Your search keyword '"Levesque, E. M."' showing total 48 results

1. Detection of three Gamma-Ray Burst host galaxies at $z\sim6$

Author

McGuire, J. T. W., Tanvir, N. R., Levan, A. J., Trenti, M., Stanway, E. R., Shull, J. M., Wiersema, K., Perley, D. A., Starling, R. L. C., Bremer, M., Stocke, J. T., Hjorth, J., Rhoads, J. E., Curtis-Lake, E., Schulze, S., Levesque, E. M., Robertson, B., Fynbo, J. P. U., Ellis, R. S., and Fruchter, A. S.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Long-duration Gamma-Ray Bursts (GRBs) allow us to pinpoint and study star-forming galaxies in the early universe, thanks to their orders of magnitude brighter peak luminosities compared to other astrophysical sources, and their association with deaths of massive stars. We present Hubble Space Telescope Wide Field Camera 3 detections of three Swift GRB host galaxies lying at redshifts $z = 5.913$ (GRB 130606A), $z = 6.295$ (GRB 050904), and $z = 6.327$ (GRB 140515A) in the F140W (wide-$JH$ band, $\lambda_{\rm{obs}}\sim1.4\,\mu m$) filter. The hosts have magnitudes (corrected for Galactic extinction) of $m_{\rm{\lambda_{obs},AB}}= 26.34^{+0.14}_{-0.16}, 27.56^{+0.18}_{-0.22},$ and $28.30^{+0.25}_{-0.33}$ respectively. In all three cases the probability of chance coincidence of lower redshift galaxies is $\lesssim2\,\%$, indicating that the detected galaxies are most likely the GRB hosts. These are the first detections of high redshift ($z > 5$) GRB host galaxies in emission. The galaxies have luminosities in the range $0.1-0.6\,L^{*}_{z=6}$ (with $M_{1600}^{*}=-20.95\pm0.12$), and half-light radii in the range $0.6-0.9\,\rm{kpc}$. Both their half-light radii and luminosities are consistent with existing samples of Lyman-break galaxies at $z\sim6$. Spectroscopic analysis of the GRB afterglows indicate low metallicities ($[\rm{M/H}]\lesssim-1$) and low dust extinction ($A_{\rm{V}}\lesssim0.1$) along the line of sight. Using stellar population synthesis models, we explore the implications of each galaxy's luminosity for its possible star formation history, and consider the potential for emission-line metallicity determination with the upcoming James Webb Space Telescope., Comment: Published in ApJ

Published

2015

2. High Metallicity LGRB Hosts

Author

Graham, J. F., Fruchter, A. S., Levesque, E. M., Kewley, L. J., Tanvir, N. R., Levan, A. J., Patel, S. K., Misra, K., Huang, K. -H., Reichart, D. E., Nysewander, M., and Schady, P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present our imaging and spectroscopic observations of the host galaxies of two dark long bursts with anomalously high metallicities, LGRB 051022 and LGRB 020819B, which in conjunction with another LGRB event with an optical afterglow comprise the three LGRBs with high metallicity host galaxies in the Graham & Fruchter (2013) sample. In Graham & Fruchter (2013), we showed that LGRBs exhibit a strong and apparently intrinsic preference for low metallicity environments (12+log(O/H) < 8.4 in the KK04 scale) in spite of these three cases with abundances of about solar and above. These exceptions however are consistent with the general star-forming galaxy population of comparable brightness & redshift. This is surprising: even among a preselected sample of high metallicity LGRBs, were the metal aversion to remain in effect for these objects, we would expect their metallicity to still be lower than the typical metallicity for the galaxies at that luminosity and redshift. Therefore we deduce that it is possible to form an LGRB in a high metallicity environment although with greater rarity. From this we conclude that there are three possible explanations for the presence of the LGRBs observed in high metallicity hosts as seen to date: (1) LGRBs do not occur in high metallicity environments and those seen in high metallicity hosts are in fact occurring in low metallicity environments that have become associated with otherwise high metallicity hosts but remain unenriched. (2) The LGRB formation mechanism while preferring low metallicity environments does not strictly require it resulting in a gradual decline in burst formation with increasing metallicity. (3) The typical low metallicity LGRBs and the few high metallicity cases are the result of physically different burst formation pathways with only the former affected by the metallicity and the later occurring much more infrequently., Comment: 16 pages, 10 figures

Published

2015

3. ALMA Observations of the Host Galaxy of GRB090423 at z=8.23: Deep Limits on Obscured Star Formation 630 Million Years After the Big Bang

Author

Berger, E., Zauderer, B. A., Chary, R. -R., Laskar, T., Chornock, R., Tanvir, N. R., Stanway, E. R., Levan, A. J., Levesque, E. M., and Davies, J. E.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present rest-frame far-infrared (FIR) and optical observations of the host galaxy of GRB090423 at z=8.23 from the Atacama Large Millimeter Array (ALMA) and the Spitzer Space Telescope, respectively. The host remains undetected to 3-sigma limits of Fnu(222 GHz)<33 microJy and Fnu(3.6 micron)<81 nJy. The FIR limit is about 20 times fainter than the luminosity of the local ULIRG Arp220, and comparable to the local starburst M82. Comparing to model spectral energy distributions we place a limit on the IR luminosity of L_IR(8-1000 micron)<3e10 Lsun, corresponding to a limit on the obscured star formation rate of SFR_IR<5 Msun/yr; for comparison, the limit on the unobscured star formation rate from Hubble Space Telescope rest-frame UV observations is SFR_UV<1 Msun/yr. We also place a limit on the host galaxy stellar mass of <5e7 Msun (for a stellar population age of 100 Myr and constant star formation rate). Finally, we compare our millimeter observations to those of field galaxies at z>4 (Lyman break galaxies, Ly-alpha emitters, and submillimeter galaxies), and find that our limit on the FIR luminosity is the most constraining to date, although the field galaxies have much larger rest-frame UV/optical luminosities than the host of GRB090423 by virtue of their selection techniques. We conclude that GRB host galaxies at z>4, especially those with measured interstellar medium metallicities from afterglow spectroscopy, are an attractive sample for future ALMA studies of high redshift obscured star formation., Comment: Submitted to ApJ; 9 pages, 3 figures, 2 tables

Published

2014

4. A panchromatic view of the restless SN2009ip reveals the explosive ejection of a massive star envelope

Author

Margutti, R., Milisavljevic, D., Soderberg, A. M., Chornock, R., Zauderer, B. A., Murase, K., Guidorzi, C., Sanders, N. E., Kuin, P., Fransson, C., Levesque, E. M., Chandra, P., Berger, E., Bianco, F. B., Brown, P. J., Challis, P., Chatzopoulos, E., Cheung, C. C., Choi, C., Chomiuk, L., Chugai, N., Contreras, C., Drout, M. R., Fesen, R., Foley, R. J., Fong, W., Friedman, A. S., Gall, C., Gehrels, N., Hjorth, J., Hsiao, E., Kirshner, R., Im, M., Leloudas, G., Lunnan, R., Marion, G. H., Martin, J., Morrell, N., Neugent, K. F., Omodei, N., Phillips, M. M., Rest, A., Silverman, J. M., Strader, J., Stritzinger, M. D., Szalai, T., Utterback, N. B., Vinko, J., Wheeler, J. C., Arnett, D., Campana, S., Chevalier, R., Ginsburg, A., Kamble, A., Roming, P. W. A., Pritchard, T., and Stringfellow, G.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The 2012 explosion of SN2009ip raises questions about our understanding of the late stages of massive star evolution. Here we present a comprehensive study of SN2009ip during its remarkable re-brightening(s). High-cadence photometric and spectroscopic observations from the GeV to the radio band obtained from a variety of ground-based and space facilities (including the VLA, Swift, Fermi, HST and XMM) constrain SN2009ip to be a low energy (E~ 10^50 erg for an ejecta mass ~ 0.5 Msun) and likely asymmetric explosion in a complex medium shaped by multiple eruptions of the restless progenitor star. Most of the energy is radiated as a result of the shock breaking out through a dense shell of material located at 5x10^14 cm with M~0.1 Msun, ejected by the precursor outburst ~40 days before the major explosion. We interpret the NIR excess of emission as signature of dust vaporization of material located further out (R>4x 10^15 cm), the origin of which has to be connected with documented mass loss episodes in the previous years. Our modeling predicts bright neutrino emission associated with the shock break-out if the cosmic ray energy is comparable to the radiated energy. We connect this phenomenology with the explosive ejection of the outer layers of the massive progenitor star, that later interacted with material deposited in the surroundings by previous eruptions. Future observations will reveal if the luminous blue variable (LBV) progenitor star survived. Irrespective of whether the explosion was terminal, SN2009ip brought to light the existence of new channels for sustained episodic mass-loss, the physical origin of which has yet to be identified., Comment: Visit https://www.cfa.harvard.edu/~rmargutt/ for a 5-minute presentation highlighting the major results and to hear a sonification of the SN2009ip explosion

Published

2013

5. Multi-Wavelength Observations of Supernova 2011ei: Time-Dependent Classification of Type IIb and Ib Supernovae and Implications for their Progenitors

Author

Milisavljevic, D., Margutti, R., Soderberg, A. M., Pignata, G., Chomiuk, L., Fesen, R., Bufano, F., Sanders, N. E., Parrent, J. T., Parker, S., Mazzali, P., Pian, E., Pickering, T., Buckley, D., Crawford, S., Gulbis, A. A. M., Hettlage, C., Hooper, E., Nordsieck, K., O'Donoghue, D., Husser, T. -O., Potter, S., Kniazev, A., Kotze, P., Romero-Colmenero, E., Vaisanen, P., Wolf, M., Bietenholz, M., Bartel, N., Fransson, C., Walker, E. S., Brunthaler, A., Chakraborti, S., Levesque, E. M., MacFadyen, A., Drescher, C., Bock, G., Marples, P., Anderson, J. P., Benetti, S., Reichart, D., and Ivarsen, K.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present X-ray, UV/optical, and radio observations of the stripped-envelope, core-collapse supernova (SN) 2011ei, one of the least luminous SNe IIb or Ib observed to date. Our observations begin with a discovery within 1 day of explosion and span several months afterward. Early optical spectra exhibit broad, Type II-like hydrogen Balmer profiles that subside rapidly and are replaced by Type Ib-like He-rich features on the timescale of one week. High-cadence monitoring of this transition suggests that absorption attributable to a high velocity (> 12,000 km/s) H-rich shell is not rare in Type Ib events. Radio observations imply a shock velocity of v = 0.13c and a progenitor star mass-loss rate of 1.4 x 10^{-5} Msun yr^{-1} (assuming wind velocity v_w=10^3 km/s). This is consistent with independent constraints from deep X-ray observations with Swift-XRT and Chandra. Overall, the multi-wavelength properties of SN 2011ei are consistent with the explosion of a lower-mass (3-4 Msun), compact (R* <= 1x10^{11} cm), He core star. The star retained a thin hydrogen envelope at the time of explosion, and was embedded in an inhomogeneous circumstellar wind suggestive of modest episodic mass-loss. We conclude that SN 2011ei's rapid spectral metamorphosis is indicative of time-dependent classifications that bias estimates of explosion rates for Type IIb and Ib objects, and that important information about a progenitor star's evolutionary state and mass-loss immediately prior to SN explosion can be inferred from timely multi-wavelength observations., Comment: 20 pages, 19 figures, accepted for publication in the Astrophysical Journal

Published

2012

6. SN 2010ay is a Luminous and Broad-lined Type Ic Supernova within a Low-metallicity Host Galaxy

Author

Sanders, Nathan E., Soderberg, A. M., Valenti, S., Foley, R. J., Chornock, R., Chomiuk, L., Berger, E., Smartt, S., Hurley, K., Barthelmy, S. D., Levesque, E. M., Narayan, G., Kirshner, R. P., Botticella, M. T., Briggs, M. S., Connaughton, V., Terada, Y., Gehrels, N., Golenetskii, S., Mazets, E., Cline, T., von Kienlin, A., Boynton, W., Chambers, K. C., Grav, T., Heasley, J. N., Hodapp, K. W., Jedicke, R., Kaiser, N., Kudritzki, R. -P., Luppino, G. A., Lupton, R. H., Magnier, E. A., Monet, D. G., Morgan, J. S., Onaka, P. M., Price, P. A., Stubbs, C. W., Tonry, J. L., Wainscoat, R. J., and Waterson, M. F.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report on our serendipitous pre-discovery detection and detailed follow-up of the broad-lined Type Ic supernova (SN) 2010ay at z = 0.067 imaged by the Pan-STARRS1 3pi survey just ~4 days after explosion. The SN had a peak luminosity, M_R ~ -20.2 mag, significantly more luminous than known GRB-SNe and one of the most luminous SNe Ib/c ever discovered. The absorption velocity of SN 2010ay is v_Si ~ 19,000 km/s at ~40 days after explosion, 2-5 times higher than other broad-lined SNe and similar to the GRB-SN 2010bh at comparable epochs. Moreover, the velocity declines ~2 times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of 56 Ni, M_Ni = 0.9 M_solar. Modeling of the light-curve points to a total ejecta mass, M_ej ~ 4.7 M_sol, and total kinetic energy, E_K ~ 11x10^51 ergs. The ratio of M_Ni to M_ej is ~2 times as large for SN 2010ay as typical GRB-SNe and may suggest an additional energy reservoir. The metallicity (log(O/H)_PP04 + 12 = 8.19) of the explosion site within the host galaxy places SN 2010ay in the low-metallicity regime populated by GRB-SNe, and ~0.5(0.2) dex lower than that typically measured for the host environments of normal (broad-lined) Ic supernovae. We constrain any gamma-ray emission with E_gamma < 6x10^{48} erg (25-150 keV) and our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy, E > 10^48 erg. We therefore rule out the association of a relativistic outflow like those which accompanied SN 1998bw and traditional long-duration GRBs, but place less-stringent constraints on a weak afterglow like that seen from XRF 060218. These observations challenge the importance of progenitor metallicity for the production of a GRB, and suggest that other parameters also play a key role., Comment: 19 pages, 10 figures, V3 has revisions following referee's report; more information at http://www.cfa.harvard.edu/~nsanders/papers/2010ay/summary.html

Published

2011

7. Panchromatic Observations of SN 2011dh Point to a Compact Progenitor Star

Author

Soderberg, Alicia M., Margutti, R., Zauderer, B. A., Krauss, M., Katz, B., Chomiuk, L., Dittmann, J. A., Nakar, E., Sakamoto, T., Kawai, N., Hurley, K., Barthelmy, S., Toizumi, T., Morii, M., Chevalier, R. A., Gurwell, M., Petitpas, G., Rupen, M., Alexander, K. D., Levesque, E. M., Fransson, C., Brunthaler, A., Bietenholz, M. F., Chugai, N., Grindlay, J., Copete, A., Connaughton, V., Briggs, M., Meegan, C., von Kienlin, A., Zhang, X., Rau, A., Golenetskii, S., Mazets, E., and Cline, T.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We report the discovery and detailed monitoring of X-ray emission associated with the Type IIb SN 2011dh using data from the Swift and Chandra satellites, placing it among the best studied X-ray supernovae to date. We further present millimeter and radio data obtained with the SMA, CARMA, and EVLA during the first three weeks after explosion. Combining these observations with early optical photometry, we show that the panchromatic dataset is well-described by non-thermal synchrotron emission (radio/mm) with inverse Compton scattering (X-ray) of a thermal population of optical photons. In this scenario, the shock partition fractions deviate from equipartition by a factor, (e_e/e_B) ~ 30. We derive the properties of the shockwave and the circumstellar environment and find a shock velocity, v~0.1c, and a progenitor mass loss rate of ~6e-5 M_sun/yr. These properties are consistent with the sub-class of Type IIb SNe characterized by compact progenitors (Type cIIb) and dissimilar from those with extended progenitors (Type eIIb). Furthermore, we consider the early optical emission in the context of a cooling envelope model to estimate a progenitor radius of ~1e+11 cm, in line with the expectations for a Type cIIb SN. Together, these diagnostics are difficult to reconcile with the extended radius of the putative yellow supergiant progenitor star identified in archival HST observations, unless the stellar density profile is unusual. Finally, we searched for the high energy shock breakout pulse using X-ray and gamma-ray observations obtained during the purported explosion date range. Based on the compact radius of the progenitor, we estimate that the breakout pulse was detectable with current instruments but likely missed due to their limited temporal/spatial coverage. [Abridged], Comment: (27 pages, 5 figures, 2 tables, final version to appear in ApJ)

Published

2011

8. Variable Ly alpha sheds light on the environment surrounding GRB 090426

Author

Thöne, C. C., Campana, S., Lazzati, D., Postigo, A. de Ugarte, Fynbo, J. P. U., Christensen, L., Levan, A. J., Aloy, M. A., Hjorth, J., Jakobsson, P., Levesque, E. M., Malesani, D., Milvang-Jensen, B., Roming, P. W. A., Tanvir, N. R., Wiersema, K., Gladders, M., Wuyts, E., and Dahle, H.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Long duration gamma-ray bursts are commonly associated with the deaths of massive stars. Spectroscopic studies using the afterglow as a light source provide a unique opportunity to unveil the medium surrounding it, probing the densest region of their galaxies. This material is usually in a low ionisation state and at large distances from the burst site, hence representing the normal interstellar medium in the galaxy. Here we present the case of GRB 090426 at z=2.609, whose optical spectrum indicates an almost fully ionised medium together with a low column density of neutral hydrogen. For the first time, we also observe variations in the Ly alpha absorption line. Photoionisation modeling shows that we are probing material from the vicinity of the burst (~80 pc). The host galaxy is a complex of two luminous interacting galaxies, which might suggest that this burst could have occurred in an isolated star-forming region outside its host galaxy created in the interaction of the two galaxies., Comment: 11 pages, 9 figures, submitted to MNRAS

Published

2011

9. A Relativistic Type Ibc Supernova Without a Detected Gamma-ray Burst

Author

Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, C., Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., and Torres, M. A. P.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Long duration gamma-ray bursts (GRBs) mark the explosive death of some massive stars and are a rare sub-class of Type Ibc supernovae (SNe Ibc). They are distinguished by the production of an energetic and collimated relativistic outflow powered by a central engine (an accreting black hole or neutron star). Observationally, this outflow is manifested in the pulse of gamma-rays and a long-lived radio afterglow. To date, central engine-driven SNe have been discovered exclusively through their gamma-ray emission, yet it is expected that a larger population goes undetected due to limited satellite sensitivity or beaming of the collimated emission away from our line-of-sight. In this framework, the recovery of undetected GRBs may be possible through radio searches for SNe Ibc with relativistic outflows. Here we report the discovery of luminous radio emission from the seemingly ordinary Type Ibc SN 2009bb, which requires a substantial relativistic outflow powered by a central engine. The lack of a coincident GRB makes SN 2009bb the first engine-driven SN discovered without a detected gamma-ray signal. A comparison with our extensive radio survey of SNe Ibc reveals that the fraction harboring central engines is low, ~1 percent, measured independently from, but consistent with, the inferred rate of nearby GRBs. Our study demonstrates that upcoming optical and radio surveys will soon rival gamma-ray satellites in pinpointing the nearest engine-driven SNe. A similar result for a different supernova is reported independently., Comment: To appear in Nature on Jan 28 2010. Embargoed for discussion in the press until 13:00 US Eastern Time on Jan 27 (Accepted version, 27 pages, Manuscript and Suppl. Info.)

Published

2009

10. The High-Metallicity Explosion Environment of the Relativistic Supernova 2009bb

Author

Levesque, E. M., Soderberg, A. M., Foley, R. J., Berger, E., Kewley, L. J., Chakraborti, S., Ray, A., Torres, M. A. P., Challis, P., Kirshner, R. P., Barthelmy, S. D., Bietenholz, M. F., Chandra, P., Chaplin, V., Chevalier, R. A., Chugai, N., Connaughton, V., Copete, A., Fox, O., Fransson, C., Grindlay, J. E., Hamuy, M. A., Milne, P. A., Pignata, G., Stritzinger, M. D., and Wieringa, M. H.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We investigate the environment of the nearby (d ~ 40Mpc) broad-lined Type Ic supernova SN 2009bb. This event was observed to produce a relativistic outflow likely powered by a central accreting compact object. While such a phenomenon was previously observed only in long-duration gamma-ray bursts (LGRBs), no LGRB was detected in association with SN 2009bb. Using an optical spectrum of the SN 2009bb explosion site, we determine a variety of ISM properties for the host environment, including metallicity, young stellar population age, and star formation rate. We compare the SN explosion site properties to observations of LGRB and broad-lined SN Ic host environments on optical emission line ratio diagnostic diagrams. Based on these analyses, we find that the SN 2009bb explosion site has a very high metallicity of ~2x solar, in agreement with other broad-lined SN Ic host environments and at odds with the low-redshift LGRB host environments and recently proposed maximum metallicity limits for relativistic explosions. We consider the implications of these findings and the impact that SN 2009bb's unusual explosive properties and environment have on our understanding of the key physical ingredient that enables some SNe to produce a relativistic outflow., Comment: 7 pages, 4 figures, 1 table; accepted for publication in ApJ Letters (replaced to include missing figure)

Published

2009

11. Unusually High Metallicity Host Of The Dark LGRB 051022

Author

Graham, J. F., Fruchter, A. S., Kewley, L. J., Levesque, E. M., Levan, A. J., Tanvir, N. R., Reichart, D. E., and Nysewander, M.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We present spectroscopy of the host of GRB 051022 with GMOS nod and shuffle on Gemini South and NIRSPEC on Keck II. We determine a metallicity for the host of log(O/H)+12 = 8.77 using the R23 method (Kobulnicky & Kewley 2004 scale) making this the highest metallicity long burst host yet observed. The galaxy itself is unusually luminous for a LGRB host with a rest frame B band absolute magnitude -21.5 and has the spectrum of a rapidly star-forming galaxy. Our work raises the question of whether other dark burst hosts will show high metallicities., Comment: Conference procedings for The Sixth Huntsville Gamma-Ray Burst Symposium 2008 October 20-23 (3 pages, 2 figures)

Published

2009

12. GRB 070714B - Discovery of the Highest Spectroscopically Confirmed Short Burst Redshift

Author

Graham, J. F., Fruchter, A. S., Levan, A. J., Melandri, A., Kewley, L. J., Levesque, E. M., Nysewander, M., Tanvir, N. R., Dahlen, T., Bersier, D., Wiersema, K., Bonfield, D. G., and Martinez-Sansigre, A.

Subjects

Astrophysics

Abstract

We detect the optical afterglow and host galaxy of GRB 070714B. Our observations of the afterglow show an initial plateau in the lightcurve for approximately the first 5 to 25 minutes, then steepening to a powerlaw decay with index alpha= 0.86 +/- 0.10 for the period between 1 to 24 hours post burst. This is consistent with the X-ray light-curve which shows an initial plateau followed by a similar subsequent decay. At late time, we detect a host galaxy at the location of the optical transient. Gemini Nod & Shuffle spectroscopic observations of the host show a single emission line at 7167 angstroms which, based on a grizJHK photometric redshift, we conclude is the 3727 angstrom [O II] line. We therefore find a redshift of z=0.923. This redshift, as well as a subsequent probable spectroscopic redshift determination of GRB 070429B at z=0.904 by two other groups, significantly exceeds the previous highest spectroscopically confirmed short burst redshift of z=0.546 for GRB 051221. This dramatically moves back the time at which we know short bursts were being formed, and suggests that the present evidence for an old progenitor population may be observationally biased., Comment: ApJ in press (updated to accepted version)

Published

2008

13. The Survey for Ionization in Neutral-Gas Galaxies: III. Diffuse, Warm Ionized Medium and Escape of Ionizing Radiation

Author

Oey, M. S., Meurer, G. R., Yelda, S., Furst, E. J., Caballero-Nieves, S. M., Hanish, D. J., Levesque, E. M., Thilker, D. A., Walth, G. L., and Team, the SINGG

Subjects

Astrophysics

Abstract

We use the first data release from the SINGG H-alpha survey of HI-selected galaxies to study the quantitative behavior of the diffuse, warm ionized medium (WIM) across the range of properties represented by these 109 galaxies. The mean fraction f_WIM of diffuse ionized gas in this sample is 0.59+/- 0.19, slightly higher than found in previous samples. Since lower surface-brightness galaxies tend to have higher f_WIM, we believe that most of this difference is due to selection effects favoring large, optically-bright, nearby galaxies with high star-formation rates. As found in previous studies, there is no appreciable correlation with Hubble type or total star-formation rate. However, we find that starburst galaxies, defined here by an H-alpha surface brightness > 2.5x 10^39 erg s^-1 kpc^-2 within the H-alpha half-light radius, do show much lower fractions of diffuse H-alpha emission. The cause apparently is not dominated by a lower fraction of field OB stars. However, it is qualitatively consistent with an expected escape of ionizing radiation above a threshold star-formation rate, predicted from our model in which the ISM is shredded by pressure-driven supernova feedback. The HI gas fractions in the starburst galaxies are also lower, suggesting that the starbursts are consuming and ionizing all the gas, and thus promoting regions of density-bounded ionization. If true, these effects imply that some amount of Lyman continuum radiation is escaping from most starburst galaxies, and that WIM properties and outflows from mechanical feedback are likely to be pressure-driven. However, in view of previous studies showing that the escape fraction of ionizing radiation is generally low, it is likely that other factors also drive the low fractions of diffuse ionized gas in starbursts., Comment: 16 pages plus separate 2-page PostScript table. Accepted to the Astrophysical Journal

Published

2007

14. A New Class of Pulsating Yellow Supergiants

Author

Dorn-Wallenstein, T. Z., Levesque, E. M., Neugent, K. F., Davenport, J. R. A., Morris, B. M., and Gootkin, K.

Subjects

stars: massive, stars: variables: general, stars: supergiants, Astrophysics::High Energy Astrophysical Phenomena, stars: winds, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Earth and Planetary Astrophysics, stars: oscillations, stars: mass-loss, Astrophysics::Galaxy Astrophysics

Abstract

We report the discovery of a new class of pulsating yellow supergiants observed by TESS. These stars are drawn from a sample of 75 cool (A-M) supergiants in the Galaxy and LMC. Stochastic low frequency variability (SLFV) is ubiquitous in the lightcurves of the entire sample. We rule out surface convection as the physical mechanism underlying this variability, suggesting it is connected to SLFV observed in hot stars. After correcting for the stochastic background, we find five yellow supergiants, all with similar luminosities and effective temperatures, that exhibit multiple periodicities on sub-day timescales. The region of the HR diagram containing these stars is not associated with any known class of pulsating star. We dub these stars “Fast Yellow Pulsating Supergiants” (FYPS). We discuss the properties of each individual FYPS, and their potential for unlocking asteroseismic analyses of cool supergiants. We conclude by discussing the significance of this discovery in the context of the red supergiant problem.

Published

2021

15. SN 2010ay Is a Luminous and Broad-Lined Type Ic Supernova Within a Low-Metallicity Host Galaxy

Author

Sanders, N. E, Soderberg, A. M, Valenti, S, Foley, R. J, Chornock, R, Chomiuk, L, Berger, E, Smartt, S, Hurley, K, Barthelmy, S. D, Levesque, E. M, Narayan, G, Botticella, M. T, Briggs, M. S, Connaughton, V, Terada, Y, Gehrels, N, Golenetskii, S, Mazets, E, Cline, T, von Kienlin, A, Boynton, W, Chambers, K. C, Grav, T, and Heasley, J. N

Subjects

Astrophysics

Abstract

We report on our serendipitous pre-discovery detection and follow-up observations of the broad-lined Type Ic supernova (SN Ic) 2010ay at z = 0.067 imaged by the Pan-STARRS1 3pi survey just approximately 4 days after explosion. The supernova (SN) had a peak luminosity, MR approx. -20.2 mag, significantly more luminous than known GRB-SNe and one of the most luminous SNe Ib/c ever discovered. The absorption velocity of SN 2010ay is v Si (is) approx. 19×10(exp 3) km s−1 at approximately 40 days after explosion, 2-5 times higher than other broad-lined SNe and similar to the GRB-SN 2010bh at comparable epochs. Moreover, the velocity declines approximately 2 times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of 56Ni, MNi = 0.9 solar mass. Applying scaling relations to the light curve, we estimate a total ejecta mass, Mej (is) approx. 4.7 solar mass, and total kinetic energy, EK (is) approx. 11 × 10(exp 51) erg. The ratio of MNi to Mej is approximately 2 times as large for SN 2010ay as typical GRB-SNe and may suggest an additional energy reservoir. The metallicity (log(O/H)PP04 + 12 = 8.19) of the explosion site within the host galaxy places SN 2010ay in the low-metallicity regime populated by GRB-SNe, and (is) approximately 0.5(0.2) dex lower than that typically measured for the host environments of normal (broad-lined) SNe Ic. We constrain any gamma-ray emission with E(gamma) (is) approximately less than 6 × 10(exp 48) erg (25-150 keV), and our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy E (is) approximately greater than 10(exp 48) erg. We therefore rule out the association of a relativistic outflow like those that accompanied SN 1998bw and traditional long-duration gamma-ray bursts (GRBs), but we place less-stringent constraints on a weak afterglow like that seen from XRF 060218. If this SN did not harbor a GRB, these observations challenge the importance of progenitor metallicity for the production of relativistic ejecta and suggest that other parameters also play a key role.

Published

2012

16. A relativistic type Ibc supernova without a detected γ-ray burst

Author

Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, C., Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., and Torres, M. A. P.

Published

2010

17. Panchromatic Observations of SN2011dh Point to a Compact Progenitor Star

Author

Soderberg, A. M, Margutti, R, Zauerer, B. A, Krauss, M, Katz, B, Chomiuk, L, Dittmann, J. A, Nakar, E, Sakamoto, T, Kawai, N, Hurley, K, Barthelmy, S, Toizumi, T, Morii, M, Chevalier, R. A, Gurwell, M, Petitpas, G, Rupen, M, Alexander, T, Levesque, E. M, Fransson, C, Brunthaler. A, Bietenholz, M. F, Chugai, N, and Cline, T

Subjects

Astronomy

Abstract

We report the discovery and detailed monitoring of X-ray emission associated with the Type IIb SN2011dh using data from the Swift and Chandra satellites, placing it among the best studied X-ray supernovae to date. We further present millimeter and radio data obtained with the SMA, CARMA, and EVLA during the first three weeks after explosion. Combining these observations with early optical photometry, we show that the panchromatic dataset is well-described by non-thermal synchrotron emission (radio/mm) with inverse Compton scattering (X-ray) of a thermal population of optical photons. We derive the properties of the shockwave and the circumstellar environment and find a time-averaged shock velocity of v approximately equals 0.1c and a progenitor mass loss rate of M-dot approximately equals 6 X 10 (exp 5) Solar M/ yr (wind velocity, v(sub w) = 1000 km/s). We show that these properties are consistent with the sub-class of Type IIb supernovae characterized by compact progenitors (Type cIIb) and dissimilar from those with extended progenitors (Type eIIb). Furthermore, we consider the early optical emission in the context of a cooling envelope model to estimate a progenitor radius of R(sub star) approximately equals 10(exp 11) cm, in line with the expectations for a Type cIIb supernova. Together, these diagnostics suggest that the putative yellow supergiant progenitor star identified in archival HST observations is instead a binary companion or unrelated to the supernova. Finally, we searched for the high energy shock breakout pulse using X-ray and gamma-ray observations obtained during the purported explosion date range. Based on the compact radius of the progenitor, we estimate that the shock breakout pulse was detectable with current instruments but likely missed due to their limited temporal/ spatial coverage. Future all-sky missions will regularly detect shock breakout emission from compact SN progenitors enabling prompt follow-up observations of the shockwave with the EVLA and ALMA.

Published

2011

18. SN 2010ay is a Luminous and Broad-lined Type Ic Supernova within a Low-metallicity Host Galaxy

Author

Sanders, N. E, Soderberg, A. M, Valenti, S, Chomiuk, L, Berger, E, Smartt, S, Hurley, K, Barthelmy, S. D, Chornock, R, Foley, R. J, Levesque, E. M, Narayan, G, Botticella, M. T, Briggs, M. S, Connaughton, V, Terada, Y, Gehrels, N, Golenetskii, S, Mazets, E, Cline, T, von Kienlin, A, Boynton, W, Chambers, K. C, Grav, T, and Heasley, J. N

Subjects

Astronomy

Abstract

We report on our serendipitous pre-discovery detection and detailed follow-up of the broad-lined Type Ic supernova SN2010ay at z approx 0.067 imaged by the Pan-STARRS1 3pi survey just approx 4 days after explosion. Combining our photometric observations with those available in the literature, we estimate the explosion date and the peak luminosity of the SN, M(sub R) approximately equals 20.2 mag, significantly brighter than known GRB-SNe and one of the most luminous SNe Ibc ever discovered. We measure the photospheric expansion velocity of the explosion from our spectroscopic follow-up observations, v(sub ph) approximately equals 19.2 X 10 (exp 3) km/s at approx 40 days after explosion. In comparison with other broad-lined SNe, the characteristic velocity of SN2010ay is 2 - 5 X higher and similar to the measurements for GRB-SNe at comparable epochs. Moreover the velocity declines two times slower than other SNe Ic-BL and GRB-SNe. Assuming that the optical emission is powered by radioactive decay, the peak magnitude implies the synthesis of an unusually large mass of Ni-56, M(sub Ni) = 0.9(+0.1/-0.1) solar mass. Our modeling of the light-curve points to a total ejecta mass, M(sub ej) approx 4.7 Solar Mass, and total kinetic energy, E(sub K,51) approximately equals 11. Thus the ratio of M(sub Ni) to M(sub ej) is at least twice as large for SN2010ay than in GRB-SNe and may indicate an additional energy reservoir. We also measure the metallicity (log(O/H) + 12 = 8.19) of the explosion site within the host galaxy using a high S/N optical spectrum. Our abundance measurement places this SN in the low-metallicity regime populated by GRB-SNe, and approx 0.2(0.5) dex lower than that typically measured for the host environments of normal (broad-lined) Ic supernovae. Despite striking similarities to the recent GRB-SN100316D/2010bh, we show that gamma-ray observations rule out an associated GRB with E(sub gamma) approx < 6 X 10(exp 48) erg (25-150 keV). Similarly, our deep radio follow-up observations with the Expanded Very Large Array rule out relativistic ejecta with energy, E approx > 10(exp 48) erg. These observations challenge the importance of progenitor metallicity for the production of a GRB, and suggest that other parameters also play a key role.

Published

2011

19. No Strong Geometric Beaming in the Ultraluminous Neutron Star Binary NGC 300 ULX-1 (SN 2010da) from Swift and Gemini

Author

Binder, B., primary, Levesque, E. M., additional, and Dorn-Wallenstein, T., additional

Published

2018

20. ALMA Observations of the Host Galaxy of GRB 090423 at z = 8.23: Deep Limits on Obscured Star Formation 630 Million Years after the Big Bang

Author

Berger, E., Zauderer, B. A., Chary, R.-R., Laskar, T., Chornock, R., Tanvir, N. R., Stanway, E. R., Levan, A. J., Levesque, E. M., and Davies, J. E.

Abstract

We present rest-frame far-infrared (FIR) and optical observations of the host galaxy of GRB 090423 at z = 8.23 from the Atacama Large Millimeter Array (ALMA) and the Spitzer Space Telescope, respectively. The host remains undetected to 3σ limits of F_ν(222 GHz) ≲ 33 μJy and F_ν(3.6 μm) ≲ 81 nJy. The FIR limit is about 20 times fainter than the luminosity of the local ULIRG Arp 220 and comparable to the local starburst M 82. Comparing this with model spectral energy distributions, we place a limit on the infrared (IR) luminosity of L_IR(8-1000 μm) ≲ 3 × 10^10 L_☉, corresponding to a limit on the obscured star formation rate of SFR_IR ≲ 5 M_☉ yr^–1. For comparison, the limit on the unobscured star formation rate from Hubble Space Telescope rest-frame ultraviolet (UV) observations is SFR_UV ≲ 1 M_☉ yr^–1. We also place a limit on the host galaxy stellar mass of M_* ≲ 5 × 10^7 M_☉ (for a stellar population age of 100 Myr and constant star formation rate). Finally, we compare our millimeter observations to those of field galaxies at z ≳ 4 (Lyman break galaxies, Lyα emitters, and submillimeter galaxies) and find that our limit on the FIR luminosity is the most constraining to date, although the field galaxies have much larger rest-frame UV/optical luminosities than the host of GRB 090423 by virtue of their selection techniques. We conclude that GRB host galaxies at z gsim 4, especially those with measured interstellar medium metallicities from afterglow spectroscopy, are an attractive sample for future ALMA studies of high redshift obscured star formation.

Published

2014

21. DETECTION OF THREE GAMMA-RAY BURST HOST GALAXIES ATz∼ 6

Author

McGuire, J. T. W., primary, Tanvir, N. R., additional, Levan, A. J., additional, Trenti, M., additional, Stanway, E. R., additional, Shull, J. M., additional, Wiersema, K., additional, Perley, D. A., additional, Starling, R. L. C., additional, Bremer, M., additional, Stocke, J. T., additional, Hjorth, J., additional, Rhoads, J. E., additional, Curtis-Lake, E., additional, Schulze, S., additional, Levesque, E. M., additional, Robertson, B., additional, Fynbo, J. P. U., additional, Ellis, R. S., additional, and Fruchter, A. S., additional

Published

2016

22. A PANCHROMATIC VIEW OF THE RESTLESS SN 2009ip REVEALS THE EXPLOSIVE EJECTION OF A MASSIVE STAR ENVELOPE

Author

Margutti, R., Milisavljevic, D., Soderberg, A. M., Chornock, R., Zauderer, B. A., Murase, K., Guidorzi, C., Sanders, N. E., Kuin, P., Fransson, C., Levesque, E. M., Chandra, P., Berger, E., Bianco, F. B., Brown, P. J., Challis, P., Chatzopoulos, E., Cheung, C. C., Choi, C., Chomiuk, L., Chugai, N., Contreras, C., Drout, M. R., Fesen, R., Foley, R. J., Fong, W., Friedman, A. S., Gall, C., Gehrels, N., Hjorth, J., Hsiao, E., Kirshner, R., Im, M., Leloudas, Georgios, Lunnan, R., Marion, G. H., Martin, J., Morrell, N., Neugent, K. F., Omodei, N., Phillips, M. M., Rest, A., Silverman, J. M., Strader, J., Stritzinger, M. D., Szalai, T., Utterback, N. B., Vinko, J., Wheeler, J. C., Arnett, D., Campana, S., Chevalier, R., Ginsburg, A., Kamble, A., Roming, P. W. A., Pritchard, T., Stringfellow, G., Margutti, R., Milisavljevic, D., Soderberg, A. M., Chornock, R., Zauderer, B. A., Murase, K., Guidorzi, C., Sanders, N. E., Kuin, P., Fransson, C., Levesque, E. M., Chandra, P., Berger, E., Bianco, F. B., Brown, P. J., Challis, P., Chatzopoulos, E., Cheung, C. C., Choi, C., Chomiuk, L., Chugai, N., Contreras, C., Drout, M. R., Fesen, R., Foley, R. J., Fong, W., Friedman, A. S., Gall, C., Gehrels, N., Hjorth, J., Hsiao, E., Kirshner, R., Im, M., Leloudas, Georgios, Lunnan, R., Marion, G. H., Martin, J., Morrell, N., Neugent, K. F., Omodei, N., Phillips, M. M., Rest, A., Silverman, J. M., Strader, J., Stritzinger, M. D., Szalai, T., Utterback, N. B., Vinko, J., Wheeler, J. C., Arnett, D., Campana, S., Chevalier, R., Ginsburg, A., Kamble, A., Roming, P. W. A., Pritchard, T., and Stringfellow, G.

Abstract

The double explosion of SN 2009ip in 2012 raises questions about our understanding of the late stages of massive star evolution. Here we present a comprehensive study of SN 2009ip during its remarkable rebrightenings. High-cadence photometric and spectroscopic observations from the GeV to the radio band obtained from a variety of ground-based and space facilities (including the Very Large Array, Swift, Fermi, Hubble Space Telescope, and XMM) constrain SN 2009ip to be a low energy (E similar to 1050 erg for an ejecta mass similar to 0.5 M-circle dot) and asymmetric explosion in a complex medium shaped by multiple eruptions of the restless progenitor star. Most of the energy is radiated as a result of the shock breaking out through a dense shell of material located at similar to 5 x 10(14) cm with M similar to 0.1 M-circle dot, ejected by the precursor outburst similar to 40 days before the major explosion. We interpret the NIR excess of emission as signature of material located further out, the origin of which has to be connected with documented mass-loss episodes in the previous years. Our modeling predicts bright neutrino emission associated with the shock break-out if the cosmic-ray energy is comparable to the radiated energy. We connect this phenomenology with the explosive ejection of the outer layers of the massive progenitor star, which later interacted with material deposited in the surroundings by previous eruptions. Future observations will reveal if the massive luminous progenitor star survived. Irrespective of whether the explosion was terminal, SN 2009ip brought to light the existence of new channels for sustained episodic mass loss, the physical origin of which has yet to be identified., AuthorCount:57

Published

2014

23. ALMA OBSERVATIONS OF THE HOST GALAXY OF GRB 090423 ATz= 8.23: DEEP LIMITS ON OBSCURED STAR FORMATION 630 MILLION YEARS AFTER THE BIG BANG

Author

Berger, E., primary, Zauderer, B. A., additional, Chary, R.-R., additional, Laskar, T., additional, Chornock, R., additional, Tanvir, N. R., additional, Stanway, E. R., additional, Levan, A. J., additional, Levesque, E. M., additional, and Davies, J. E., additional

Published

2014

24. PANCHROMATIC OBSERVATIONS OF SN 2011dh POINT TO A COMPACT PROGENITOR STAR

Author

Soderberg, A. M., Margutti, R., Zauderer, B. A., Krauss, M., Katz, B., Chomiuk, L., Dittmann, J. A., Nakar, E., Sakamoto, T., Kawai, N., Hurley, K., Barthelmy, S., Toizumi, T., Morii, M., Chevalier, R. A., Gurwell, M., Petitpas, G., Rupen, M., Alexander, K. D., Levesque, E. M., Fransson, Claes, Brunthaler, A., Bietenholz, M. F., Chugai, N., Grindlay, J., Copete, A., Connaughton, V., Briggs, M., Meegan, C., von Kienlin, A., Zhang, X., Rau, A., Golenetskii, S., Mazets, E., Cline, T., Soderberg, A. M., Margutti, R., Zauderer, B. A., Krauss, M., Katz, B., Chomiuk, L., Dittmann, J. A., Nakar, E., Sakamoto, T., Kawai, N., Hurley, K., Barthelmy, S., Toizumi, T., Morii, M., Chevalier, R. A., Gurwell, M., Petitpas, G., Rupen, M., Alexander, K. D., Levesque, E. M., Fransson, Claes, Brunthaler, A., Bietenholz, M. F., Chugai, N., Grindlay, J., Copete, A., Connaughton, V., Briggs, M., Meegan, C., von Kienlin, A., Zhang, X., Rau, A., Golenetskii, S., Mazets, E., and Cline, T.

Abstract

We report the discovery and detailed monitoring of X-ray emission associated with the Type IIb SN 2011dh using data from the Swift and Chandra satellites, placing it among the best-studied X-ray supernovae (SNe) to date. We further present millimeter and radio data obtained with the Submillimeter Array, the Combined Array for Research in Millimeter-wave Astronomy, and the Expanded Very Large Array during the first three weeks after explosion. Combining these observations with early optical photometry, we show that the panchromatic data set is well described by non-thermal synchrotron emission (radio/mm) with inverse Compton scattering (X-ray) of a thermal population of optical photons. In this scenario, the shock partition fractions deviate from equipartition by a factor, (epsilon(e)/epsilon(B)) similar to 30. We derive the properties of the shock wave and the circumstellar environment and find a time-averaged shock velocity of (v) over bar approximate to 0.1c and a progenitor mass-loss rate of (M) over dot approximate to 6x10(-5) M-circle dot yr(-1) (for an assumed wind velocity, v(w) = 1000 km s(-1)). We show that these properties are consistent with the sub-class of Type IIb SNe characterized by compact progenitors (Type cIIb) and dissimilar from those with extended progenitors (Type eIIb). Furthermore, we consider the early optical emission in the context of a cooling envelope model to estimate a progenitor radius of R-* approximate to 10(11) cm, in line with the expectations for a Type cIIb SN. Together, these diagnostics are difficult to reconcile with the extended radius of the putative yellow supergiant progenitor star identified in archival Hubble Space Telescope observations, unless the stellar density profile is unusual. Finally, we searched for the high-energy shock breakout pulse using X-ray and gamma-ray observations obtained during the purported explosion date range. Based on the compact radius of the progenitor, we estimate that the shock breakout pu, AuthorCount:35

Published

2012

25. THE HIGH-METALLICITY EXPLOSION ENVIRONMENT OF THE RELATIVISTIC SUPERNOVA 2009bb

Author

Levesque, E. M., Soderberg, A. M., Foley, R. J., Berger, E., Kewley, L. J., Chakraborti, S., Ray, A., Torres, M. A. P., Challis, P., Kirshner, R. P., Barthelmy, S. D., Bietenholz, M. F., Chandra, P., Chaplin, V., Chevalier, R. A., Chugai, N., Connaughton, V., Copete, A., Fox, O., Fransson, Claes, Grindlay, J. E., Hamuy, M. A., Milne, P. A., Pignata, G., Stritzinger, M. D., Wieringa, M. H., Levesque, E. M., Soderberg, A. M., Foley, R. J., Berger, E., Kewley, L. J., Chakraborti, S., Ray, A., Torres, M. A. P., Challis, P., Kirshner, R. P., Barthelmy, S. D., Bietenholz, M. F., Chandra, P., Chaplin, V., Chevalier, R. A., Chugai, N., Connaughton, V., Copete, A., Fox, O., Fransson, Claes, Grindlay, J. E., Hamuy, M. A., Milne, P. A., Pignata, G., Stritzinger, M. D., and Wieringa, M. H.

Abstract

We investigate the environment of the nearby (d approximate to 40 Mpc) broad-lined Type Ic supernova (SN) 2009bb. This event was observed to produce a relativistic outflow likely powered by a central accreting compact object. While such a phenomenon was previously observed only in long-duration gamma-ray bursts (LGRBs), no LGRB was detected in association with SN 2009bb. Using an optical spectrum of the SN 2009bb explosion site, we determine a variety of interstellar medium properties for the host environment, including metallicity, young stellar population age, and star formation rate. We compare the SN explosion site properties to observations of LGRB and broad-lined SN Ic host environments on optical emission line ratio diagnostic diagrams. Based on these analyses, we find that the SN 2009bb explosion site has a metallicity between 1.7 Z(circle dot) and 3.5 Z(circle dot), in agreement with other broad-lined SN Ic host environments and at odds with the low-redshift LGRB host environments and recently proposed maximum metallicity limits for relativistic explosions. We consider the implications of these findings and the impact that SN 2009bb's unusual explosive properties and environment have on our understanding of the key physical ingredient that enables some SNe to produce a relativistic outflow., authorCount :26

Published

2010

26. A relativistic type Ibc supernova without a detected gamma-ray burst

Author

Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, Claes, Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., Torres, M. A. P., Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, Claes, Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., and Torres, M. A. P.

Abstract

Long duration gamma-ray bursts (GRBs) mark(1) the explosive death of some massive stars and are a rare sub-class of type Ibc supernovae. They are distinguished by the production of an energetic and collimated relativistic outflow powered(2) by a central engine (an accreting black hole or neutron star). Observationally, this outflow is manifested(3) in the pulse of gamma-rays and a long-lived radio afterglow. Until now, central-engine driven supernovae have been discovered exclusively through their gamma-ray emission, yet it is expected(4) that a larger population goes undetected because of limited satellite sensitivity or beaming of the collimated emission away from our line of sight. In this framework, the recovery of undetected GRBs may be possible through radio searches(5,6) for type Ibc supernovae with relativistic outflows. Here we report the discovery of luminous radio emission from the seemingly ordinary type Ibc SN 2009bb, which requires a substantial relativistic outflow powered by a central engine. A comparison with our radio survey of type Ibc supernovae reveals that the fraction harbouring central engines is low, about one per cent, measured independently from, but consistent with, the inferred(7) rate of nearby GRBs. Independently, a second mildly relativistic supernova has been reported(8)., authorCount :24

Published

2010

27. The host galaxies of gamma-ray bursts. II. A mass-metallicity relation for long-duration gamma-ray burst host galaxies

Author

Levesque, E M, Kewley, Lisa, Berger, Edo, Zahid, H J, Levesque, E M, Kewley, Lisa, Berger, Edo, and Zahid, H J

Abstract

We present a statistically robust mass-metallicity relation for long-duration gamma-ray burst (LGRB) host galaxies at z < 1. By comparing the LGRB host mass-metallicity relation to samples representative of the general starforming galaxy population, we conclude that LGRBs occur in host galaxies with lower metallicities than the general population, and that this trend extends to z ∼ 1, with an average offset of -0.42 ± 0.18 from the M-Z relation for star-forming galaxies. Our sample in this work includes new spectroscopic data for six LGRB host galaxies obtained at the Keck and Magellan telescopes, as well as two new host galaxies from the literature. Combined with data from our previous work, this yields a total sample of six LGRB host galaxies at z < 0.3 and 10 host galaxies at 0.3 < z < 1. We have determined a number of interstellar medium properties for our host galaxies using optical emission-line diagnostics including metallicity, ionization parameter, young stellar population age, and star formation rate. Across our full sample of 16 LGRB hosts we find an average metallicity of log(O/H) + 12 = 8.4 ± 0.3. Notably, we also measure a comparatively high metallicity of log(O/H) + 12 = 8.83 ± 0.1 for the z = 0.296 host galaxy of GRB 050826. We also determine stellar masses (M*) for our LGRB host galaxy sample, finding a mean stellar mass of log(M*/M⊙) = 9.25-0.23+0.19.

Published

2010

28. The host galaxies of gamma-ray bursts. I. Interstellar medium properties of ten nearby long-duration gamma-ray burst hosts

Author

Levesque, E. M., Berger, Edo, Kewley, Lisa, Bagley, Megan M., Levesque, E. M., Berger, Edo, Kewley, Lisa, and Bagley, Megan M.

Abstract

We present the first observations from a large-scale survey of nearby (z < 1) long-duration gamma-ray burst (LGRB) host galaxies, which consist of eight rest-frame optical spectra obtained at Keck and Magellan. Along with two host galaxy observations from the literature, we use optical emission-line diagnostics to determine metallicities, ionization parameters, young stellar population ages, and star formation rates. We compare the LGRB host environments to a variety of local and intermediate-redshift galaxy populations, as well as the newest grid of stellar population synthesis and photoionization models generated with the Starburst99/Mappings codes. With these comparisons, we investigate whether the GRB host galaxies are consistent with the properties of the general galaxy population, and therefore whether they may be used as reliable tracers of star formation. Despite the limitations inherent in our small sample, we find strong evidence that LGRB host galaxies generally have low-metallicity interstellar medium (ISM) environments out to z ∼ 1. The ISM properties of our GRB hosts, including metallicity and ionization parameter, are significantly different from the general galaxy population and host galaxies of nearby broad-lined Type Ic supernovae. However, these properties show better agreement with a sample of nearby metal-poor galaxies.

Published

2010

29. Theoretical modeling of star-forming galaxies. I. Emission-line diagnostic grids for local and low-metallicity galaxies

Author

Levesque, E M, Kewley, Lisa, Larson, Kirsten, Levesque, E M, Kewley, Lisa, and Larson, Kirsten

Abstract

We use the newest generation of the Starburst99/Mappings code to generate an extensive suite of models to facilitate detailed studies of star-forming galaxies and their interstellar medium properties, particularly at low metallicities. The new models used include a rigorous treatment of metal opacities in the population synthesis modeling and more detailed dust physics in the photoionization code. These models span a wide range of physical parameters including metallicity, ionization parameter, and the adoption of both an instantaneous burst and continuous star formation history (SFH). We examine the agreement between our models and local (z < 0.1) star-forming galaxy populations from several large data sets, including the Sloan Digital Sky Survey, the Nearby Field Galaxy Survey, and samples of blue compact galaxies and metal-poor galaxies. We find that models adopting a continuous SFH reproduce the metallicity-sensitive line ratios observed in the local population of star-forming galaxies, including the low-metallicity sample. However, we find that the current codes generate an insufficiently hard ionizing radiation field, leading to deficiencies in the [S II] fluxes produced by the models. We consider the advantages and shortcomings of this suite of models, and discuss future work and improvements that can be applied to the modeling of star-forming galaxies.

Published

2010

30. The high-metallicity explosion environment of the relativistic supernova 2009bb

Author

Levesque, E M, Soderberg, A M, Foley, R J, Berger, E, Kewley, Lisa, Chakraborti, S, Challis, Peter M, Kirshner, Robert P, Chevalier, Roger A, Stritzinger, M. D, Wieringa, Mark H, Torres, M A P, Fox, Ori D, Levesque, E M, Soderberg, A M, Foley, R J, Berger, E, Kewley, Lisa, Chakraborti, S, Challis, Peter M, Kirshner, Robert P, Chevalier, Roger A, Stritzinger, M. D, Wieringa, Mark H, Torres, M A P, and Fox, Ori D

Abstract

We investigate the environment of the nearby (d 40Mpc) broad-lined Type Ic supernova (SN) 2009bb. This event was observed to produce a relativistic outflow likely powered by a central accreting compact object. While such a phenomenon was previously observed only in long-duration gamma-ray bursts (LGRBs), no LGRB was detected in association with SN 2009bb. Using an optical spectrum of the SN 2009bb explosion site, we determine a variety of interstellar medium properties for the host environment, including metallicity, young stellar population age, and star formation rate. We compare the SN explosion site properties to observations of LGRB and broad-lined SN Ic host environments on optical emission line ratio diagnostic diagrams. Based on these analyses, we find that the SN 2009bb explosion site has a metallicity between 1.7 Z· and 3.5 Z·, in agreement with other broad-lined SN Ic host environments and at odds with the low-redshift LGRB host environments and recently proposed maximum metallicity limits for relativistic explosions. We consider the implications of these findings and the impact that SN 2009bb's unusual explosive properties and environment have on our understanding of the key physical ingredient that enables some SNe to produce a relativistic outflow.

Published

2010

31. A high-metallicity host environment for the long-duration GRB 020819

Author

Levesque, E M, Kewley, Lisa, Graham, J F, Fruchter, A S, Levesque, E M, Kewley, Lisa, Graham, J F, and Fruchter, A S

Abstract

We present spectroscopic observations of the host galaxy and explosion site of long-duration gamma-ray burst GRB 020819. We determine a metallicity for this host environment of log(O/H) + 12 = 9.0 0.1, by far the highest metallicity determined for a long-duration gamma-ray burst (LGRB) to date. We compare the metallicity and other properties of the GRB 020819 host environment to existing observations of LGRB host galaxies and consider the implications that this metallicity has for our understanding of LGRB progenitor scenarios. We also consider how this unusually high metallicity may relate to the status of GRB 020819 as a "dark" burst, with no detected optical afterglow.

Published

2010

32. GRB 090426: The environment of a rest-frame 0.35-s gamma-ray burst at a redshift of 2.609

Author

Levesque, E M, Bloom, J S, Butler, N R, Perley, D. A., Cenko, S Bradley, Prochaska, Jason, Kewley, Lisa, Bunker, Andrew, Chen, Hsiao-Wen, Chornock, Ryan, Filippenko, Alexei, Levesque, E M, Bloom, J S, Butler, N R, Perley, D. A., Cenko, S Bradley, Prochaska, Jason, Kewley, Lisa, Bunker, Andrew, Chen, Hsiao-Wen, Chornock, Ryan, and Filippenko, Alexei

Abstract

We present the discovery of an absorption-line redshift of z = 2.609 for GRB 090426, establishing the first firm lower limit to a redshift for a gamma-ray burst (GRB) with an observed duration of <2 s. With a rest-frame burst duration of T90z = 0.35 s and a detailed examination of the peak energy of the event, we suggest that this is likely (at >90 per cent confidence) a member of the short/hard phenomenological class of GRBs. From analysis of the optical-afterglow spectrum we find that the burst originated along a very low H i column density sightline, with NH i < 3.2 × 1019 cm-2. Our GRB 090426 afterglow spectrum also appears to have weaker low-ionization absorption (Si ii, C ii) than ∼95 per cent of previous afterglow spectra. Finally, we also report the discovery of a blue, very luminous, star-forming putative host galaxy (∼2L*) at a small angular offset from the location of the optical afterglow. We consider the implications of this unique GRB in the context of burst duration classification and our understanding of GRB progenitor scenarios.

Published

2010

33. Discovery of a Relativistic Supernova Without a Gamma-ray Trigger

Author

Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, C., Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., Torres, M. A. P., Soderberg, A. M., Chakraborti, S., Pignata, G., Chevalier, R. A., Chandra, P., Ray, A., Wieringa, M. H., Copete, A., Chaplin, V., Connaughton, V., Barthelmy, S. D., Bietenholz, M. F., Chugai, N., Stritzinger, M. D., Hamuy, M., Fransson, C., Fox, O., Levesque, E. M., Grindlay, J. E., Challis, P., Foley, R. J., Kirshner, R. P., Milne, P. A., and Torres, M. A. P.

Abstract

Type Ibc supernovae (SNe Ibc) mark the gravitational collapse of some massive stars (M > 20 Msun) propelling several solar masses of material to typical velocities of ~10,000 km/s. The closely-related but exceedingly rare class of long-duration gamma-ray bursts (GRBs) produce, in addition, a relativistic outflow powered by a central engine (accreting black hole or neutron star) and have been found exclusively through their gamma-ray signal. Here we report the discovery of luminous radio emission from the seemingly ordinary Type Ibc SN 2009bb which outshines that of all other SNe Ibc observed on a comparable timescale. These observations require a substantial mildly-relativistic outflow and indicate that the explosion was powered by a central engine, thus representing the first such event discovered without the aid of a gamma-ray trigger. A comparison with our extensive radio survey of SNe Ibc reveals that the fraction of such events is low (roughly 1 percent), measured independently from, and yet consistent with, the inferred rate of nearby GRBs. This discovery marks the observational realization that long-wavelength surveys will soon rival gamma-ray satellites in pinpointing nearby engine-driven explosions.

Published

2009

34. Modeling the ISM properties of metal-poor galaxies and gamma-ray burst hosts

Author

Levesque, E M, Kewley, Lisa, Larson, Kirsten, Snijders, Leonie, Levesque, E M, Kewley, Lisa, Larson, Kirsten, and Snijders, Leonie

Abstract

Recent research has suggested that long-duration gamma-ray bursts (LGRBs) occur preferentially in low-metallicity environments, but the exact nature of this correlation is currently a matter of intense debate. We use the newest generation of the Starburst99/Mappings code to generate an extensive suite of cutting-edge stellar population synthesis models, covering a wide range of physical parameters specifically tailored for modeling the ISM environments of metal-poor galaxies and LGRB host galaxies. With our models, we generate optical emission line diagnostics, which will allow us to examine the ISM properties and stellar populations of a variety of galaxy populations in unprecedented detail. While accurately modeling low-metallicity galaxies still poses a challenge to these models, future improvements to these grids will have profound consequences for our understanding of metal-poor galaxies, their ISM environments, and the nature of their role as the hosts of LGRBs.

Published

2008

35. A PANCHROMATIC VIEW OF THE RESTLESS SN 2009ip REVEALS THE EXPLOSIVE EJECTION OF A MASSIVE STAR ENVELOPE

Author

Margutti, R., primary, Milisavljevic, D., additional, Soderberg, A. M., additional, Chornock, R., additional, Zauderer, B. A., additional, Murase, K., additional, Guidorzi, C., additional, Sanders, N. E., additional, Kuin, P., additional, Fransson, C., additional, Levesque, E. M., additional, Chandra, P., additional, Berger, E., additional, Bianco, F. B., additional, Brown, P. J., additional, Challis, P., additional, Chatzopoulos, E., additional, Cheung, C. C., additional, Choi, C., additional, Chomiuk, L., additional, Chugai, N., additional, Contreras, C., additional, Drout, M. R., additional, Fesen, R., additional, Foley, R. J., additional, Fong, W., additional, Friedman, A. S., additional, Gall, C., additional, Gehrels, N., additional, Hjorth, J., additional, Hsiao, E., additional, Kirshner, R., additional, Im, M., additional, Leloudas, G., additional, Lunnan, R., additional, Marion, G. H., additional, Martin, J., additional, Morrell, N., additional, Neugent, K. F., additional, Omodei, N., additional, Phillips, M. M., additional, Rest, A., additional, Silverman, J. M., additional, Strader, J., additional, Stritzinger, M. D., additional, Szalai, T., additional, Utterback, N. B., additional, Vinko, J., additional, Wheeler, J. C., additional, Arnett, D., additional, Campana, S., additional, Chevalier, R., additional, Ginsburg, A., additional, Kamble, A., additional, Roming, P. W. A., additional, Pritchard, T., additional, and Stringfellow, G., additional

Published

2013

36. USING COLORS TO IMPROVE PHOTOMETRIC METALLICITY ESTIMATES FOR GALAXIES

Author

Sanders, N. E., primary, Levesque, E. M., additional, and Soderberg, A. M., additional

Published

2013

37. A SPECTROSCOPIC STUDY OF TYPE Ibc SUPERNOVA HOST GALAXIES FROM UNTARGETED SURVEYS

Author

Sanders, N. E., primary, Soderberg, A. M., additional, Levesque, E. M., additional, Foley, R. J., additional, Chornock, R., additional, Milisavljevic, D., additional, Margutti, R., additional, Berger, E., additional, Drout, M. R., additional, Czekala, I., additional, and Dittmann, J. A., additional

Published

2012

38. Grids of stellar models with rotation

Author

Georgy, C., primary, Ekström, S., additional, Meynet, G., additional, Massey, P., additional, Levesque, E. M., additional, Hirschi, R., additional, Eggenberger, P., additional, and Maeder, A., additional

Published

2012

39. PANCHROMATIC OBSERVATIONS OF SN 2011dh POINT TO A COMPACT PROGENITOR STAR

Author

Soderberg, A. M., primary, Margutti, R., additional, Zauderer, B. A., additional, Krauss, M., additional, Katz, B., additional, Chomiuk, L., additional, Dittmann, J. A., additional, Nakar, E., additional, Sakamoto, T., additional, Kawai, N., additional, Hurley, K., additional, Barthelmy, S., additional, Toizumi, T., additional, Morii, M., additional, Chevalier, R. A., additional, Gurwell, M., additional, Petitpas, G., additional, Rupen, M., additional, Alexander, K. D., additional, Levesque, E. M., additional, Fransson, C., additional, Brunthaler, A., additional, Bietenholz, M. F., additional, Chugai, N., additional, Grindlay, J., additional, Copete, A., additional, Connaughton, V., additional, Briggs, M., additional, Meegan, C., additional, von Kienlin, A., additional, Zhang, X., additional, Rau, A., additional, Golenetskii, S., additional, Mazets, E., additional, and Cline, T., additional

Published

2012

40. Variable Lyα sheds light on the environment surrounding GRB 090426

Author

Thöne, C. C., primary, Campana, S., additional, Lazzati, D., additional, de Ugarte Postigo, A., additional, Fynbo, J. P. U., additional, Christensen, L., additional, Levan, A. J., additional, Aloy, M. A., additional, Hjorth, J., additional, Jakobsson, P., additional, Levesque, E. M., additional, Malesani, D., additional, Milvang-Jensen, B., additional, Roming, P. W. A., additional, Tanvir, N. R., additional, Wiersema, K., additional, Gladders, M., additional, Wuyts, E., additional, and Dahle, H., additional

Published

2011

41. THE HIGH-METALLICITY EXPLOSION ENVIRONMENT OF THE RELATIVISTIC SUPERNOVA 2009bb

Author

Levesque, E. M., primary, Soderberg, A. M., additional, Foley, R. J., additional, Berger, E., additional, Kewley, L. J., additional, Chakraborti, S., additional, Ray, A., additional, Torres, M. A. P., additional, Challis, P., additional, Kirshner, R. P., additional, Barthelmy, S. D., additional, Bietenholz, M. F., additional, Chandra, P., additional, Chaplin, V., additional, Chevalier, R. A., additional, Chugai, N., additional, Connaughton, V., additional, Copete, A., additional, Fox, O., additional, Fransson, C., additional, Grindlay, J. E., additional, Hamuy, M. A., additional, Milne, P. A., additional, Pignata, G., additional, Stritzinger, M. D., additional, and Wieringa, M. H., additional

Published

2009

42. GRB 070714B—DISCOVERY OF THE HIGHEST SPECTROSCOPICALLY CONFIRMED SHORT BURST REDSHIFT

Author

Graham, J. F., primary, Fruchter, A. S., additional, Levan, A. J., additional, Melandri, A., additional, Kewley, L. J., additional, Levesque, E. M., additional, Nysewander, M., additional, Tanvir, N. R., additional, Dahlen, T., additional, Bersier, D., additional, Wiersema, K., additional, Bonfield, D. G., additional, and Martinez-Sansigre, A., additional

Published

2009

43. Unusually High Metallicity Host Of The Dark LGRB 051022

Author

Graham, J. F., primary, Fruchter, A. S., additional, Kewley, L. J., additional, Levesque, E. M., additional, Levan, A. J., additional, Tanvir, N. R., additional, Reichart, D. E., additional, Nysewander, M., additional, Meegan, Charles, additional, Kouveliotou, Chryssa, additional, and Gehrels, Neil, additional

Published

2009

44. The Survey for Ionization in Neutral Gas Galaxies. III. Diffuse, Warm Ionized Medium and Escape of Ionizing Radiation

Author

Oey, M. S., primary, Meurer, G. R., additional, Yelda, S., additional, Furst, E. J., additional, Caballero‐Nieves, S. M., additional, Hanish, D. J., additional, Levesque, E. M., additional, Thilker, D. A., additional, Walth, G. L., additional, Bland‐Hawthorn, J., additional, Dopita, M. A., additional, Ferguson, H. C., additional, Heckman, T. M., additional, Doyle, M. T., additional, Drinkwater, M. J., additional, Freeman, K. C., additional, Kennicutt, Jr., R. C., additional, Kilborn, V. A., additional, Knezek, P. M., additional, Koribalski, B., additional, Meyer, M., additional, Putman, M. E., additional, Ryan‐Weber, E. V., additional, Smith, R. C., additional, Staveley‐Smith, L., additional, Webster, R. L., additional, Werk, J., additional, and Zwaan, M. A., additional

Published

2007

45. RED SUPERGIANTS IN THE LOCAL GROUP.

Author

Levesque, E. M.

Subjects

*GALAXIES, *STELLAR evolution, *SUPERGIANT stars, *MASS loss (Astrophysics), *TEMPERATURE of stars, *STELLAR spectra, *COSMIC dust, LOCAL Group (Astronomy)

Abstract

Galaxies in the Local Group span a factor of 15 in metallicity, ranging from the super-solar M 31 to the Wolf-Lundmark-Melotte (WLM) galaxy, which is the lowest-metallicity (0.1 Zʘ) Local Group galaxy currently forming stars. Studies of massive star populations across this broad range of environments have revealed important metallicity-dependent evolutionary trends, allowing us to test the accuracy of stellar evolutionary tracks at these metallicities for the first time. The RSG population is particularly valuable as a key mass-losing phase of moderately massive stars and a source of core-collapse supernova progenitors. By reviewing recent work on the RSG populations in the Local Group, we are able to quantify limits on these stars' effective temperatures and masses and probe the relationship between RSG mass loss behaviors and host environments. Extragalactic surveys of RSGs have also revealed several unusual RSGs that display signs of unusual spectral variability and dust production, traits that may potentially also correlate with the stars' host environments. I will present some of the latest work that has advanced our understanding of RSGs in the Local Group, and consider the many new questions posed by our ever-evolving picture of these stars. [ABSTRACT FROM AUTHOR]

Published

2013

46. The Physical Properties of Red Supergiants

Author

Philip Massey, Plez, B., Levesque, E. M., Olsen, K. A. G., Silva, D. R., and Clayton, G. C.

47. Red Supergiants in the Andromeda Galaxy (M31)

Author

Massey, Philip, Silva, D. R., Levesque, E. M., Plez, B., and Geoffrey Clayton

48. A relativistic type Ibc supernova without a detected gamma-ray burst.

Author

Soderberg AM, Chakraborti S, Pignata G, Chevalier RA, Chandra P, Ray A, Wieringa MH, Copete A, Chaplin V, Connaughton V, Barthelmy SD, Bietenholz MF, Chugai N, Stritzinger MD, Hamuy M, Fransson C, Fox O, Levesque EM, Grindlay JE, Challis P, Foley RJ, Kirshner RP, Milne PA, and Torres MA

Abstract

Long duration gamma-ray bursts (GRBs) mark the explosive death of some massive stars and are a rare sub-class of type Ibc supernovae. They are distinguished by the production of an energetic and collimated relativistic outflow powered by a central engine (an accreting black hole or neutron star). Observationally, this outflow is manifested in the pulse of gamma-rays and a long-lived radio afterglow. Until now, central-engine-driven supernovae have been discovered exclusively through their gamma-ray emission, yet it is expected that a larger population goes undetected because of limited satellite sensitivity or beaming of the collimated emission away from our line of sight. In this framework, the recovery of undetected GRBs may be possible through radio searches for type Ibc supernovae with relativistic outflows. Here we report the discovery of luminous radio emission from the seemingly ordinary type Ibc SN 2009bb, which requires a substantial relativistic outflow powered by a central engine. A comparison with our radio survey of type Ibc supernovae reveals that the fraction harbouring central engines is low, about one per cent, measured independently from, but consistent with, the inferred rate of nearby GRBs. Independently, a second mildly relativistic supernova has been reported.

Published

2010