Your search keyword '"Guinan, Edward"' showing total 15 results

1. The Photospheric Temperatures of Betelgeuse during the Great Dimming of 2019/2020: No New Dust Required.

Author

Harper, Graham M., Guinan, Edward F., Wasatonic, Richard, and Ryde, Nils

Subjects

*VERY large telescopes, *DUST, *NUCLEOSYNTHESIS, *PHOTOMETRY

Abstract

The processes that shape the extended atmospheres of red supergiants, heat their chromospheres, create molecular reservoirs, drive mass loss, and create dust remain poorly understood. Betelgeuse's V-band "Great Dimming" event of 2019 September/2020 February and its subsequent rapid brightening provides a rare opportunity to study these phenomena. Two different explanations have emerged to explain the dimming; new dust appeared in our line of sight attenuating the photospheric light, or a large portion of the photosphere had cooled. Here we present five years of Wing three-filter (A, B, and C band) TiO and near-IR photometry obtained at the Wasatonic Observatory. These reveal that parts of the photosphere had a mean effective temperature (Teff) significantly lower than that found by Levesque & Massey. Synthetic photometry from MARCS-model photospheres and spectra reveal that the V band, TiO index, and C-band photometry, and previously reported 4000–6800 Å spectra can be quantitatively reproduced if there are multiple photospheric components, as hinted at by Very Large Telescope (VLT)-SPHERE images in Montargčs et al. If the cooler component has ΔTeff ≥ 250 K cooler than 3650 K, then no new dust is required to explain the available empirical constraints. A coincidence of the dominant short- (∼430 days) and long-period (∼5.8 yr) V-band variations occurred near the time of deep minimum (Guinan et al. 2019a). This is in tandem with the strong correlation of V mag and photospheric radial velocities, recently reported by Dupree et al. (2020b). These suggest that the cooling of a large fraction of the visible star has a dynamic origin related to the photospheric motions, perhaps arising from pulsation or large-scale convective motions. [ABSTRACT FROM AUTHOR]

Published

2020

2. Hubble Space Telescope Snapshot Survey for Resolved Companions of Galactic Cepheids: Final Results.

Author

Evans, Nancy Remage, Günther, H. Moritz, Bond, Howard E., Schaefer, Gail H., Mason, Brian D., Karovska, Margarita, Tingle, Evan, Wolk, Scott, Engle, Scott, Guinan, Edward, Pillitteri, Ignazio, Proffitt, Charles, Kervella, Pierre, Gallenne, Alexandre, Anderson, Richard I., and Moe, Maxwell

Subjects

SPACE telescopes, CEPHEIDS, SUPERGIANT stars, STAR formation

Abstract

Cepheids in multiple systems provide information on the outcome of the formation of massive stars. They can also lead to exotic end-stage objects. This study concludes our survey of 70 galactic Cepheids using the Hubble Space Telescope (HST) Wide Field Camera 3 (WFC3) with images at two wavelengths to identify companions closer than 5″. In the entire WFC3 survey we identify 16 probable companions for 13 Cepheids. The 7 Cepheids having resolved candidate companions within 2″ all have the surprising property of themselves being spectroscopic binaries (as compared with a 29% incidence of spectroscopic binaries in the general Cepheid population). This is a strong suggestion that an inner binary is linked to the scenario of a third companion within a few hundred astronomical units. This characteristic is continued for more widely separated companions. Under a model where the outer companion is formed first, it is unlikely that it can anticipate a subsequent inner binary. Rather, it is more likely that a triple system has undergone dynamical interaction, resulting in one star moving outward to its current location. Chandra and Gaia data as well as radial velocities and HST/STIS and IUE spectra are used to derive properties of the components of the Cepheid systems. The colors of the companion candidates show a change in distribution at approximately 2000 au separations, from a range including both hot and cool colors for closer companions, to only low-mass companions for wider separations. [ABSTRACT FROM AUTHOR]

Published

2020

3. Spatially Resolved Ultraviolet Spectroscopy of the Great Dimming of Betelgeuse.

Author

Dupree, Andrea K., Strassmeier, Klaus G., Matthews, Lynn D., Uitenbroek, Han, Calderwood, Thomas, Granzer, Thomas, Guinan, Edward F., Leike, Reimar, Montargčs, Miguel, Richards, Anita M. S., Wasatonic, Richard, and Weber, Michael

Subjects

ULTRAVIOLET spectroscopy, ULTRAVIOLET spectra, SOUND pressure, ELECTRON density, ELECTRON temperature, ULTRAVIOLET spectrometry, SPACE telescopes

Abstract

The bright supergiant Betelgeuse (Alpha Orionis, HD 39801) experienced a visual dimming during 2019 December and the first quarter of 2020, reaching an historic minimum 2020 February 7–13. During 2019 September–November, prior to the optical dimming event, the photosphere was expanding. At the same time, spatially resolved ultraviolet spectra using the Hubble Space Telescope/Space Telescope Imaging Spectrograph revealed a substantial increase in the ultraviolet spectrum and Mg ii line emission from the chromosphere over the southern hemisphere of the star. Moreover, the temperature and electron density inferred from the spectrum and C ii diagnostics also increased in this hemisphere. These changes happened prior to the Great Dimming Event. Variations in the Mg ii k-line profiles suggest material moved outwards in response to the passage of a pulse or acoustic shock from 2019 September through November. It appears that this extraordinary outflow of material from the star, likely initiated by convective photospheric elements, was enhanced by the coincidence with the outward motions in this phase of the ∼400 day pulsation cycle. These ultraviolet observations appear to provide the connecting link between the known large convective cells in the photosphere and the mass ejection event that cooled to form the dust cloud in the southern hemisphere imaged in 2019 December, and led to the exceptional optical dimming of Betelgeuse in 2020 February. [ABSTRACT FROM AUTHOR]

Published

2020

4. Rotation, Convective Core Overshooting, and Period Changes in Classical Cepheid Stellar Evolution Models.

Author

Miller, Cassandra L., Neilson, Hilding R., Evans, Nancy Remage, Engle, Scott G., and Guinan, Edward

Subjects

CEPHEIDS, STELLAR evolution, STELLAR rotation, ROTATIONAL motion, STELLAR mass

Abstract

Classical Cepheids are powerful probes of both stellar evolution and near-field cosmology thanks to their great luminosities, pulsations, and their adherence to the Leavitt (period–luminosity) Law. However, there still exist a number of questions regarding their evolution, such as the roles of rotation, convective core overshooting, and winds. ln particular, how do these processes impact Cepheid evolution and the predicted fundamental properties such as stellar mass? In this work, we compare a sample of Cepheids with measured rates of period change with new evolution models to test the impact of these first two processes. In our previous study we found that enhanced mass loss is crucial for describing the sample, and here we continue that analysis but for rotational mixing and core overshooting. We show that while rotation is important for stellar evolution studies, rotation itself is insufficient to model the distribution of period change rates from the observed sample. On the other hand, convective core overshooting is needed to explain the magnitude of the rates of period change, but does not explain the number of stars with positive and negative period change rates. In conclusion, we determine that convective core overshooting and stellar rotation alone are not enough to account for the observed distribution of Cepheid rates of period change and another mechanism, such as pulsation-driven mass loss, may be required. [ABSTRACT FROM AUTHOR]

Published

2020

5. ASTEROSEISMOLOGY OF THE NEARBY SN II PROGENITOR RIGEL. II. ϵ-MECHANISM TRIGGERING GRAVITY-MODE PULSATIONS?

Author

MORAVVEJI, EHSAN, MOYA, ANDRES, and GUINAN, EDWARD F.

Subjects

SUPERGIANT stars, SUPERNOVAE, SUPERNOVA remnants, RADIAL velocity of stars, STELLAR structure, STELLAR evolution

Abstract

The cores of luminous B- and A-type (BA) supergiant stars are the seeds of later core-collapse supernovae. Thus, constraining the near-core conditions in this class of stars can place tighter constraints on the size, mass, and chemical composition of supernova remnants. Asteroseismology of these massive stars is one possible approach into such investigations. Recently, Moravveji et al. in 2012 (hereafter Paper I) extracted 19 significant frequencies from a 6-year radial velocity monitoring of Rigel (β Ori, B8 Ia). The periods they determined broadly range from 1.22 to 74.74 days. Based on our differentially rotating stellar structure and evolution model, Rigel, at its current evolutionary state, is undergoing core He burning and shell H burning. Linear fully non-adiabatic non-radial stability analyses result in the excitation of a dense spectrum of non-radial gravity-dominated mixed modes. The fundamental radial mode (ℓ = 0) and its overtones are all stable. When the hydrogen-burning shell is located even partially in the radiative zone, a favorable condition for destabilization of g-modes through the so-called ϵ-mechanism becomes viable. Only those g-modes that have high relative amplitudes in the hydrogen-burning (radiative) zone can survive the strong radiative damping. From the entire observed range of variability periods of Rigel (found in Paper I), and based on our model, only those modes with periods ranging between 21 and 127 days can be theoretically explained by the ϵ-mechanism. The origin of the short-period variations (found in Paper I) still remains unexplained. Because Rigel is similar to other massive BA supergiants, we believe that the ϵ-mechanism may be able to explain the long-period variations in α Cygni class of pulsating stars. [ABSTRACT FROM AUTHOR]

Published

2012

6. ASTEROSEISMOLOGY OF THE NEARBY SN-II PROGENITOR: RIGEL. I. THE MOST HIGH-PRECISION PHOTOMETRY AND RADIAL VELOCITY MONITORING.

Author

MORAVVEJI, EHSAN, GUINAN, EDWARD F., SHULTZ, MATT, WILLIAMSON, MICHAEL H., and MOYA, ANDRES

Subjects

*SUPERGIANT stars, *SUPERNOVAE, *ASTRONOMICAL photometry, *SIGNAL-to-noise ratio, *GRAVITY

Abstract

Rigel (β Ori, B8 Ia) is a nearby blue supergiant displaying α Cyg type variability, and is one of the nearest Type II supernova progenitors. As such it is an excellent test bed to study the internal structure of pre-core-collapse stars. In this study, for the first time, we present 28 days of high-precision MOST photometry and over six years of spectroscopic monitoring. We report 19 significant pulsation modes of signal-to-noise ratio, S/N ≿ 4.6 from radial velocities, with variability timescales ranging from 1.21 to 74.7 days, which are associated with high-order low-degree gravity modes. While the radial velocity variations show a degree of correlation with the flux changes, there is no clear interplay between the equivalent widths of different metallic and Hα lines. [ABSTRACT FROM AUTHOR]

Published

2012

7. First Determination of the Distance and Fundamental Properties of an Eclipsing Binary in the Andromeda GalaxyBased on observations obtained at the Gemini Observatory, which is operated by the Association of Universities for Research in Astronomy, Inc., under a cooperative agreement with the NSF on behalf of the Gemini partnership: the National Science Foundation (US), the Particle Physics and Astronomy Research Council (UK), the National Research Council (Canada), CONICYT (Chile), the Australian Research Council (Australia), CNPq (Brazil), and CONICET (Argentina) Based on observations made with the Isaac Newton Telescope operated on the island of La Palma by the Isaac Newton Group in the Spanish Observatorio del Roque de los Muchachos of the Instituto de Astrofísica de Canarias.

Author

Ribas, Ignasi, Jordi, Carme, Vilardell, Francesc, Fitzpatrick, Edward L., Hilditch, Ron W., and Guinan, Edward F.

Published

2005

8. Evolution of the Solar Activity over Time and Effects on Planetary Atmospheres. I. High-Energy Irradiances (1-1700 Å).

Author

Ribas, Ignasi, Guinan, Edward F., Güdel, Manuel, and Audard, Marc

Published

2005

9. Are Coronae of Magnetically Active Stars Heated by Flares? II. Extreme Ultraviolet and X-Ray Flare Statistics and the Differential Emission Measure Distribution.

Author

Güdel, Manuel, Audard, Marc, Kashyap, Vinay L., Drake, Jeremy J., and Guinan, Edward F.

Published

2003

10. Fundamental Properties and Distances of Large Magellanic Cloud Eclipsing Binaries. III. EROS 1044Based on observations with the NASA/ESA Hubble Space Telescope, obtained at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc. under NASA contract NAS 5-26555.

Author

Ribas, Ignasi, Fitzpatrick, Edward L., Maloney, Frank P., Guinan, Edward F., and Udalski, Andrzej

Published

2002

11. THE SECRET LIVES OF CEPHEIDS: EVOLUTIONARY CHANGES AND PULSATION-INDUCED SHOCK HEATING IN THE PROTOTYPE CLASSICAL CEPHEID δ Cep.

Author

Engle, Scott G., Guinan, Edward F., Harper, Graham M., Neilson, Hilding R., and Evans, Nancy Remage

Subjects

*CEPHEIDS, *SHOCK heating, *PULSATING stars, *STELLAR evolution, *ASTROPHYSICS research

Abstract

Over the past decade, the Secret Lives of Cepheids (SLiC) program has been carried out at Villanova University to study aspects and behaviors of classical Cepheids that are still not well understood. In this, the first of several planned papers on program Cepheids, we report the current results for δ Cep, the Cepheid prototype. Ongoing photometry has been obtained to search for changes in the pulsation period, light-curve morphology, and amplitude. Combining our photometry with the times of maximum light compilation by Berdnikov et al. returns a small period change of dP/dt ≈–0.1006 ± 0.0002 s yr-1. There is also evidence for a gradual light amplitude increase of ∼0.011 mag (V band) and ∼0.012 mag (B band) per decade over the last ∼50 years. In addition, Hubble Space Telescope (HST) Cosmic Origins Spectrograph (COS) UV spectrophotometry and XMM-Newton X-ray data were carried out to investigate the high-temperature plasmas present above the Cepheid photospheres. In total, from the five visits (eight exposures) with XMM-Newton, δ Cep is found to be a soft X-ray source (LX (0.3-2 keV) ≈4.5-13 × 1028 erg s-1) with peak flux at kT = 0.6-0.9 keV. The X-ray activity is found to vary, possibly in phase with the stellar pulsations. From 2010-2013, nine observations of δ Cep were carried out with HST-COS. The UV emissions are also variable and well phased with the stellar pulsations. Maximum UV line emissions occur near, or slightly before, maximum optical light, varying by as much as 20 times. This variability shows that pulsation-induced shock heating plays a significant role in Cepheid atmospheres, possibly in addition to a quiescent, magnetic heating. The results of this study show Cepheid atmospheres to be rather complex and dynamic. [ABSTRACT FROM AUTHOR]

Published

2014

12. Far-Ultraviolet Emissions of the Sun in Time: Probing Solar Magnetic Activity and Effects on Evolution of Paleoplanetary Atmospheres.

Author

Guinan, Edward F., Ribas, Ignasi, and Harper, Graham M.

Published

2003

13. Eclipsing Binaries as Astrophysical Laboratories: Internal Structure, Core Convection, and Evolution of the B-Star Components of V380 Cygni.

Author

Guinan, Edward F., Ribas, Ignasi, Fitzpatrick, Edward L., Giménez, Álvaro, Jordi, Carme, McCook, George P., and Popper, Daniel M.

Published

2000

14. The Large Magellanic Cloud Eclipsing Binary HV 2274: Fundamental Properties and Comparison with Evolutionary Models.

Author

Ribas, Ignasi, Guinan, Edward F., Fitzpatrick, Edward L., DeWarf, Laurence E., Maloney, Frank P., Maurone, Philip A., Bradstreet, David H., Giménez, Álvaro, and Pritchard, John D.

Published

2000

15. New Perspectives on AX Monocerotis.

Author

Elias II, Nicholas M., Wilson, R. E., Olson, Edward C., Aufdenberg, Jason P., Guinan, Edward F., Güdel, Manuel, van Hamme, Walter V., and L. Stevens, and Heather

Published

1997