Your search keyword '"Allen, Thomas S."' showing total 15 results

1. The Rate, Amplitude and Duration of Outbursts from Class 0 Protostars in Orion

Author

Zakri, W., Megeath, S. T., Fischer, W. J., Gutermuth, Robert, Furlan, Elise, Hartmann, Lee, Karnath, Nicole, Osorio, Mayra, Safron, Emily, Stanke, Thomas, Stutz, Amelia M., Tobin, John J., Allen, Thomas S., Federman, Sam, Habel, Nolan, Manoj, P., Narang, Mayank, Pokhrel, Riwaj, Rebull, Luisa, Sheehan, Patrick D., and Watson, Dan M.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

At least half of a protostar's mass is accreted in the Class 0 phase, when the central protostar is deeply embedded in a dense, infalling envelope. We present the first systematic search for outbursts from Class 0 protostars in the Orion clouds. Using photometry from Spitzer/IRAC spanning 2004 to 2017, we detect three outbursts from Class 0 protostars with $\ge 2$ mag changes at 3.6 or 4.5 $\mu$m. This is comparable to the magnitude change of a known protostellar FU Ori outburst. Two are newly detected bursts from the protostars HOPS 12 and 124. The number of detections implies that Class 0 protostars burst every 438 yr, with a 95% confidence interval of 161 to 1884 yr. Combining Spitzer and WISE/NEOWISE data spanning 2004-2019, we show that the bursts persist for more than nine years with significant variability during each burst. Finally, we use $19-100$ $\mu$m photometry from SOFIA, Spitzer and Herschel to measure the amplitudes of the bursts. Based on the burst interval, a duration of 15 yr, and the range of observed amplitudes, 3-100% of the mass accretion during the Class 0 phase occurs during bursts. In total, we show that bursts from Class 0 protostars are as frequent, or even more frequent, than those from more evolved protostars. This is consistent with bursts being driven by instabilities in disks triggered by rapid mass infall. Furthermore, we find that bursts may be a significant, if not dominant, mode of mass accretion during the Class 0 phase., Comment: Accepted to ApJL

Published

2022

2. A Spitzer View of Mon OB1 East/NGC 2264

Author

Rapson, Valerie A., Pipher, Judith L., Gutermuth, Robert A., Megeath, S. Thomas, Allen, Thomas S., Myers, Philip C., and Allen, Lori E.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present Spitzer 3.6, 4.5, 5.8, 8.0, and 24 micron images of the Mon OB1 East giant molecular cloud, which contains the young star forming region NGC 2264, as well as more extended star formation. With Spitzer data and 2MASS photometry, we identify and classify young stellar objects (YSOs) with dusty circumstellar disks and/or envelopes in Mon OB1 East by their infrared-excess emission and study their distribution with respect to cloud material. We find a correlation between the local surface density of YSOs and column density of molecular gas as traced by dust extinction that is roughly described as a power law in these quantities. NGC 2264 follows a power law index of ~2.7, exhibiting a large YSO surface density for a given gas column density. Outside of NGC 2264 where the surface density of YSOs is lower, the power law is shallower and the region exhibits a larger gas column density for a YSO surface density, suggesting the star formation is more recent. In order to measure the fraction of cloud members with circumstellar disks/envelopes, we estimate the number of diskless pre-main sequence stars by statistical removal of background star detections. We find that the disk fraction of the NGC 2264 region is 45%, while the surrounding more distributed regions show a disk fraction of 19%. This may be explained by the presence an older, more dispersed population of stars. In total, the Spitzer observations provide evidence for heterogenous, non-coeval star formation throughout the Mon OB1 cloud., Comment: 27 pages, 5 figures, accepted to ApJ

Published

2014

3. An Anomalous Extinction Law in the Cep OB3b Young Cluster: Evidence for dust processing during gas dispersal

Author

Allen, Thomas S., Prchlik, Jakub J., Megeath, S. Thomas, Gutermuth, Robert A., Pipher, Judith L., Naylor, Tim, and Jeffries, Rob D.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We determine the extinction law through Cep OB3b, a young cluster of 3000 stars undergoing gas dispersal. The extinction is measured toward 76 background K giants identified with MMT/Hectospec spectra. Color excess ratios were determined toward each of the giants using $V$ and $R$ photometry from the literature, $g$,$r$,$i$ and $z$ photometry from SDSS and $J$, $H$, and $K_{s}$ photometry from 2MASS. These color excess ratios were the used to construct the extinction law through the dusty material associated with Cep OB3b. The extinction law through Cep OB3b is intermediate between the $R_{V} = 3.1$ and $R_{V} = 5$ laws commonly used for the diffuse atomic ISM and dense molecular clouds, respectively. The dependence of the extinction law on line-of-sight $A_{V}$ is investigated and we find the extinction law becomes shallower for regions with $A_{V} > 2.5$ magnitudes. We speculate that the intermediate dust law results from dust processing during the dispersal of the molecular cloud by the cluster., Comment: 31 pages, 10 Figures, 3 Tables, accepted for publication in ApJ

Published

2014

4. Spitzer Imaging of the Nearby Rich Young Cluster, Cep OB3b

Author

Allen, Thomas S., Gutermuth, Robert A., Kryukova, Erin, Megeath, S. Thomas, Pipher, Judith L., Naylor, Tim, Jeffries, R. D., Wolk, Scott J., Spitzbart, Brad, and Muzzerolle, James

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We map the full extent of a rich massive young cluster in the Cep OB3b association with the IRAC and MIPS instruments aboard the {\it Spitzer} Space Telescope and the ACIS instrument aboard the $\it{Chandra}$ X-Ray Observatory. At 700 pc, it is revealed to be the second nearest large ($>1000$ member), young ($< 5$ Myr) cluster known. In contrast to the nearest large cluster, the Orion Nebula Cluster, Cep OB3b is only lightly obscured and is mostly located in a large cavity carved out of the surrounding molecular cloud. Our infrared and X-ray datasets, as well as visible photometry from the literature, are used to take a census of the young stars in Cep OB3b. We find that the young stars within the cluster are concentrated in two sub-clusters; an eastern sub-cluster, near the Cep B molecular clump, and a western sub-cluster, near the Cep F molecular clump. Using our census of young stars, we examine the fraction of young stars with infrared excesses indicative of circumstellar disks. We create a map of the disk fraction throughout the cluster and find that it is spatially variable. Due to these spatial variations, the two sub-clusters exhibit substantially different average disk fractions from each other: $32% \pm 4%$ and $50% \pm 6%$. We discuss whether the discrepant disk fractions are due to the photodestruction of disks by the high mass members of the cluster or whether they result from differences in the ages of the sub-clusters. We conclude that the discrepant disk fractions are most likely due to differences in the ages., Comment: 48 Pages, 12 figures, 6 tables

Published

2012

5. Spitzer, Near-Infrared, and Submillimeter Imaging of the Relatively Sparse Young Cluster, Lynds 988e

Author

Allen, Thomas S., Pipher, Judith L., Gutermuth, Robert A., Megeath, S. Thomas, Adams, Joseph D., Herter, Terry L., Williams, Jonathan P., Goetz-Bixby, Jennifer A., Allen, Lori E., and Myers, Philip C.

Subjects

Astrophysics

Abstract

We present {\it Spitzer} images of the relatively sparse, low luminosity young cluster L988e, as well as complementary near-infrared (NIR) and submillimeter images of the region. The cluster is asymmetric, with the western region of the cluster embedded within the molecular cloud, and the slightly less dense eastern region to the east of, and on the edge of, the molecular cloud. With these data, as well as with extant H$\alpha$ data of stars primarily found in the eastern region of the cluster, and a molecular $^{13}$CO gas emission map of the entire region, we investigate the distribution of forming young stars with respect to the cloud material, concentrating particularly on the differences and similarities between the exposed and embedded regions of the cluster. We also compare star formation in this region to that in denser, more luminous and more massive clusters already investigated in our comprehensive multi-wavelength study of young clusters within 1 kpc of the Sun., Comment: 21 pages, 6 tables, 13 figures. Full resolution figures at: http://astro.pas.rochester.edu/~tom/Preprints/L988e.pdf

Published

2007

6. The Rate, Amplitude, and Duration of Outbursts from Class 0 Protostars in Orion

Author

Zakri, Wafa, primary, Megeath, S. T., additional, Fischer, William J., additional, Gutermuth, Robert, additional, Furlan, Elise, additional, Hartmann, Lee, additional, Karnath, Nicole, additional, Osorio, Mayra, additional, Safron, Emily, additional, Stanke, Thomas, additional, Stutz, Amelia M., additional, Tobin, John J., additional, Allen, Thomas S., additional, Federman, Sam, additional, Habel, Nolan, additional, Manoj, P., additional, Narang, Mayank, additional, Pokhrel, Riwaj, additional, Rebull, Luisa, additional, Sheehan, Patrick D., additional, and Watson, Dan M., additional

Published

2022

7. Star–Gas Surface Density Correlations in 12 Nearby Molecular Clouds. I. Data Collection and Star-sampled Analysis

Author

Pokhrel, Riwaj, primary, Gutermuth, Robert A., additional, Betti, Sarah K., additional, Offner, Stella S. R., additional, Myers, Philip C., additional, Megeath, S. Thomas, additional, Sokol, Alyssa D., additional, Ali, Babar, additional, Allen, Lori, additional, Allen, Thomas S., additional, Dunham, Michael M., additional, Fischer, William J., additional, Henning, Thomas, additional, Heyer, Mark, additional, Hora, Joseph L., additional, Pipher, Judith L., additional, Tobin, John J., additional, and Wolk, Scott J., additional

Published

2020

8. AN ANOMALOUS EXTINCTION LAW IN THE Cep OB3b YOUNG CLUSTER: EVIDENCE FOR DUST PROCESSING DURING GAS DISPERSAL

Author

Allen, Thomas S., primary, Prchlik, Jakub J., additional, Megeath, S. Thomas, additional, Gutermuth, Robert A., additional, Pipher, Judith L., additional, Naylor, Tim, additional, and Jeffries, R. D., additional

Published

2014

9. SPITZERIMAGING OF THE NEARBY RICH YOUNG CLUSTER, Cep OB3b

Author

Allen, Thomas S., primary, Gutermuth, Robert A., additional, Kryukova, Erin, additional, Thomas Megeath, S., additional, Pipher, Judith L., additional, Naylor, Tim, additional, Jeffries, R. D., additional, Wolk, Scott J., additional, Spitzbart, Brad, additional, and Muzerolle, James, additional

Published

2012

10. Spitzer, Near‐Infrared, and Submillimeter Imaging of the Relatively Sparse Young Cluster, Lynds 988e

Author

Allen, Thomas S., primary, Pipher, Judith L., additional, Gutermuth, Robert A., additional, Megeath, S. Thomas, additional, Adams, Joseph D., additional, Herter, Terry L., additional, Williams, Jonathan P., additional, Goetz‐Bixby, Jennifer A., additional, Allen, Lori E., additional, and Myers, Philip C., additional

Published

2008

11. Characterization of 2.5 micron HgCdTe VIRGO/VISTA detector array

Author

McMurtry, Craig W., primary, Allen, Thomas S., additional, Moore, Andrew C., additional, Forrest, William J., additional, and Pipher, Judith L., additional

Published

2005

12. The Pussy Cat Rag

Author

Daly, Joseph M. (Composer), Allen, Thomas S. (Composer), Allen, Thomas S. (Lyricist), Daly, Joseph M. (Composer), Allen, Thomas S. (Composer), and Allen, Thomas S. (Lyricist)

Abstract

jazz@tulane.edu

Published

1913

13. Strolling home with Jennie

Author

Starmer (Artist), Allen, Thomas S., 1876-1919. (Composer, Lyricist), Starmer (Artist), and Allen, Thomas S., 1876-1919. (Composer, Lyricist)

Published

1906

14. Birth of a nation

Author

Allen, Thomas S., 1876-1919 (Lyricist), Daly, Jos. M. (Joseph M.) (Composer), Allen, Thomas S., 1876-1919 (Lyricist), and Daly, Jos. M. (Joseph M.) (Composer)

Published

1915

15. A Multi-wavelength survey of the Young Stellar Cluster Cep OB3b

Author

Allen, Thomas S.

Subjects

Astronomy, pre-main sequence stars, interstellar extinction, stellar clusters

Abstract

We present results from an extensive multi-wavelength survey of Cep OB3b, one of the largest young clusters within 1 kpc of the Sun. We estimate that Cep OB3b has a membership of approximately 3000 young stars in a region of 10 x 7 pc (Allen et al. 2012). Similar in membership and overall size to the Orion Nebular Cluster, Cep OB3b is older and more evolved, with most of the young stars located in a cavity with a V-band extinction of less than 2.5 magnitudes. Star formation is still occurring in the molecular clouds that border the cavity. Literature age estimates for this region give a range between 3 Myr and 6 Myr (Mayne et al. 2007, Littlefair et al. 2010, Bell et al. 2013). We have compiled an extensive multi-wavelength database of candidate member young stars that are well characterized with spectral types, bolometric luminosities, masses, isochronal ages, X-ray properties and the presence (or lack) of a disk.To construct a precise HR diagram for ~700 cluster members, we derive an extinction law for this region between 500 nm and 2.2 micron and find it intermediate between that of dense clouds (Rv ~ 5) and that of the diffuse ISM (Rv ~ 3). Using the Siess (2000) models and assuming a distance of 700 pc give an isochronal age of 2 Myr. We find that certain cluster properties, such as the disk fraction and rotation period distribution, vary spatially across the cluster. We analyze whether these variations are due to environmental differences (such as nearby massive O stars) or a mixture of ages in the cluster. In the case of the disks, we conclude that the variations are due to a mixture of ages.

Published

2014