학술논문
Dynamically Driven Evolution of the Interstellar Medium in M51
Document Type
Working Paper
Author
Koda, J.; Scoville, N.; Sawada, T.; La Vigne, M. A.; Vogel, S. N.; Potts, A. E.; Carpenter, J. M.; Corder, S. A.; Wright, M. C. H.; White, S. M.; Zauderer, B. A.; Patience, J.; Sargent, A. I.; Bock, D. C. -J.; Hawkins, D.; Hodges, M.; Kemball, A.; Lamb, J. W.; Plambeck, R. L.; Pound, M. W.; Scott, S. L.; Teuben, P.; Woody, D. P.
Source
Astrophys.J.700:L132-L136,2009
Subject
Language
Abstract
We report the highest-fidelity observations of the spiral galaxy M51 in CO emission, revealing the evolution of giant molecular clouds (GMCs) vis-a-vis the large-scale galactic structure and dynamics. The most massive GMCs (so-called GMAs) are first assembled and then broken up as the gas flow through the spiral arms. The GMAs and their H2 molecules are not fully dissociated into atomic gas as predicted in stellar feedback scenarios, but are fragmented into smaller GMCs upon leaving the spiral arms. The remnants of GMAs are detected as the chains of GMCs that emerge from the spiral arms into interarm regions. The kinematic shear within the spiral arms is sufficient to unbind the GMAs against self-gravity. We conclude that the evolution of GMCs is driven by large-scale galactic dynamics --their coagulation into GMAs is due to spiral arm streaming motions upon entering the arms, followed by fragmentation due to shear as they leave the arms on the downstream side. In M51, the majority of the gas remains molecular from arm entry through the inter-arm region and into the next spiral arm passage.
Comment: 6 pages, including 3 figures. Accepted, ApJL
Comment: 6 pages, including 3 figures. Accepted, ApJL