TY - JOUR
T1 - Oscillating red giants observed during campaign 1 of the Kepler K2 mission
T2 - New prospects for galactic archaeology
AU - Stello, Dennis
AU - Huber, Daniel
AU - Sharma, Sanjib
AU - Johnson, Jennifer
AU - Lund, Mikkel N.
AU - Handberg, Rasmus
AU - Buzasi, Derek L.
AU - Aguirre, Victor Silva
AU - Chaplin, William J.
AU - Miglio, Andrea
AU - Pinsonneault, Marc
AU - Basu, Sarbani
AU - Bedding, Tim R.
AU - Bland-Hawthorn, Joss
AU - Casagrande, Luca
AU - Davies, Guy
AU - Elsworth, Yvonne
AU - Garcia, Rafael A.
AU - Mathur, Savita
AU - Mauro, Maria Pia Di
AU - Mosser, Benoit
AU - Schneider, Donald P.
AU - Serenelli, Aldo
AU - Valentini, Marica
N1 - Publisher Copyright:
© 2015. The American Astronomical Society. All rights reserved..
PY - 2015/8/10
Y1 - 2015/8/10
N2 - NASA's re-purposed Kepler mission - dubbed K2 - has brought new scientific opportunities that were not anticipated for the original Kepler mission. One science goal that makes optimal use of K2's capabilities, in particular its 360° ecliptic field of view, is galactic archaeology - the study of the evolution of the Galaxy from the fossil stellar record. The thrust of this research is to exploit high-precision, time-resolved photometry from K2 in order to detect oscillations in red giant stars. This asteroseismic information can provide estimates of stellar radius (hence distance), mass, and age of vast numbers of stars across the Galaxy. Here we present the initial analysis of a subset of red giants, observed toward the north galactic gap, during the mission's first full science campaign. We investigate the feasibility of using K2 data for detecting oscillations in red giants that span a range in apparent magnitude and evolutionary state (hence intrinsic luminosity). We demonstrate that oscillations are detectable for essentially all cool giants within the range ∼1.9-3.2. Our detection is complete down to , which results in a seismic sample with little or no detection bias. This sample is ideally suited to stellar population studies that seek to investigate potential shortcomings of contemporary Galaxy models.
AB - NASA's re-purposed Kepler mission - dubbed K2 - has brought new scientific opportunities that were not anticipated for the original Kepler mission. One science goal that makes optimal use of K2's capabilities, in particular its 360° ecliptic field of view, is galactic archaeology - the study of the evolution of the Galaxy from the fossil stellar record. The thrust of this research is to exploit high-precision, time-resolved photometry from K2 in order to detect oscillations in red giant stars. This asteroseismic information can provide estimates of stellar radius (hence distance), mass, and age of vast numbers of stars across the Galaxy. Here we present the initial analysis of a subset of red giants, observed toward the north galactic gap, during the mission's first full science campaign. We investigate the feasibility of using K2 data for detecting oscillations in red giants that span a range in apparent magnitude and evolutionary state (hence intrinsic luminosity). We demonstrate that oscillations are detectable for essentially all cool giants within the range ∼1.9-3.2. Our detection is complete down to , which results in a seismic sample with little or no detection bias. This sample is ideally suited to stellar population studies that seek to investigate potential shortcomings of contemporary Galaxy models.
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U2 - 10.1088/2041-8205/809/1/L3
DO - 10.1088/2041-8205/809/1/L3
M3 - Article
AN - SCOPUS:84939208390
SN - 2041-8205
VL - 809
JO - Astrophysical Journal Letters
JF - Astrophysical Journal Letters
IS - 1
M1 - L3
ER -