Your search keyword '"Pérez, Ana Elia García"' showing total 8 results

1. Chemical Abundances in a Sample of Red Giants in the Open Cluster NGC 2420 from APOGEE

Author

Souto, Diogo, Cunha, Katia, Smith, Verne, Prieto, Carlos Allende, Pinsonneault, Marc, Zamora, Olga, García-Hernández, D. Anibal, Meszaros, Szabolcs, Bovy, Jo, Pérez, Ana Elia García, Anders, Friedrich, Bizyaev, Dmitry, Carrera, Ricardo, Frinchaboy, Peter, Holtzman, Jon, Ivans, Inese, Majewski, Steve, Shetrone, Matthew, Sobeck, Jennifer, Pan, Kaike, Tang, Baitian, Villanova, Sandro, and Geisler, Douglas

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

NGC 2420 is a $\sim$2 Gyr-old well-populated open cluster that lies about 2 kpc beyond the solar circle, in the general direction of the Galactic anti-center. Most previous abundance studies have found this cluster to be mildly metal-poor, but with a large scatter in the obtained metallicities for this open cluster. Detailed chemical abundance distributions are derived for 12 red-giant members of NGC 2420 via a manual abundance analysis of high-resolution (R = 22,500) near-infrared ($\lambda$1.5 - 1.7$\mu$m) spectra obtained from the Apache Point Observatory Galactic Evolution Experiment (APOGEE) survey. The sample analyzed contains 6 stars that are identified as members of the first-ascent red giant branch (RGB), as well as 6 members of the red clump (RC). We find small scatter in the star-to-star abundances in NGC 2420, with a mean cluster abundance of [Fe/H] = -0.16 $\pm$ 0.04 for the 12 red giants. The internal abundance dispersion for all elements (C, N, O, Na, Mg, Al, Si, K, Ca, Ti, V, Cr, Mn, Co and Ni) is also very small ($\sim$0.03 - 0.06 dex), indicating a uniform cluster abundance distribution within the uncertainties. NGC 2420 is one of the clusters used to calibrate the APOGEE Stellar Parameter and Chemical Abundance Pipeline (ASPCAP). The results from this manual analysis compare well with ASPCAP abundances for most of the elements studied, although for Na, Al and V there are more significant offsets. No evidence of extra-mixing at the RGB luminosity bump is found in the $^{12}$C and $^{14}$N abundances from the pre-luminosity-bump RGB stars in comparison to the post-He core-flash RC stars., Comment: 35 pages, 9 figures, 5 tables. Accepted for publication in the ApJ 2016

Published

2016

2. Chemical abundance gradients from open clusters in the Milky Way disk: results from the APOGEE survey

Author

Cunha, Katia, Frinchaboy, Peter M., Souto, Diogo, Thompson, Benjamin, Zasowski, Gail, Prieto, Carlos Allende, Carrera, Ricardo, Chiappini, Cristina, Donor, John, Garcia-Hernandez, Anibal, Perez, Ana Elia Garcia, Hayden, Michael R., Holtzman, Jon, Jackson, Kelly M., Johnson, Jennifer A., Majewski, Steven R., Meszaros, Szabolcs, Meyer, Brianne, Nidever, David L., O'Connell, Julia, Schiavon, Ricardo P., Schultheis, Mathias, Shetrone, Matthew, Simmons, Audrey, Smith, Verne V., and Zamora, Olga

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Metallicity gradients provide strong constraints for understanding the chemical evolution of the Galaxy. We report on radial abundance gradients of Fe, Ni, Ca, Si, and Mg obtained from a sample of 304 red-giant members of 29 disk open clusters, mostly concentrated at galactocentric distances between ~8 - 15 kpc, but including two open clusters in the outer disk. The observations are from the APOGEE survey. The chemical abundances were derived automatically by the ASPCAP pipeline and these are part of the SDSS III Data Release 12. The gradients, obtained from least squares fits to the data, are relatively flat, with slopes ranging from -0.026 to -0.033 dex/kpc for the alpha-elements [O/H], [Ca/H], [Si/H] and [Mg/H] and -0.035 dex/kpc and -0.040 dex/kpc for [Fe/H] and [Ni/H], respectively. Our results are not at odds with the possibility that metallicity ([Fe/H]) gradients are steeper in the inner disk (R_GC ~7 - 12 kpc) and flatter towards the outer disk. The open cluster sample studied spans a significant range in age. When breaking the sample into age bins, there is some indication that the younger open cluster population in our sample (log age < 8.7) has a flatter metallicity gradient when compared with the gradients obtained from older open clusters., Comment: 4 pages, 3 figures, To appear in Astronomische Nachrichten, special issue "Reconstruction the Milky Way's History: Spectroscopic surveys, Asteroseismology and Chemo-dynamical models", Guest Editors C. Chiappini, J. Montalb\'an, and M. Steffen, AN 2016 (in press)"

Published

2016

3. The APOGEE Spectroscopic Survey of Kepler Planet Hosts: Feasibility, Efficiency, and First Results

Author

Fleming, Scott W., Mahadevan, Suvrath, Deshpande, Rohit, Bender, Chad F., Terrien, Ryan C., Marchwinski, Robert C., Wang, Ji, Roy, Arpita, Stassun, Keivan G., Prieto, Carlos Allende, Cunha, Katia, Smith, Verne V., Agol, Eric, Ak, Hasan, Bastien, Fabienne A., Bizyaev, Dmitry, Crepp, Justin R., Ford, Eric B., Frinchaboy, Peter M., García-Hernández, Domingo Aníbal, Pérez, Ana Elia García, Gaudi, B. Scott, Ge, Jian, Hearty, Fred, Ma, Bo, Majewski, Steve R., Mészáros, Szabolcs, Nidever, David L., Pan, Kaike, Pepper, Joshua, Pinsonneault, Marc H., Schiavon, Ricardo P., Schneider, Donald P., Wilson, John C., Zamora, Olga, and Zasowski, Gail

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

The Kepler mission has yielded a large number of planet candidates from among the Kepler Objects of Interest (KOIs), but spectroscopic follow-up of these relatively faint stars is a serious bottleneck in confirming and characterizing these systems. We present motivation and survey design for an ongoing project with the SDSS-III multiplexed APOGEE near-infrared spectrograph to monitor hundreds of KOI host stars. We report some of our first results using representative targets from our sample, which include current planet candidates that we find to be false positives, as well as candidates listed as false positives that we do not find to be spectroscopic binaries. With this survey, KOI hosts are observed over ~20 epochs at a radial velocity precision of 100-200 m/s. These observations can easily identify a majority of false positives caused by physically-associated stellar or substellar binaries, and in many cases, fully characterize their orbits. We demonstrate that APOGEE is capable of achieving RV precision at the 100-200 m/s level over long time baselines, and that APOGEE's multiplexing capability makes it substantially more efficient at identifying false positives due to binaries than other single-object spectrographs working to confirm KOIs as planets. These APOGEE RVs enable ancillary science projects, such as studies of fundamental stellar astrophysics or intrinsically rare substellar companions. The coadded APOGEE spectra can be used to derive stellar properties (T_eff, log(g)) and chemical abundances of over a dozen elements to probe correlations of planet properties with individual elemental abundances., Comment: Accepted in AJ, 17 pages, 13 figures, 4 tables

Published

2015

4. The Data Reduction Pipeline for the Apache Point Observatory Galactic Evolution Experiment

Author

Nidever, David L., Holtzman, Jon A., Prieto, Carlos Allende, Beland, Stephane, Bender, Chad, Bizyaev, Dmitry, Burton, Adam, Desphande, Rohit, Fleming, Scott W., Perez, Ana Elia Garcia, Hearty, Fred R., Majewski, Steven R., Meszaros, Szabolcs, Muna, Demitri, Nguyen, Duy, Schiavon, Ricardo P., Shetrone, Matthew, Skrutskie, Michael F., Sobeck, Jennifer S., and Wilson, John C.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The Apache Point Observatory Galactic Evolution Experiment (APOGEE), part of the Sloan Digital Sky Survey III, explores the stellar populations of the Milky Way using the Sloan 2.5-m telescope linked to a high resolution (R~22,500), near-infrared (1.51-1.70 microns) spectrograph with 300 optical fibers. For over 150,000 predominantly red giant branch stars that APOGEE targeted across the Galactic bulge, disks and halo, the collected high S/N (>100 per half-resolution element) spectra provide accurate (~0.1 km/s) radial velocities, stellar atmospheric parameters, and precise (~0.1 dex) chemical abundances for about 15 chemical species. Here we describe the basic APOGEE data reduction software that reduces multiple 3D raw data cubes into calibrated, well-sampled, combined 1D spectra, as implemented for the SDSS-III/APOGEE data releases (DR10, DR11 and DR12). The processing of the near-IR spectral data of APOGEE presents some challenges for reduction, including automated sky subtraction and telluric correction over a 3 degree diameter field and the combination of spectrally dithered spectra. We also discuss areas for future improvement., Comment: 22 pages, 26 figures. Accepted for publication in AJ

Published

2015

5. The Open Cluster Chemical Analysis and Mapping Survey: Local Galactic Metallicity Gradient with APOGEE using SDSS DR10

Author

Frinchaboy, Peter M., Thompson, Benjamin, Jackson, Kelly M., O'Connell, Julia, Meyer, Brianne, Zasowski, Gail, Majewski, Steven R., Chojnowksi, S. Drew, Johnson, Jennifer A., Prieto, Carlos Allende, Beers, Timothy C., Bizyaev, Dmitry, Brewington, Howard, Cunha, Katia, Ebelke, Garrett, Perez, Ana Elia Garcia, Hearty, Frederick R., Holtzman, Jon, Kinemuchi, Karen, Malanushenko, Elena, Malanushenko, Viktor, Marchante, Moses, Meszaros, Szabolcs, Muna, Demitri, Nidever, David L., Oravetz, Daniel, Pan, Kaike, Schiavon, Ricardo P., Schneider, Donald P., Shetrone, Matthew, Simmons, Audrey, Snedden, Stephanie, Smith, Verne V., and Wilson, John C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The Open Cluster Chemical Analysis and Mapping (OCCAM) Survey aims to produce a comprehensive, uniform, infrared-based dataset for hundreds of open clusters, and constrain key Galactic dynamical and chemical parameters from this sample. This first contribution from the OCCAM survey presents analysis of 141 members stars in 28 open clusters with high-resolution metallicities derived from a large uniform sample collected as part of the SDSS-III/Apache Point Observatory Galactic Evolution Experiment (APOGEE). This sample includes the first high-resolution metallicity measurements for 22 open clusters. With this largest ever uniformly observed sample of open cluster stars we investigate the Galactic disk gradients of both [M/H] and [alpha/M]. We find basically no gradient across this range in [alpha/M], but [M/H] does show a gradient for R_{GC} < 10 kpc and a significant flattening beyond R_{GC} = 10 kpc. In particular, whereas fitting a single linear trend yields an [M/H] gradient of -0.09 +/- 0.03$ dex/kpc --- similar to previously measure gradients inside 13 kpc --- by independently fitting inside and outside 10 kpc separately we find a significantly steeper gradient near the Sun (7.9 <= R_{GC} <= 10) than previously found (-0.20 +/- 0.08 dex/kpc) and a nearly flat trend beyond 10 kpc (-0.02 +/- 0.09 dex/kpc)., Comment: 6 pages, 4 figures, ApJ letters, in press

Published

2013

6. The Milky Way's circular velocity curve between 4 and 14 kpc from APOGEE data

Author

Bovy, Jo, Prieto, Carlos Allende, Beers, Timothy C., Bizyaev, Dmitry, da Costa, Luiz N., Cunha, Katia, Ebelke, Garrett L., Eisenstein, Daniel J., Frinchaboy, Peter M., Pérez, Ana Elia García, Girardi, Léo, Hearty, Fred R., Hogg, David W., Holtzman, Jon, Maia, Marcio A. G., Majewski, Steven R., Malanushenko, Elena, Malanushenko, Viktor, Mészáros, Szabolcs, Nidever, David L., O'Connell, Robert W., O'Donnell, Christine, Oravetz, Audrey, Pan, Kaike, Rocha-Pinto, Helio J., Schiavon, Ricardo P., Schneider, Donald P., Schultheis, Mathias, Skrutskie, Michael, Smith, Verne V., Weinberg, David H., Wilson, John C., and Zasowski, Gail

Subjects

Astrophysics - Galaxy Astrophysics, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We measure the Milky Way's rotation curve over the Galactocentric range 4 kpc <~ R <~ 14 kpc from the first year of data from the Apache Point Observatory Galactic Evolution Experiment (APOGEE). We model the line-of-sight velocities of 3,365 stars in fourteen fields with b = 0 deg between 30 deg < l < 210 deg out to distances of 10 kpc using an axisymmetric kinematical model that includes a correction for the asymmetric drift of the warm tracer population (\sigma_R ~ 35 km/s). We determine the local value of the circular velocity to be V_c(R_0) = 218 +/- 6 km/s and find that the rotation curve is approximately flat with a local derivative between -3.0 km/s/kpc and 0.4 km/s/kpc. We also measure the Sun's position and velocity in the Galactocentric rest frame, finding the distance to the Galactic center to be 8 kpc < R_0 < 9 kpc, radial velocity V_{R,sun} = -10 +/- 1 km/s, and rotational velocity V_{\phi,sun} = 242^{+10}_{-3} km/s, in good agreement with local measurements of the Sun's radial velocity and with the observed proper motion of Sgr A*. We investigate various systematic uncertainties and find that these are limited to offsets at the percent level, ~2 km/s in V_c. Marginalizing over all the systematics that we consider, we find that V_c(R_0) < 235 km/s at >99% confidence. We find an offset between the Sun's rotational velocity and the local circular velocity of 26 +/- 3 km/s, which is larger than the locally-measured solar motion of 12 km/s. This larger offset reconciles our value for V_c with recent claims that V_c >~ 240 km/s. Combining our results with other data, we find that the Milky Way's dark-halo mass within the virial radius is ~8x10^{11} M_sun., Comment: submitted to ApJ

Published

2012

7. The Apache Point Observatory Galactic Evolution Experiment: First Detection of High Velocity Milky Way Bar Stars

Author

Nidever, David L., Zasowski, Gail, Majewski, Steven R., Bird, Jonathan, Robin, Annie C., Martinez-Valpuesta, Inma, Beaton, Rachael L., Schoenrich, Ralph, Schultheis, Mathias, Wilson, John C., Skrutskie, Michael F., O'Connell, Robert W., Shetrone, Matthew, Schiavon, Ricardo P., Johnson, Jennifer A., Weiner, Benjamin, Gerhard, Ortwin, Schneider, Donald P., Prieto, Carlos Allende, Sellgren, Kris, Bizyaev, Dmitry, Brewington, Howard, Brinkmann, Jon, Eisenstein, Daniel J., Frinchaboy, Peter M., Perez, Ana Elia Garcia, Holtzman, Jon, Hearty, Fred R., Malanushenko, Elena, Malanushenko, Viktor, Muna, Demitri, Oravetz, Daniel, Pan, Kaike, Simmons, Audrey, Snedden, Stephanie, and Weaver, Benjamin A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Commissioning observations with the Apache Point Observatory Galactic Evolution Experiment (APOGEE), part of the Sloan Digital Sky Survey III, have produced radial velocities (RVs) for ~4700 K/M-giant stars in the Milky Way bulge. These high-resolution (R \sim 22,500), high-S/N (>100 per resolution element), near-infrared (1.51-1.70 um; NIR) spectra provide accurate RVs (epsilon_v~0.2 km/s) for the sample of stars in 18 Galactic bulge fields spanning -1-32 deg. This represents the largest NIR high-resolution spectroscopic sample of giant stars ever assembled in this region of the Galaxy. A cold (sigma_v~30 km/s), high-velocity peak (V_GSR \sim +200 km/s) is found to comprise a significant fraction (~10%) of stars in many of these fields. These high RVs have not been detected in previous MW surveys and are not expected for a simple, circularly rotating disk. Preliminary distance estimates rule out an origin from the background Sagittarius tidal stream or a new stream in the MW disk. Comparison to various Galactic models suggests that these high RVs are best explained by stars in orbits of the Galactic bar potential, although some observational features remain unexplained., Comment: 7 pages, 4 figures, accepted for publication in ApJ Letters

Published

2012

8. SDSS-III: Massive Spectroscopic Surveys of the Distant Universe, the Milky Way Galaxy, and Extra-Solar Planetary Systems

Author

Eisenstein, Daniel J., Weinberg, David H., Agol, Eric, Aihara, Hiroaki, Prieto, Carlos Allende, Anderson, Scott F., Arns, James A., Aubourg, Eric, Bailey, Stephen, Balbinot, Eduardo, Barkhouser, Robert, Beers, Timothy C., Berlind, Andreas A., Bickerton, Steven J., Bizyaev, Dmitry, Blanton, Michael R., Bochanski, John J., Bolton, Adam S., Bosman, Casey T., Bovy, Jo, Brewington, Howard J., Brandt, W. N., Breslauer, Ben, Brinkmann, J., Brown, Peter J., Brownstein, Joel R., Burger, Dan, Busca, Nicolas G., Campbell, Heather, Cargile, Phillip A., Carithers, William C., Carlberg, Joleen K., Carr, Michael A., Chen, Yanmei, Chiappini, Cristina, Comparat, Johan, Connolly, Natalia, Cortes, Marina, Croft, Rupert A. C., da Costa, Luiz N., Cunha, Katia, Davenport, James R. A., Dawson, Kyle, De Lee, Nathan, de Mello, Gustavo F. Porto, de Simoni, Fernando, Dean, Janice, Dhital, Saurav, Ealet, Anne, Ebelke, Garrett L., Edmondson, Edward M., Eiting, Jacob M., Escoffier, Stephanie, Esposito, Massimiliano, Evans, Michael L., Fan, Xiaohui, Castella, Bruno Femenia, Ferreira, Leticia Dutra, Fitzgerald, Greg, Fleming, Scott W., Font-Ribera, Andreu, Ford, Eric B., Frinchaboy, Peter M., Perez, Ana Elia Garcia, Gaudi, B. Scott, Ge, Jian, Ghezzi, Luan, Gillespie, Bruce A., Gilmore, G., Girardi, Leo, Gott, J. Richard, Gould, Andrew, Grebel, Eva K., Gunn, James E., Hamilton, Jean-Christophe, Harding, Paul, Harris, David W., Hawley, Suzanne L., Hearty, Frederick R., Hernandez, Jonay I. Gonzalez, Ho, Shirley, Hogg, David W., Holtzman, Jon A., Honscheid, Klaus, Inada, Naohisa, Ivans, Inese I., Jiang, Linhua, Jiang, Peng, Johnson, Jennifer A., Jordan, Cathy, Jordan, Wendell P., Kauffmann, Guinevere, Kazin, Eyal, Kirkby, David, Klaene, Mark A., Kneib, Jean-Paul, Knapp, G. R., Kochanek, C. S., Koesterke, Lars, Kollmeier, Juna A., Kron, Richard G., Lang, Dustin, Lawler, James E., Goff, Jean-Marc Le, Lee, Brian L., Lee, Young Sun, Leisenring, Jarron M., Lin, Yen-Ting, Liu, Jian, Long, Daniel C., Loomis, Craig P., Lucatello, Sara, Lundgren, Britt, Lupton, Robert H., Ma, Bo, Ma, Zhibo, MacDonald, Nicholas, Mack, Claude, Mahadevan, Suvrath, Maia, Marcio A. G., Malanushenko, Elena, Malanushenko, Viktor, Majewski, Steven R., Makler, Martin, Mandelbaum, Rachel, Maraston, Claudia, Margala, Daniel, Maseman, Paul, Masters, Karen L., McBride, Cameron K., McDonald, Patrick, McGreer, Ian D., McMahon, Richard G., Requejo, Olga Mena, Menard, Brice, Miralda-Escude, Jordi, Morrison, Heather L., Mullally, Fergal, Muna, Demitri, Murayama, Hitoshi, Myers, Adam D., Naugle, Tracy, Neto, Angelo Fausti, Nguyen, Duy Cuong, Nichol, Robert C., Nidever, David L., O'Connell, Robert W., Ogando, Ricardo L. C., Olmstead, Matthew D., Oravetz, Daniel J., Padmanabhan, Nikhil, Paegert, Martin, Palanque-Delabrouille, Nathalie, Pan, Kaike, Pandey, Parul, Parejko, John K., Paris, Isabelle, Pellegrini, Paulo, Pepper, Joshua, Percival, Will J., Petitjean, Patrick, Pfaffenberger, Robert, Pforr, Janine, Phleps, Stefanie, Pichon, Christophe, Pieri, Matthew M., Prada, Francisco, Price-Whelan, Adrian M., Raddick, M. Jordan, Ramos, Beatriz H. F., Ryle, Celine, Reid, I. Neill, Rich, James, Richards, Gordon T., Rieke, George H., Rieke, Marcia J., Rix, Hans-Walter, Robin, Annie C., Rocha-Pinto, Helio J., Rockosi, Constance M., Roe, Natalie A., Rollinde, Emmanuel, Ross, Ashley J., Ross, Nicholas P., Rossetto, Bruno, Sanchez, Ariel G., Santiago, Basilio, Sayres, Conor, Schiavon, Ricardo, Schlegel, David J., Schlesinger, Katharine J., Schmidt, Sarah J., Schneider, Donald P., Sellgren, Kris, Shelden, Alaina, Sheldon, Erin, Shetrone, Matthew, Shu, Yiping, Silverman, John D., Simmerer, Jennifer, Simmons, Audrey E., Sivarani, Thirupathi, Skrutskie, M. F., Slosar, Anze, Smee, Stephen, Smith, Verne V., Snedden, Stephanie A., Stassun, Keivan G., Steele, Oliver, Steinmetz, Matthias, Stockett, Mark H., Stollberg, Todd, Strauss, Michael A., Tanaka, Masayuki, Thakar, Aniruddha R., Thomas, Daniel, Tinker, Jeremy L., Tofflemire, Benjamin M., Tojeiro, Rita, Tremonti, Christy A., Magana, Mariana Vargas, Verde, Licia, Vogt, Nicole P., Wake, David A., Wan, Xiaoke, Wang, Ji, Weaver, Benjamin A., White, Martin, White, Simon D. M., Wilson, John C., Wisniewski, John P., Wood-Vasey, W. Michael, Yanny, Brian, Yasuda, Naoki, Yeche, Christophe, York, Donald G., Young, Erick, Zasowski, Gail, Zehavi, Idit, and Zhao, Bo

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Building on the legacy of the Sloan Digital Sky Survey (SDSS-I and II), SDSS-III is a program of four spectroscopic surveys on three scientific themes: dark energy and cosmological parameters, the history and structure of the Milky Way, and the population of giant planets around other stars. In keeping with SDSS tradition, SDSS-III will provide regular public releases of all its data, beginning with SDSS DR8 (which occurred in Jan 2011). This paper presents an overview of the four SDSS-III surveys. BOSS will measure redshifts of 1.5 million massive galaxies and Lya forest spectra of 150,000 quasars, using the BAO feature of large scale structure to obtain percent-level determinations of the distance scale and Hubble expansion rate at z<0.7 and at z~2.5. SEGUE-2, which is now completed, measured medium-resolution (R=1800) optical spectra of 118,000 stars in a variety of target categories, probing chemical evolution, stellar kinematics and substructure, and the mass profile of the dark matter halo from the solar neighborhood to distances of 100 kpc. APOGEE will obtain high-resolution (R~30,000), high signal-to-noise (S/N>100 per resolution element), H-band (1.51-1.70 micron) spectra of 10^5 evolved, late-type stars, measuring separate abundances for ~15 elements per star and creating the first high-precision spectroscopic survey of all Galactic stellar populations (bulge, bar, disks, halo) with a uniform set of stellar tracers and spectral diagnostics. MARVELS will monitor radial velocities of more than 8000 FGK stars with the sensitivity and cadence (10-40 m/s, ~24 visits per star) needed to detect giant planets with periods up to two years, providing an unprecedented data set for understanding the formation and dynamical evolution of giant planet systems. (Abridged), Comment: Revised to version published in The Astronomical Journal

Published

2011