Your search keyword '"Boyd, Padi"' showing total 13 results

1. Hooked on Physics: Seven Astrophysicists Share Their Stories

Author

Boyd, Padi, Lochner, Jim, Butterworth, Paul, Buratti, Bonnie Jean, Snowden, Steve, Mukai, Koji, and Pendleton, Yvonne J. (Yvonne Jean)

Published

2003

2. Community Involvement in the WFIRST Exoplanet Microlensing Survey

Author

Bennett, David P., Akeson, Rachel, Barclay, Thomas, Beaulieu, Jean-Phillipe, Bhattacharya, Aparna, Boyd, Padi, Bozza, Valerio, Bryden, Geoffrey, Novati, Sebastiano Calchi, Colon, Knicole, Gaudi, B. Scott, Henderson, Calen B., Hirao, Yuki, Jacklin, Savannah, Koshimoto, Naoki, Lu, Jessica, Penny, Matthew, Poleski, Radek, Quintana, Elisa, Ranc, Clement, Sahu, Kailash C., Street, Rachel, Sumi, Takahiro, Suzuki, Daisuke, and Yee, Jennifer

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

WFIRST is NASA's first flagship mission with pre-defined core science programs to study dark energy and perform a statistical census of wide orbit exoplanets with a gravitational microlensing survey. Together, these programs are expected to use more than half of the prime mission observing time. Previously, only smaller, PI-led missions have had core programs that used such a large fraction of the observing time, and in many cases, the data from these PI-led missions was reserved for the PI's science team for a proprietary period that allowed the PI's team to make most of the major discoveries from the data. Such a procedure is not appropriate for a flagship mission, which should provide science opportunities to the entire astronomy community. For this reason, there will be no proprietary period for WFIRST data, but we argue that a larger effort to make WFIRST science accessible to the astronomy community is needed. We propose a plan to enhance community involvement in the WFIRST exoplanet microlensing survey in two different ways. First, we propose a set of high level data products that will enable astronomers without detailed microlensing expertise access to the statistical implications of the WFIRST exoplanet microlensing survey data. And second, we propose the formation of a WFIRST Exoplanet Microlensing Community Science Team that will open up participation in the development of the WFIRST exoplanet microlensing survey to the general astronomy community in collaboration for the NASA selected science team, which will have the responsibility to provide most of the high level data products. This community science team will be open to volunteers, but members should also have the opportunity to apply for funding., Comment: Astro2020 APC White Paper

Published

2019

3. The WFIRST Exoplanet Microlensing Survey

Author

Bennett, David P., Akeson, Rachel, Anderson, Jay, Armus, Lee, Bachelet, Etienne, Bailey, Vanessa, Barclay, Thomas, Barry, Richard, Beaulieu, Jean-Phillipe, Belini, Andrea, Benford, Dominic J., Bhattacharya, Aparna, Boyd, Padi, Bozza, Valerio, Novati, Sebastiano Calchi, Carpenter, Kenneth, Cassan, Arnaud, Ciardi, David, Cole, Andrew, Colon, Knicole, Coutures, Christian, Dominik, Martin, Fouque, Pascal, Grady, Kevin, Groff, Tyler, Henderson, Calen B., Horne, Keith, Gelino, Christopher, Gelino, Dawn, Kalirai, Jason, Kane, Stephen, Kasdin, N. Jeremy, Kruk, Jeffrey, Laine, Seppo, Lambrechts, Michiel, Mancini, Luigi, Mandell, Avi, Malhotra, Sangeeta, Mao, Shude, McElwain, Michael, Mennesson, Bertrand, Meshkat, Tiffany, Moustakas, Leonidas, Munoz, Jose A., Nataf, David, Paladini, Roberta, Pascucci, Ilaria, Penny, Matthew, Poleski, Radek, Quintana, Elisa, Ranc, Clement, Rattenbury, Nicholas, Rhodes, James, Rhodes, Jason D., Rizzo, Maxime, Roberge, Aki, Rogers, Leslie, Sahu, Kailash C., Schlieder, Joshua, Seager, Sara, Shvartzvald, Yossi, Soummer, Remi, Spergel, David, Stassun, Keivan G., Street, Rachel, Sumi, Takahiro, Suzuki, Daisuke, Trauger, John, van der Marel, Roeland, Williams, Benjamin F., Wollack, Edward J., Yee, Jennifer, Yonehara, Atsunori, and Zimmerman, Neil

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The Wide Field Infrared Survey Telescope (WFIRST) was the top ranked large space mission in the 2010 New Worlds, New Horizons decadal survey, and it was formed by merging the science programs of 3 different mission concepts, including the Microlensing Planet Finder (MPF) concept (Bennett \etal\ 2010). The WFIRST science program (Spergel \etal\ 2015) consists of a general observer program, a wavefront controlled technology program, and two targeted science programs: a program to study dark energy, and a statistical census of exoplanets with a microlensing survey, which uses nearly one quarter of WFIRST's observing time in the current design reference mission. The New Worlds, New Horizons (decadal survey) midterm assessment summarizes the science case for the WFIRST exoplanet microlensing survey with this statement: "WFIRST's microlensing census of planets beyond 1 AU will perfectly complement Kepler's census of compact systems, and WFIRST will also be able to detect free-floating planets unbound from their parent stars\rlap.", Comment: White paper submitted to the National Academy Committee on an Exoplanet Science Strategy; 6 pages (typo fixed)

Published

2018

4. Rapidly Rotating, X-ray Bright Stars in the Kepler Field

Author

Howell, Steve B., Mason, Elena, Boyd, Padi, Smith, Krista Lynne, and Gelino, Dawn

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present Kepler light curves and optical spectroscopy of twenty X-ray bright stars located in the Kepler field of view. The stars, spectral type FK, show evidence for rapid rotation including chromospheric activity 100 times or more above the Sun at maximum and flaring behavior in their light curves. Eighteen of our objects appear to be (sub)giants and may belong to the class of FK Com variables, that is evolved rapidly spinning single stars with no excretion disk and high levels of chromospheric activity. Such stars are rare and are likely the result of W UMa binary mergers, a process believed to produce the FK Com class of variable and their descendants. The FK Com stage, including the presence of an excretion disk, is short-lived but leads to longer-lived stages consisting of single, rapidly rotating evolved (sub)giants with high levels of stellar activity., Comment: 34 pages, Accepted in ApJ

Published

2016

5. Demonstrating the likely neutron star nature of five M31 globular cluster sources with Swift-NuSTAR spectroscopy

Author

Maccarone, Thomas J., Yukita, Mihoko, Hornschemeier, Ann, Lehmer, Bret D., Antoniou, Vallia, Ptak, Andrew, Wik, Daniel R., Zezas, Andreas, Boyd, Padi, Kennea, Jamie, Page, Kim, Eracleous, Mike, Williams, Benjamin F., Boggs, Steven E., Christensen, Finn E., Craig, William W., Hailey, Charles J., Harrison, Fiona, Stern, Dan, and Zhang, William W.

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the results of a joint Swift-NuSTAR spectroscopy campaign on M31. We focus on the five brightest globular cluster X-ray sources in our fields. Two of these had previously been argued to be black hole candidates on the basis of apparent hard-state spectra at luminosities above those for which neutron stars are in hard states. We show that these two sources are likely to be Z-sources (i.e. low magnetic field neutron stars accreting near their Eddington limits), or perhaps bright atoll sources (low magnetic field neutron stars which are just a bit fainter than this level) on the basis of simultaneous Swift and NuSTAR spectra which cover a broader range of energies. These new observations reveal spectral curvature above 6-8 keV that would be hard to detect without the broader energy coverage the NuSTAR data provide relative to Chandra and XMM-Newton. We show that the other three sources are also likely to be bright neutron star X-ray binaries, rather than black hole X-ray binaries. We discuss why it should already have been realized that it was unlikely that these objects were black holes on the basis of their being persistent sources, and we re-examine past work which suggested that tidal capture products would be persistently bright X-ray emitters. We discuss how this problem is likely due to neglecting disk winds in older work that predict which systems will be persistent and which will be transient., Comment: 12 pages, 3 figures, accepted to MNRAS

Published

2016

6. Discovery of a ~5 day characteristic timescale in the Kepler power spectrum of Zw 229-15

Author

Edelson, Rick, Vaughan, Simon, Malkan, Matt, Kelly, Brandon, Smith, Krista, Boyd, Padi, and Mushotzky, Richard

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present time series analyses of the full Kepler dataset of Zw 229-15. This Kepler light curve --- with a baseline greater than three years, composed of virtually continuous, evenly sampled 30-minute measurements --- is unprecedented in its quality and precision. We utilize two methods of power spectral analysis to investigate the optical variability and search for evidence of a bend frequency associated with a characteristic optical variability timescale. Each method yields similar results. The first interpolates across data gaps to use the standard Fourier periodogram. The second, using the CARMA-based time-domain modeling technique of Kelly et al. (2014), does not need evenly-sampled data. Both methods find excess power at high frequencies that may be due to Kepler instrumental effects. More importantly both also show strong bends ({\Delta}{\alpha} ~ 2) at timescales of ~5 days, a feature similar to those seen in the X-ray PSDs of AGN but never before in the optical. This observed ~5 day timescale may be associated with one of several physical processes potentially responsible for the variability. A plausible association could be made with light-crossing, dynamical or thermal timescales, depending on the assumed value of the accretion disk size and on unobserved disk parameters such as {\alpha} and H/R. This timescale is not consistent with the viscous timescale, which would be years in a ~10^7 Solar mass AGN such as Zw 229-15. However there must be a second bend on long (>~1 year) timescales, and that feature could be associated with the viscous timescale., Comment: 10 pages, 5 figures, 1 table. To appear in the Astrophysical Journal, Part 1

Published

2014

7. AstroCappella: A Musical Exploration of the Universe. Activities and Information To Accompany the AstroCappella CD. Grades 7-12.

Author

National Aeronautics and Space Administration, Greenbelt, MD. Goddard Space Flight Center., Boyd, Padi, Granger, Kara C., and Smale, Alan

Abstract

AstroCappella combines the love of music with the love of astronomy. The booklet contains hands-on activities that can be done in the classroom coupled with rocking, high-energy, professionally recorded and produced songs written and performed by an established vocal band. The lesson plans help students learn how convection works, how radio telescopes work, how a payload landing is protected on another planet, and what scientists learn by looking for x-rays from the skies. Students build and test a type of communication system called a parabolic dish receiver, demonstrate the Doppler effect, model the preparation needed for a soft landing on a planet or object in space, learn about the technique known as sampling, examine convection in a bowl of soup, and learn about high energy astronomy. AstroCapella song lyrics are included. (DDR)

Published

1998

8. Community Involvement in the WFIRST Exoplanet Microlensing Survey

Author

Bennett, David, Akeson, Rachel, Barclay, Thomas, Beaulieu, Jean-Phillipe, Bhattacharya, Aparna, Boyd, Padi, Bozza, Valerio, Bryden, Geoffrey, Calchi Novati, Sebastiano, Colon, Knicole, Gaudi, B. Scott, Henderson, Calen B., Hirao, Yuki, Jacklin, Savannah, Koshimoto, Naoki, Lu, Jessica, Penny, Matthew, Poleski, Radek, Quintana, Elisa, Ranc, Clément, Sahu, Kailash C., Street, Rachel, Sumi, Takahiro, Suzuki, Daisuke, Yee, Jennifer, Aston Business School, Aston University [Birmingham], NASA Ames Research Center Cooperative for Research in Earth Science in Technology (ARC-CREST), NASA Ames Research Center (ARC), Institut d'Astrophysique de Paris (IAP), Institut national des sciences de l'Univers (INSU - CNRS)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Department of Astronomy [Berkeley], University of California [Berkeley], University of California-University of California, and goddard space

Subjects

[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]

Abstract

WFIRST is NASA's first flagship mission with predefined core core science programs. We present a set of high level data products that will enable broad participation in the science of the exoplanet microlensing survey and a community science team concept that will allow broad community involvement in the survey development and scientific output.

Published

2019

9. The Kepler Light Curves of KSwAGS AGN: A Unique Window into Accretion Physics

Author

Smith, Krista Lynne, Mushotzky, Richard, Boyd, Padi, Edelson, Rick, Howell, Steve, Gelino, Dawn, and Brown, Alex

Subjects

Active Galactic Nuclei

Abstract

The Kepler-Swift Active Galaxies Survey (KSwAGS) discovered ~160 AGN in the Kepler and K2 fields. The optical Kepler and K2 light curves of these AGN are by far the most precise and evenly-sampled ever obtained. There are unique challenges involved in adapting Kepler/K2 data for use with AGN since the Kepler pipeline removes stochasticity; however, once mitigated, these data provide an unprecedented glimpse of the accretion disk's variability. We have also conducted follow-up spectral observations to determine black hole masses and accretion rates for the sample, which fill a wide parameter space (6.9 < Log MBH < 9.4, 0.003 < L/Ledd < 0.6). These, in tandem with the light curves, may be able to distinguish between different accretion models.

Published

2016

10. Demonstrating the likely neutron star nature of five M31 globular cluster sources withSwift-NuSTAR spectroscopy

Author

Maccarone, Thomas J., primary, Yukita, Mihoko, additional, Hornschemeier, Ann, additional, Lehmer, Bret D., additional, Antoniou, Vallia, additional, Ptak, Andrew, additional, Wik, Daniel R., additional, Zezas, Andreas, additional, Boyd, Padi, additional, Kennea, Jamie, additional, Page, Kim L., additional, Eracleous, Mike, additional, Williams, Benjamin F., additional, Boggs, Steven E., additional, Christensen, Finn E., additional, Craig, William W., additional, Hailey, Charles J., additional, Harrison, Fiona A., additional, Stern, Daniel, additional, and Zhang, William W., additional

Published

2016

11. Imagine the Universe

Author

Allen, Jesse., Arida, Mike., Audley, Damian., Bene, Meredith., Boyd, Padi., Cliffe, Allie., Fantasia, Steve., Garcia, Leonard., Jaffe, Tess., Lochner, Jim., Masetti, Maggie., Mukai, Koji., Rohrbach, Gail., Smale, Karen., Tyler, Pat., White, Nick., Whitlock, Laura., Allen, Jesse., Arida, Mike., Audley, Damian., Bene, Meredith., Boyd, Padi., Cliffe, Allie., Fantasia, Steve., Garcia, Leonard., Jaffe, Tess., Lochner, Jim., Masetti, Maggie., Mukai, Koji., Rohrbach, Gail., Smale, Karen., Tyler, Pat., White, Nick., and Whitlock, Laura.

Abstract

Imagine the Universe is a high school and college level site that includes basic and advanced level discussions on high energy astrophysics, an astrophysical dictionary, data and software, teacher resources, and a Cineplex with QuickTime and .avi movies (under the HEA Village).

Published

1996

12. Hooked on Physics: Seven Astrophysicists Share Their Stories

Author

Boyd, Padi., primary, Lochner, Jim., additional, Butterworth, Paul., additional, Buratti, Bonnie Jean, additional, Snowden, Steve., additional, Mukai, Koji., additional, and Pendleton, Yvonne J. (Yvonne Jean), additional

Published

1997

13. How Far? How Powerful?

Author

Boyd, Padi, Granger, Kara, Whitlock, Laura, Boyd, Padi, Granger, Kara, and Whitlock, Laura

Abstract

This collection of activities and information teaches students about Gamma ray bursts by having them follow exactly the same procedures used by today's astronomers. Students will review some basic physics concepts about light, learn about redshifted spectra and Hubble's Law, and use them to find out how far away, and how powerful, gamma ray bursts truly are. Students will work with a real optical spectrum of a gamma ray burst afterglow taken at the Keck Observatory. They will measure the shifts of spectral lines, deduce the velocity of the astronomical object, and then use Hubble's Law to get its distance. Finally, by knowing how far away an object is, and how much energy it deposited on the detector, students can calculate how much energy was emitted at the source, using the one over r-squared fall-off relation of light.