Recent star formation in the Lupus clouds as seen by Herschel

We present a study of the star formation histories of the Lupus I, III, and IV clouds using the Herschel 70-500 micron maps obtained by the Herschel Gould Belt Survey Key Project. By combining the new Herschel data with the existing Spitzer catalog we obtained an unprecedented census of prestellar sources and young stellar objects in the Lupus clouds, which allowed us to study the overall star formation rate (SFR) and efficiency (SFE). The high SFE of Lupus III, its decreasing SFR, and its large number of pre-main sequence stars with respect to proto- and prestellar sources, suggest that Lupus III is the most evolved cloud, and after having experienced a major star formation event in the past, is now approaching the end of its current star-forming cycle. Lupus I is currently undergoing a large star formation event, apparent by the increasing SFR, the large number of prestellar objects with respect to more evolved objects, and the high percentage of material at high extinction (e.g., above A_V=8 mag). Also Lupus IV has an increasing SFR; however, the relative number of prestellar sources is much lower, suggesting that its star formation has not yet reached its peak.

[1]  Alessio Traficante,et al.  Artifact Removal for GLS Map Makers by Means of Post-Processing , 2012, IEEE Transactions on Image Processing.

[2]  P. Didelon,et al.  A multi-scale, multi-wavelength source extraction method: getsources , 2012, 1204.4508.

[3]  S. Molinari,et al.  Multiline spectral imaging of dense cores in the Lupus molecular cloud , 2011, 1108.4809.

[4]  L. Calzoletti,et al.  Data reduction pipeline for the Hi-GAL survey , 2011, 1106.0698.

[5]  E. Solano,et al.  A proper motion study of the Lupus clouds using Virtual Observatory tools , 2011, 1103.2667.

[6]  N. Evans,et al.  THE SPITZER SURVEY OF INTERSTELLAR CLOUDS IN THE GOULD BELT. IV. LUPUS V AND VI OBSERVED WITH IRAC AND MIPS , 2011, 1101.4546.

[7]  A. Weiss,et al.  The end of star formation in Chamaeleon I? A LABOCA census of starless and protostellar cores , 2011, 1101.0718.

[8]  Sergio Molinari,et al.  Source extraction and photometry for the far-infrared and sub-millimeter continuum in the presence of complex backgrounds , 2010, 1011.3946.

[9]  N. Evans,et al.  THE STAR FORMATION RATE AND GAS SURFACE DENSITY RELATION IN THE MILKY WAY: IMPLICATIONS FOR EXTRAGALACTIC STUDIES , 2010, 1009.1621.

[10]  Peter G. Martin,et al.  Dust temperature tracing the ISRF intensity in the Galaxy , 2010 .

[11]  S. Ott,et al.  Herschel Space Observatory - An ESA facility for far-infrared and submillimetre astronomy , 2010, 1005.5331.

[12]  S. J. Liu,et al.  Herschel : the first science highlights Special feature L etter to the E ditor The Herschel-SPIRE instrument and its in-flight performance , 2010 .

[13]  M. Sauvage,et al.  The Aquila prestellar core population revealed by Herschel , 2010, 1005.2981.

[14]  H. Roussel,et al.  From filamentary clouds to prestellar cores to the stellar IMF: Initial highlights from the Herschel Gould Belt survey , 2010, 1005.2618.

[15]  F. Piacentini,et al.  A Herschel study of YSO evolutionary stages and formation timelines in two fields of the Hi-GAL survey , 2010, 1005.1783.

[16]  S. Maddox,et al.  Herschel-ATLAS: Extragalactic number counts from 250 to 500 microns , 2010, 1005.2409.

[17]  D. Padgett,et al.  THE SPITZER c2d LEGACY RESULTS: STAR-FORMATION RATES AND EFFICIENCIES; EVOLUTION AND LIFETIMES , 2008, 0811.1059.

[18]  L. Mundy,et al.  THE MID-INFRARED EXTINCTION LAW IN THE OPHIUCHUS, PERSEUS, AND SERPENS MOLECULAR CLOUDS , 2008, 0809.1106.

[19]  Bonn,et al.  MAMBO Mapping Of Spitzer c2d Small Clouds And Cores , 2008, 0805.4205.

[20]  E. Rosolowsky,et al.  The Mass Distribution and Lifetime of Prestellar Cores in Perseus, Serpens, and Ophiuchus , 2008, 0805.1075.

[21]  T. Prusti,et al.  The Spitzer c2d Survey of Large, Nearby, Interstellar Clouds. XI. Lupus Observed with IRAC and MIPS , 2008, 0803.1504.

[22]  Thomas Henning,et al.  The Photodetector Array Camera and Spectrometer (PACS) for the Herschel Space Observatory , 2004, Astronomical Telescopes + Instrumentation.

[23]  Yasuo Fukui,et al.  Gas and Dust Condensations and a Peculiar Class 0 Object in the Lupus 3 Star-Forming Cloud , 2007 .

[24]  P. Andre',et al.  A SCUBA survey of L1689 ¿ the dog that didn't bark , 2006, astro-ph/0603203.

[25]  A. Potsdam,et al.  Evolution of Class 0 protostars: models versus observations , 2006, astro-ph/0602049.

[26]  L. M. A a , 2004 .

[27]  E. al.,et al.  From molecular cores to planet-forming disks: An SIRTF legacy program , 2003, astro-ph/0305127.

[28]  P. Bevilacqua L1 , 2002 .

[29]  F. Palla,et al.  Accelerating Star Formation in Clusters and Associations , 2000 .

[30]  E. Young,et al.  Further Mid-Infrared Study of the rho Ophiuchi Cloud Young Stellar Population: Luminosities and Masses of Pre--Main-Sequence Stars , 1994 .

[31]  P. Andre',et al.  A submillimetre continuum survey of pre-protostellar cores , 1994 .

[32]  J. Torra,et al.  The characteristics and origin of the Gould's Belt , 1992 .

[33]  C. Lada,et al.  The nature of the embedded population in the Rho Ophiuchi dark cloud - Mid-infrared observations , 1984 .

[34]  B. Savage,et al.  A survey of interstellar H I from L-alpha absorption measurements. II , 1978 .

[35]  F. Shu Self-similar collapse of isothermal spheres and star formation. , 1977 .

[36]  W. Bonnar,et al.  Boyle's Law and gravitational instability , 1956 .