust emission illustrating a close correlation between the two, and find that the most embedded YSO candidates are located in the areas of highest visual extinction.

arXiv:0704.0253v1 (228kb, PDF)

Chemical Composition of Stars in Clusters Can Tell History of our Galaxy
Using ESO's Very Large Telescope, an international team of astronomers has shown how to use the chemical composition of stars in clusters to shed light on the formation of our Milky Way. This discovery is a fundamental test for the development of a new chemical tagging technique uncovering the birth and growth of our Galactic cradle.
The formation and evolution of galaxies, and in particular of the Milky Way - the 'island universe' in which we live, is one of the major puzzles of astrophysics: indeed, a detailed physical scenario is still missing and its understanding requires the joint effort of observations, theories and complex numerical simulations. ESO astronomer Gayandhi De Silva and her colleagues used the Ultraviolet and Visual Echelle Spectrograph (UVES) on ESO's VLT to find new ways to address this fundamental riddle.

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Title: The Spitzer c2d Survey of Large, Nearby, Interstellar Clouds: VI. Perseus Observed with MIPS
Authors: L. M. Rebull, K. R. Stapelfeldt, N. J. Evans II, J. K. Joergensen, P. M. Harvey, T. Y. Brooke, T. L. Bourke, D. L. Padgett, N. L. Chapman, S.-P. Lai, W. J. Spiesmann, A. Noreiga-Crespo, B. Merin, T. Huard, L. E. Allen, G. A. Blake, T. Jarrett, D. W. Koerner, L. G. Mundy, P. C. Myers, A. I. Sargent, E. F. van Dishoeck, Z. Wahhaj, K. E. Young

We present observations of 10.6 square degrees of the Perseus molecular cloud at 24, 70, and 160 microns with the Spitzer Space Telescope Multiband Imaging Photometer for Spitzer (MIPS). The image mosaics show prominent, complex extended emission dominated by illuminating B stars on the East side of the cloud, and by cold filaments of 160 micron emission on the West side. Of 3950 point sources identified at 24 microns, 1141 have 2MASS counterparts. A quarter of these populate regions of the Ks vs. Ks-[24] diagram that are distinct from stellar photospheres and background galaxies, and thus are likely to be cloud members with infrared excess. Nearly half (46%) of these 24 micron excess sources are distributed outside the IC 348 and NGC 1333 clusters. NGC 1333 shows the highest fraction of stars with flat or rising spectral energy distributions (28%), while Class II SEDs are most common in IC 348. These results are consistent with previous relative age determinations for the two clusters.
The intercluster region contains several tightly clumped (r~0.1 pc) young stellar aggregates whose members exhibit a wide variety of infrared spectral energy distributions characteristic of different circumstellar environments. One possible explanation is a significant age spread among the aggregate members, such that some have had time to evolve more than others. Alternatively, if the aggregate members all formed at roughly the same time, then remarkably rapid circumstellar evolution would be required to account for the association of Class I and Class III sources at ages <~1 Myr.
We highlight important results for several other objects as well.

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