The rapid rate of discoveries of exoplanets has expanded the scope of the science possible for the remote detection of life beyond Earth. The Exoplanet Biosignatures Workshop Without Walls (EBWWW) held in 2016 engaged the international scientific community across diverse scientific disciplines, to assess the state of the science and technology in the search for life on exoplanets, and to identify paths for progress. The workshop activities resulted in five major review papers, which provide (1) an encyclopedic review of known and proposed biosignatures and models used to ascertain them (Schwieterman et al., 2018 in this issue); (2) an in-depth review of O2 as a biosignature, rigorously examining the nuances of false positives and false nega...
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with diverse properties, inc...
We introduce a Bayesian method for guiding future directions for detection of life on exoplanets. We...
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with diverse properties, inc...
The rapid rate of discoveries of exoplanets has expanded the scope of the science possible for the r...
The rapid rate of discoveries of exoplanets has expanded the scope of the science possible for the r...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
We introduce a Bayesian method for guiding future directions for detection of life on exoplanets. We...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
Future exoplanet observations will soon focus on the search for life beyond the Solar System. Exopla...
Exoplanet science promises a continued rapid accumulation of new observations in the near future, en...
This white paper reviews the scientific community's ability to use data from future telescopes to se...
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with diverse properties, inc...
We introduce a Bayesian method for guiding future directions for detection of life on exoplanets. We...
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with diverse properties, inc...
The rapid rate of discoveries of exoplanets has expanded the scope of the science possible for the r...
The rapid rate of discoveries of exoplanets has expanded the scope of the science possible for the r...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
We introduce a Bayesian method for guiding future directions for detection of life on exoplanets. We...
In the coming years and decades, advanced space- and ground-based observatories will allow an unprec...
Future exoplanet observations will soon focus on the search for life beyond the Solar System. Exopla...
Exoplanet science promises a continued rapid accumulation of new observations in the near future, en...
This white paper reviews the scientific community's ability to use data from future telescopes to se...
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with diverse properties, inc...
We introduce a Bayesian method for guiding future directions for detection of life on exoplanets. We...
Exoplanet hunting efforts have revealed the prevalence of exotic worlds with diverse properties, inc...
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