Your search keyword '"Nidia Morrell"' showing total 13 results

1. Erratum: “Reverberation Mapping of Luminous Quasars at High-z” (2018, ApJ, 865, 56).

Author

Paulina Lira, Shai Kaspi, Hagai Netzer, Ismael Botti, Nidia Morrell, Julián Mejía-Restrepo, Paula Sánchez-Sáez, Jorge Martínez-Palomera, and Paula López

Subjects

QUASARS, SOUND reverberation, MEASUREMENT errors

Published

2020

2. Discovery of a Rare Late-type, Low-mass Wolf–Rayet Star in the LMC.

Author

Bruce Margon, Catherine Manea, Robert Williams, Howard E. Bond, J. Xavier Prochaska, Michał K. Szymański, and Nidia Morrell

Subjects

WOLF-Rayet stars, PLANETARY nebulae, ION recombination, PARALLAX, MOLECULAR spectra

Abstract

We report the serendipitous discovery of an object, UVQS J060819.93−715737.4, with a spectrum dominated by extremely intense, narrow C ii emission lines. The spectrum is similar to those of the very rare, late-type [WC11] low-mass Wolf–Rayet stars. Despite the recognition of these stars as a distinct class decades ago, there remains barely a handful of Galactic members, all of which are also planetary-nebula central stars. Although no obvious surrounding nebulosity is present in J0608, [O ii], [N ii], and [S ii] emission suggest the presence of an inconspicuous, low-excitation nebula. There is low-amplitude incoherent photometric variability on timescales of days to years, as well as numerous prominent P Cygni profiles, implying mass loss. There are indications of a binary companion. The star is located on the outskirts of the LMC, and the observed radial velocity (∼+250 km s−1) and proper motion strongly suggest membership. If indeed an LMC member, this is the first extragalactic late [WC] star, and the first with an accurately determined luminosity, as the Galactic examples are too distant for precise parallax determinations. A high-quality, broad-coverage spectrum of the prototype of the late [WC] class, CPD −56° 8032, is also presented. We discuss different excitation mechanisms capable of producing the great strength of the C ii emission. Numerous autoionizing levels of C ii are definitely populated by processes other than dielectronic recombination. Despite the spectacular emission spectra, observational selection makes objects such as these difficult to discover. Members of the [WC11] class may in fact be considerably more common than the handful of previously known late [WC] stars. [ABSTRACT FROM AUTHOR]

Published

2020

3. ASASSN-15pz: Revealing Significant Photometric Diversity among 2009dc-like, Peculiar SNe Ia.

Author

Ping Chen, Subo Dong, Boaz Katz, C. S. Kochanek, Juna A. Kollmeier, K. Maguire, M. M. Phillips, J. L. Prieto, B. J. Shappee, M. D. Stritzinger, Subhash Bose, Peter J. Brown, T. W.-S. Holoien, L. Galbany, Peter A. Milne, Nidia Morrell, Anthony L. Piro, K. Z. Stanek, Todd A. Thompson, and D. R. Young

Subjects

LIGHT curves, LUMINOSITY, SUPERNOVA remnants, BIOLOGICAL extinction, SUPERNOVAE

Abstract

We report comprehensive multi-wavelength observations of a peculiar Type Ia-like supernova (“SN Ia-pec”) ASASSN-15pz. ASASSN-15pz is a spectroscopic “twin” of SN 2009dc, a so-called “Super-Chandrasekhar-mass” SN, throughout its evolution, but it has a peak luminosity that is dimmer and comparable to the SN 1991T sub-class of SNe Ia at the luminous end of the normal width-luminosity relation. The synthesized 56Ni mass of is also substantially less than that found for several 2009dc-like SNe. Previous well-studied 2009dc-like SNe have generally suffered from large and uncertain amounts of host-galaxy extinction, which is negligible for ASASSN-15pz. Based on the color of ASASSN-15pz, we estimate a host extinction for SN 2009dc of and confirm its high luminosity (). The 2009dc-like SN population, which represents ∼1% of SNe Ia, exhibits a range of peak luminosities, and do not fit onto the tight width-luminosity relation. Their optical light curves also show significant diversity of late-time (≳50 days) decline rates. The nebular-phase spectra provide powerful diagnostics to identify the 2009dc-like events as a distinct class of SNe Ia. We suggest referring to these sources using the phenomenology-based “2009dc-like SN Ia-pec” instead of “Super-Chandrasekhar SN Ia,” which is based on an uncertain theoretical interpretation. [ABSTRACT FROM AUTHOR]

Published

2019

4. Reverberation Mapping of Luminous Quasars at High z.

Author

Paulina Lira, Shai Kaspi, Hagai Netzer, Ismael Botti, Nidia Morrell, Julián Mejía-Restrepo, Paula Sánchez-Sáez, Jorge Martínez-Palomera, and Paula López

Subjects

QUASARS, EMISSIVITY, OPTICAL properties, BLACKBODY radiation, INTERCHANGE factor

Abstract

We present reverberation mapping (RM) results for 17 high-redshift, high-luminosity quasars with good-quality R-band and emission-line light curves. We are able to measure statistically significant lags for Lyα (11 objects), Si iv (5 objects), C iv (11 objects), and C iii] (2 objects). Using our results and previous lag determinations taken from the literature, we present an updated C iv radius–luminosity relation and provide for the first time radius–luminosity relations for Lyα, Si iv, and C iii]. While in all cases the slopes of the correlations are statistically significant, the zero points are poorly constrained because of the lack of data at the low-luminosity end. We find that the emissivity-weighted distances from the central source of the Lyα, Si iv, and C iii] line-emitting regions are all similar, which corresponds to about half that of the Hβ region. We also find that 3/17 of our sources show an unexpected behavior in some emission lines, two in the Lyα light curve and one in the Si iv light curve, in that they do not seem to follow the variability of the UV continuum. Finally, we compute RM black hole (BH) masses for those quasars with highly significant lag measurements and compare them with C iv single-epoch (SE) mass determinations. We find that the RM-based BH mass determinations seem smaller than those found using SE calibrations. [ABSTRACT FROM AUTHOR]

Published

2018

5. A Modern Search for Wolf-Rayet Stars in the Magellanic Clouds. IV. A Final Census.

Author

Kathryn F. Neugent, Philip Massey, and Nidia Morrell

Subjects

WOLF-Rayet stars, LARGE magellanic cloud, SUPERGIANT stars, ATMOSPHERIC ozone, SPECTRUM analysis

Abstract

We summarize the results of our 4 yr survey searching for Wolf-Rayet (WR) stars in the Large Magellanic Cloud (LMC) and Small Magellanic Cloud. Over the course of this survey we have discovered 15 new WR stars and 12 Of-type stars. In this last year we discovered two rare Of-type stars: an O6.5f?p and an O6nfp, in addition to the two new Of?p stars discovered in our first year and the three Onfp stars discovered in our second and third years. However, even more exciting was our discovery of a new type of WR star, ones we are calling WN3/O3s owing to their spectroscopic signatures. We describe the completeness limits of our survey and demonstrate that we are sensitive to weak-lined WRs several magnitudes fainter than any we have discovered, arguing that there is not a population of fainter WRs waiting to be discovered. We discuss the nature of the WN3/O3s, summarizing the results of our extensive spectroscopy and modeling. We also examine the important claim made by others that the WN3/O3s are isolated compared to other massive stars. We find that if we use a more complete sample of reference massive stars, the WN3/O3s show the same spatial distribution as other early WNs, consistent with a common origin. Finally, we use this opportunity to present the “Fifth Catalog of LMC Wolf-Rayet Stars,” which includes revised coordinates and updated spectral types for all 154 known LMC WRs. [ABSTRACT FROM AUTHOR]

Published

2018

6. SN 2012fr: Ultraviolet, Optical, and Near-infrared Light Curves of a Type Ia Supernova Observed within a Day of Explosion.

Author

Carlos Contreras, M. M. Phillips, Christopher R. Burns, Anthony L. Piro, B. J. Shappee, Maximilian D. Stritzinger, C. Baltay, Peter J. Brown, Emmanuel Conseil, Alain Klotz, Peter E. Nugent, Damien Turpin, Stu Parker, D. Rabinowitz, Eric Y. Hsiao, Nidia Morrell, Abdo Campillay, Sergio Castellón, Carlos Corco, and Consuelo González

Subjects

SUPERNOVAE, ULTRAVIOLET radiation, LUMINOSITY, GALACTIC X-ray sources, RADIATION

Abstract

We present detailed ultraviolet, optical, and near-infrared light curves of the Type Ia supernova (SN) 2012fr, which exploded in the Fornax cluster member NGC 1365. These precise high-cadence light curves provide a dense coverage of the flux evolution from −12 to +140 days with respect to the epoch of B-band maximum (). Supplementary imaging at the earliest epochs reveals an initial slow and nearly linear rise in luminosity with a duration of ∼2.5 days, followed by a faster rising phase that is well reproduced by an explosion model with a moderate amount of 56Ni mixing in the ejecta. From our analysis of the light curves, we conclude that: (i) the explosion occurred <22 hr before the first detection of the supernova, (ii) the rise time to peak bolometric (λ > 1800 Å) luminosity was 16.5 ± 0.6 days, (iii) the supernova suffered little or no host-galaxy dust reddening, (iv) the peak luminosity in both the optical and near-infrared was consistent with the bright end of normal Type Ia diversity, and (v) 0.60 ± 0.15 M⊙ of 56Ni was synthesized in the explosion. Despite its normal luminosity, SN 2012fr displayed unusually prevalent high-velocity Ca ii and Si ii absorption features, and a nearly constant photospheric velocity of the Si ii λ6355 line at ∼12,000 that began ∼5 days before . We also highlight some of the other peculiarities in the early phase photometry and the spectral evolution. SN 2012fr also adds to a growing number of Type Ia supernovae that are hosted by galaxies with direct Cepheid distance measurements. [ABSTRACT FROM AUTHOR]

Published

2018

7. Type II Supernova Spectral Diversity. I. Observations, Sample Characterization, and Spectral Line Evolution.

Author

Claudia P. Gutiérrez, Joseph P. Anderson, Mario Hamuy, Nidia Morrell, Santiago González-Gaitan, Maximilian D. Stritzinger, Mark M. Phillips, Lluis Galbany, Gastón Folatelli, Luc Dessart, Carlos Contreras, Massimo Della Valle, Wendy L. Freedman, Eric Y. Hsiao, Kevin Krisciunas, Barry F. Madore, José Maza, Nicholas B. Suntzeff, Jose Luis Prieto, and Luis González

Subjects

SUPERNOVAE spectra, SPECTRAL lines, PHOTOMETRY, SUPERGIANT stars, PLATEAU borders (Surface chemistry), STELLAR spectra

Abstract

We present 888 visual-wavelength spectra of 122 nearby type II supernovae (SNe II) obtained between 1986 and 2009, and ranging between 3 and 363 days post-explosion. In this first paper, we outline our observations and data reduction techniques, together with a characterization based on the spectral diversity of SNe II. A statistical analysis of the spectral matching technique is discussed as an alternative to nondetection constraints for estimating SN explosion epochs. The time evolution of spectral lines is presented and analyzed in terms of how this differs for SNe of different photometric, spectral, and environmental properties: velocities, pseudo-equivalent widths, decline rates, magnitudes, time durations, and environment metallicity. Our sample displays a large range in ejecta expansion velocities, from ∼9600 to ∼1500 km s−1 at 50 days post-explosion with a median value of 7300 km s−1. This is most likely explained through differing explosion energies. Significant diversity is also observed in the absolute strength of spectral lines, characterized through their pseudo-equivalent widths. This implies significant diversity in both temperature evolution (linked to progenitor radius) and progenitor metallicity between different SNe II. Around 60% of our sample shows an extra absorption component on the blue side of the P-Cygni profile (“Cachito” feature) between 7 and 120 days since explosion. Studying the nature of Cachito, we conclude that these features at early times (before ∼35 days) are associated with Si ii , while past the middle of the plateau phase they are related to high velocity (HV) features of hydrogen lines. [ABSTRACT FROM AUTHOR]

Published

2017

8. Type II Supernova Spectral Diversity. II. Spectroscopic and Photometric Correlations.

Author

Claudia P. Gutiérrez, Joseph P. Anderson, Mario Hamuy, Santiago González-Gaitan, Lluis Galbany, Luc Dessart, Maximilian D. Stritzinger, Mark M. Phillips, Nidia Morrell, and Gastón Folatelli

Subjects

TYPE II supernovae, GAMMA rays, ASTRONOMICAL photometry, LUMINOSITY, LIGHT curves

Abstract

We present an analysis of observed trends and correlations between a large range of spectral and photometric parameters of more than 100 type II supernovae (SNe II), during the photospheric phase. We define a common epoch for all SNe of 50 days post-explosion, where the majority of the sample is likely to be under similar physical conditions. Several correlation matrices are produced to search for interesting trends between more than 30 distinct light-curve and spectral properties that characterize the diversity of SNe II. Overall, SNe with higher expansion velocities are brighter, have more rapidly declining light curves, shorter plateau durations, and higher 56Ni masses. Using a larger sample than previous studies, we argue that “Pd”—the plateau duration from the transition of the initial to “plateau” decline rates to the end of the “plateau”—is a better indicator of the hydrogen envelope mass than the traditionally used optically thick phase duration (OPTd: explosion epoch to end of plateau). This argument is supported by the fact that Pd also correlates with s3, the light-curve decline rate at late times: lower Pd values correlate with larger s3 decline rates. Large s3 decline rates are likely related to lower envelope masses, which enables gamma-ray escape. We also find a significant anticorrelation between Pd and s2 (the plateau decline rate), confirming the long standing hypothesis that faster declining SNe II (SNe IIL) are the result of explosions with lower hydrogen envelope masses and therefore have shorter Pd values. [ABSTRACT FROM AUTHOR]

Published

2017

9. The Evolution and Physical Parameters of WN3/O3s: A New Type of Wolf–Rayet Star.

Author

Kathryn F. Neugent, Philip Massey, D. John Hillier, and Nidia Morrell

Subjects

MAGELLANIC clouds, BALMER formula, SPECTROSCOPIC light sources, BINARY systems (Astronomy), METALLIC plasmas

Abstract

As part of a search for Wolf–Rayet (WR) stars in the Magellanic Clouds, we have discovered a new type of WR star in the Large Magellanic Cloud (LMC). These stars have both strong emission lines, as well as He ii and Balmer absorption lines and spectroscopically resemble a WN3 and O3V binary pair. However, they are visually too faint to be WN3+O3V binary systems. We have found nine of these WN3/O3s, making up ∼6% of the population of LMC WRs. Using cmfgen, we have successfully modeled their spectra as single stars and have compared the physical parameters with those of more typical LMC WNs. Their temperatures are around 100,000 K, a bit hotter than the majority of WN stars (by around 10,000 K), though a few hotter WNs are known. The abundances are what you would expect for CNO equilibrium. However, most anomalous are their mass-loss rates, which are more like that of an O-type star than a WN star. While their evolutionary status is uncertain, their low mass-loss rates and wind velocities suggest that they are not products of homogeneous evolution. It is possible instead that these stars represent an intermediate stage between O stars and WNs. Since WN3/O3 stars are unknown in the Milky Way, we suspect that their formation depends upon metallicity, and we are investigating this further by a deep survey in M33, which possesses a metallicity gradient. [ABSTRACT FROM AUTHOR]

Published

2017

10. SPIRITS 15c and SPIRITS 14buu: Two Obscured Supernovae in the Nearby Star-forming Galaxy IC 2163.

Author

Jacob E. Jencson, Mansi M. Kasliwal, Joel Johansson, Carlos Contreras, Sergio Castellón, Howard E. Bond, Andrew J. Monson, Frank J. Masci, Ann Marie Cody, Jennifer E. Andrews, John Bally, Yi Cao, Ori D. Fox, Timothy Gburek, Robert D. Gehrz, Wayne Green, George Helou, Eric Hsiao, Nidia Morrell, and Mark Phillips

Subjects

SUPERNOVAE, STELLAR luminosity function, ASTRONOMICAL surveys, STAR observations, GALAXY spectra, STELLAR radiation

Abstract

SPitzer InfraRed Intensive Transients Survey—SPIRITS—is an ongoing survey of nearby galaxies searching for infrared (IR) transients with Spitzer/IRAC. We present the discovery and follow-up observations of one of our most luminous (M[4.5] = −17.1 ± 0.4 mag, Vega) and reddest ([3.6] − [4.5] = 3.0 ± 0.2 mag) transients, SPIRITS 15c. The transient was detected in a dusty spiral arm of IC 2163 (D ≈ 35.5 Mpc). Pre-discovery ground-based imaging revealed an associated, shorter-duration transient in the optical and near-IR (NIR). NIR spectroscopy showed a broad (≈8400 km s−1), double-peaked emission line of He i at 1.083 μm, indicating an explosive origin. The NIR spectrum of SPIRITS 15c is similar to that of the Type IIb SN 2011dh at a phase of ≈200 days. Assuming an AV = 2.2 mag of extinction in SPIRITS 15c provides a good match between their optical light curves. The NIR light curves, however, show some minor discrepancies when compared with SN 2011dh, and the extreme [3.6]–[4.5] color has not been previously observed for any SN IIb. Another luminous (M4.5 = −16.1 ± 0.4 mag) event, SPIRITS 14buu, was serendipitously discovered in the same galaxy. The source displays an optical plateau lasting ≳80 days, and we suggest a scenario similar to the low-luminosity Type IIP SN 2005cs obscured by AV ≈ 1.5 mag. Other classes of IR-luminous transients can likely be ruled out in both cases. If both events are indeed SNe, this may suggest that ≳18% of nearby core-collapse SNe are missed by currently operating optical surveys. [ABSTRACT FROM AUTHOR]

Published

2017

11. A Modern Search for Wolf–Rayet Stars in the Magellanic Clouds. III. A Third Year of Discoveries.

Author

Philip Massey, Kathryn F. Neugent, and Nidia Morrell

Subjects

WOLF-Rayet stars, MAGELLANIC clouds, X-ray binaries, STELLAR evolution, STAR formation, INTERSTELLAR medium

Abstract

For the past three years we have been conducting a survey for Wolf–Rayet (WR) stars in the Large and Small Magellanic Clouds (LMC, SMC). Our previous work resulted in the discovery of a new type of WR star in the LMC, which we are calling WN3/O3. These stars have the emission-line properties of a WN3 star (strong N v, but no N iv), plus the absorption-line properties of an O3 star (Balmer hydrogen plus Pickering He ii, but no He i). Yet, these stars are 15 times fainter than an O3 V star, ruling out the possibility that WN3/O3s are WN3+O3 binaries. Here we report the discovery of two more members of this class, bringing the total number of these objects to 10, 6.5% of the LMC’s total WR population. The optical spectra of nine of these WN3/O3s are virtually indistinguishable from each other, but one of the newly found stars is significantly different, showing a lower excitation emission and absorption spectrum (WN4/O4-ish). In addition, we have newly classified three unusual Of-type stars, including one with a strong C iii line, and two rapidly rotating “Oef” stars. We also “rediscovered” a low mass X-ray binary, RX J0513.9-6951, and demonstrate its spectral variability. Finally, we discuss the spectra of 10 low priority WR candidates that turned out to not have He ii emission. These include both a Be star and a B[e] star. [ABSTRACT FROM AUTHOR]

Published

2017

12. RISING FROM THE ASHES: MID-INFRARED RE-BRIGHTENING OF THE IMPOSTOR SN 2010da IN NGC 300.

Author

Ryan M. Lau, Mansi M. Kasliwal, Howard E. Bond, Nathan Smith, Ori D. Fox, Robert Carlon, Ann Marie Cody, Carlos Contreras, Devin Dykhoff, Robert Gehrz, Eric Hsiao, Jacob Jencson, Rubab Khan, Frank Masci, L. A. G. Monard, Andrew J. Monson, Nidia Morrell, Mark Phillips, and Michael E. Ressler

Subjects

SUPERNOVAE, INFRARED imaging, PHOTOMETRY, CIRCUMSTELLAR matter, STELLAR evolution, MASS loss (Astrophysics)

Abstract

We present multi-epoch mid-infrared (IR) photometry and the optical discovery observations of the “impostor” supernova (SN) 2010da in NGC 300 using new and archival SpitzerSpace Telescope images and ground-based observatories. The mid-infrared counterpart of SN 2010da was detected as Spitzer Infrared Intensive Transient Survey (SPIRITS) 14bme in the SPIRITS, an ongoing systematic search for IR transients. Before erupting on 2010 May 24, the SN 2010da progenitor exhibited a constant mid-IR flux at 3.6 and only a slight ∼10% decrease at 4.5 μm between 2003 November and 2007 December. A sharp increase in the 3.6 μm flux followed by a rapid decrease measured ∼150 days before and ∼80 days after the initial outburst, respectively, reveal a mid-IR counterpart to the coincident optical and high luminosity X-ray outbursts. At late times, after the outburst (∼2000 days), the 3.6 and 4.5 μm emission increased to over a factor of two times the progenitor flux and is currently observed (as of 2016 Feb) to be fading, but still above the progenitor flux. We attribute the re-brightening mid-IR emission to continued dust production and increasing luminosity of the surviving system associated with SN 2010da. We analyze the evolution of the dust temperature (Td ∼ 700–1000 K), mass (Md ∼ 0.5–3.8 × 10−7M⊙), luminosity (LIR ∼ 1.3–3.5 × 104L⊙), and the equilibrium temperature radius (Req ∼ 6.4–12.2 au) in order to resolve the nature of SN 2010da. We address the leading interpretation of SN 2010da as an eruption from a luminous blue variable high-mass X-ray binary (HMXB) system. We propose that SN 2010da is instead a supergiant (sg)B[e]-HMXB based on similar luminosities and dust masses exhibited by two other known sgB[e]-HMXB systems. Additionally, the SN 2010da progenitor occupies a similar region on a mid-IR color–magnitude diagram (CMD) with known sgB[e] stars in the Large Magellanic Cloud. The lower limit estimated for the orbital eccentricity of the sgB[e]-HMXB (e > 0.82) from X-ray luminosity measurements is high compared to known sgHMXBs and supports the claim that SN 2010da may be associated with a newly formed HMXB system. [ABSTRACT FROM AUTHOR]

Published

2016

13. A MODERN SEARCH FOR WOLF–RAYET STARS IN THE MAGELLANIC CLOUDS. II. A SECOND YEAR OF DISCOVERIES.

Author

Philip Massey, Kathryn F. Neugent, and Nidia Morrell

Subjects

ROTATION of galaxies, LOCAL Group (Astronomy), GALAXY clusters, STELLAR evolution, WOLF-Rayet stars

Abstract

The numbers and types of evolved massive stars found in nearby galaxies provide an exacting test of stellar evolution models. Because of their proximity and rich massive star populations, the Magellanic Clouds have long served as the linchpins for such studies. Yet the continued accidental discoveries of Wolf–Rayet (WR) stars in these systems demonstrate that our knowledge is not as complete as usually assumed. Therefore, we undertook a multi-year survey for WRs in the Magellanic Clouds. Our results from our first year (reported previously) confirmed nine new LMC WRs. Of these, six were of a type never before recognized, with WN3-type emission combined with O3-type absorption features. Yet these stars are 2–3 mag too faint to be WN3+O3 V binaries. Here we report on the second year of our survey, including the discovery of four more WRs, two of which are also WN3/O3s, plus two “slash” WRs. This brings the total of known LMC WRs to 152, 13 (8.2%) of which were found by our survey, which is now ∼60% complete. We find that the spatial distribution of the WN3/O3s is similar to that of other WRs in the LMC, suggesting that they are descended from the same progenitors. We call attention to the fact that 5 of the 12 known SMC WRs may in fact be similar WN3/O3s rather than the binaries they have often assumed to be. We also discuss our other discoveries: a newly discovered Onfp-type star, and a peculiar emission-line object. Finally, we consider the completeness limits of our survey. [ABSTRACT FROM AUTHOR]

Published

2015