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A Comprehensive Radial Velocity Error Budget for Next Generation Doppler SpectrometersWe describe a detailed radial velocity error budget for the NASA-NSF Extreme Precision Doppler Spectrometer instrument concept NEID (NN-explore Exoplanet Investigations with Doppler spectroscopy). Such an instrument performance budget is a necessity for both identifying the variety of noise sources currently limiting Doppler measurements, and estimating the achievable performance of next generation exoplanet hunting Doppler spectrometers. For these instruments, no single source of instrumental error is expected to set the overall measurement floor. Rather, the overall instrumental measurement precision is set by the contribution of many individual error sources. We use a combination of numerical simulations, educated estimates based on published materials, extrapolations of physical models, results from laboratory measurements of spectroscopic subsystems, and informed upper limits for a variety of error sources to identify likely sources of systematic error and construct our global instrument performance error budget. While natively focused on the performance of the NEID instrument, this modular performance budget is immediately adaptable to a number of current and future instruments. Such an approach is an important step in charting a path towards improving Doppler measurement precisions to the levels necessary for discovering Earth-like planets.
Document ID
20170006110
Acquisition Source
Goddard Space Flight Center
Document Type
Conference Paper
External Source(s)
Authors
Halverson, Samuel
(Pennsylvania State Univ. University Park, PA, United States)
Ryan, Terrien
(Pennsylvania State Univ. University Park, PA, United States)
Mahadevan, Suvrath
(Pennsylvania State Univ. University Park, PA, United States)
Roy, Arpita
(Pennsylvania State Univ. University Park, PA, United States)
Bender, Chad
(Pennsylvania State Univ. University Park, PA, United States)
Stefansson, Guomundur Kari
(Pennsylvania State Univ. University Park, PA, United States)
Monson, Andrew
(Pennsylvania State Univ. University Park, PA, United States)
Levi, Eric
(Pennsylvania State Univ. University Park, PA, United States)
Hearty, Fred
(Pennsylvania State Univ. University Park, PA, United States)
Blake, Cullen
(Pennsylvania Univ. Philadelphia, PA, United States)
McElwain, Michael
(NASA Goddard Space Flight Center Greenbelt, MD United States)
Schwab, Christian
(MacQuarie Univ. Sydney, Australia)
Ramsey, Lawrence
(Pennsylvania State Univ. University Park, PA, United States)
Wright, Jason
(Pennsylvania State Univ. University Park, PA, United States)
Wang, Sharon
(Pennsylvania State Univ. University Park, PA, United States)
Gong, Qian
(NASA Goddard Space Flight Center Greenbelt, MD United States)
Robertson, Paul
(Pennsylvania State Univ. University Park, PA, United States)
Date Acquired
July 6, 2017
Publication Date
August 19, 2016
Publication Information
Publication: SPIE Conference Proceedings: Ground-based and Airborne Instrumentation for Astronomy VI
Publisher: SPIE
Volume: 9908
Subject Category
Astrophysics
Report/Patent Number
GSFC-E-DAA-TN44032
Report Number: GSFC-E-DAA-TN44032
Distribution Limits
Public
Copyright
Other
Keywords
NASA-NSF Extreme Precision Doppler Spectrometer instrument

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