With the loss of two reaction wheels, the period of Kepler's ultra-high
precision photometric performance is at an end. Yet Kepler retains unique
capabilities impossible to replicate from the ground or with existing or future
space missions. This White Paper calls for the use of Kepler to conduct a
survey in the ecliptic plane to search for planet transits around stars at high
galactic latitudes and to study star forming regions to investigate physics of
very young stars not studied by Kepler in its prime mission. Even with reduced
photometric precision, Kepler's 1 m aperture will enable it to survey faint M
stars to find ice giants and Super Earths in Habitable Zone orbits.
Description
[1309.0918] New Uses for the Kepler Telescope: A Survey of the Ecliptic Plane For Transiting Planets and Star Formation
%0 Generic
%1 beichman2013kepler
%A Beichman, Charles
%A Ciardi, David
%A Akeson, Rachel
%A Plavchan, Peter
%A Howell, Steve
%A Christiansen, Jesse
%A Kane, Stephen
%A Cody, Ann Marie
%A Stauffer, John
%A Vasisht, Gautam
%A Covey, Kevin
%D 2013
%K 2013 kepler proposal
%T New Uses for the Kepler Telescope: A Survey of the Ecliptic Plane For
Transiting Planets and Star Formation
%U http://arxiv.org/abs/1309.0918
%X With the loss of two reaction wheels, the period of Kepler's ultra-high
precision photometric performance is at an end. Yet Kepler retains unique
capabilities impossible to replicate from the ground or with existing or future
space missions. This White Paper calls for the use of Kepler to conduct a
survey in the ecliptic plane to search for planet transits around stars at high
galactic latitudes and to study star forming regions to investigate physics of
very young stars not studied by Kepler in its prime mission. Even with reduced
photometric precision, Kepler's 1 m aperture will enable it to survey faint M
stars to find ice giants and Super Earths in Habitable Zone orbits.
@misc{beichman2013kepler,
abstract = {With the loss of two reaction wheels, the period of Kepler's ultra-high
precision photometric performance is at an end. Yet Kepler retains unique
capabilities impossible to replicate from the ground or with existing or future
space missions. This White Paper calls for the use of Kepler to conduct a
survey in the ecliptic plane to search for planet transits around stars at high
galactic latitudes and to study star forming regions to investigate physics of
very young stars not studied by Kepler in its prime mission. Even with reduced
photometric precision, Kepler's 1 m aperture will enable it to survey faint M
stars to find ice giants and Super Earths in Habitable Zone orbits.},
added-at = {2013-09-06T09:59:07.000+0200},
author = {Beichman, Charles and Ciardi, David and Akeson, Rachel and Plavchan, Peter and Howell, Steve and Christiansen, Jesse and Kane, Stephen and Cody, Ann Marie and Stauffer, John and Vasisht, Gautam and Covey, Kevin},
biburl = {https://www.bibsonomy.org/bibtex/2d45494f0c4e2a6225486b0b79deca306/danielcarrera},
description = {[1309.0918] New Uses for the Kepler Telescope: A Survey of the Ecliptic Plane For Transiting Planets and Star Formation},
interhash = {d2dc9359e088d832fe5b2f4d8d784935},
intrahash = {d45494f0c4e2a6225486b0b79deca306},
keywords = {2013 kepler proposal},
note = {cite arxiv:1309.0918},
timestamp = {2013-09-06T09:59:07.000+0200},
title = {New Uses for the Kepler Telescope: A Survey of the Ecliptic Plane For
Transiting Planets and Star Formation},
url = {http://arxiv.org/abs/1309.0918},
year = 2013
}