The probability of finding an Earth analog depends mostly on the attributes that are expected to be similar, and these vary greatly. Generally it is considered that it would be a
terrestrial planet and there have been several scientific studies aimed at finding such planets. Often implied but not limited to are such criteria as planet size, surface gravity, star size and type (i.e.
Solar analog), orbital distance and stability, axial tilt and rotation, similar
geography,
oceans,
air and
weather conditions, strong
magnetosphere and even the presence of Earth-like complex
life. If there is complex life, there could be some
forests covering much of the land. If there is intelligent life, some parts of land could be covered in
cities. Some factors that are assumed of such a planet may be unlikely due to Earth's own history. For instance, the Earth's atmosphere was not always oxygen-rich and this is a
biosignature from the emergence of
photosynthetic life. The formation, presence, influence on these characteristics of the
Moon (such as
tidal forces) may also pose a problem in finding an Earth analog. The process of determining Earth analogs often involves reconciling several registers of
uncertainty quantification. As anthropologist
Vincent Ialenti's work on the
epistemology of analogical reasoning has shown, some planetary scientists are "more comfortable making the leap of faith to bridge time and space and pull together two disparate objects" than others are.
Size The list includes planets within the range of 0.8–1.9 Earth masses, below which are generally classed as
sub-Earth and above classed as
super-Earth. In addition, only planets known to fall within the range of 0.5–2.0 Earth radius (between half and twice the radius of the Earth) are included. According to the size criteria, the closest planetary mass objects by known radius or mass are: This comparison indicates that size alone is a poor measure, particularly in terms of
habitability. Temperature must also be considered as Venus and the planets of Alpha Centauri B (discovered in 2012),
Kepler-20 (discovered in 2011), COROT-7 (discovered in 2009) and the three planets of Kepler-42 (all discovered in 2011) are very hot, and
Mars,
Ganymede and
Titan are frigid worlds, resulting also in wide variety of surface and atmospheric conditions. The masses of the
Solar System's moons are a tiny fraction of that of Earth whereas the masses of
extrasolar planets are very difficult to accurately measure. However discoveries of Earth-sized
terrestrial planets are important as they may indicate the probable frequency and distribution of Earth-like planets.
Terrestrial ) bear superficial similarities to the floodplains of Earth. Another criterion often cited is that an Earth analog must be terrestrial, that is, it should possess a similar surface geology—a
planetary surface composed of similar surface materials. The closest known examples are Mars and Titan and while there are similarities in their types of landforms and surface compositions, there are also significant differences such as the temperature and quantities of ice. Many of Earth's surface materials and landforms are formed as a result of interaction with water (such as clay and
sedimentary rocks) or as a byproduct of life (such as limestone or coal), interaction with the atmosphere, volcanically or artificially. A true Earth analog therefore might need to have formed through similar processes, having possessed an atmosphere, volcanic interactions with the surface, past or present liquid water and
life forms.
Temperature There are several factors that can determine planetary temperatures and therefore several measures that can draw comparisons to that of the Earth in planets where atmospheric conditions are unknown.
Equilibrium temperature is used for planets without atmospheres. With atmosphere, a
greenhouse effect is assumed. Finally, surface temperature is used. Each of these temperatures is affected by climate, which is influenced by the orbit and rotation (or tidal locking) of the planet, each of which introduces further variables. Below is a comparison of the confirmed planets with the closest known temperatures to Earth.
Solar analog Another criterion of an ideal life-harboring earth analog is that it should orbit a
solar analog; that is, a star much like the Sun. However, this criterion may not be entirely valid as many different types of stars can provide a local environment hospitable to life. For example, in the
Milky Way, most stars are smaller and dimmer than the Sun. One such star,
TRAPPIST-1, is located 12
parsecs (39 light years) away and is roughly 10 times smaller and 2,000 times dimmer than the Sun, yet it harbors at least six Earth-like planets in its
habitable zone. While these conditions may seem unfavorable to known life,
TRAPPIST-1 is expected to continue burning for 12 trillion years (compared to the Suns remaining 5 billion year lifetime) which is time enough for life to arise by
abiogenesis. For comparison,
life evolved on Earth in a mere one billion years.
Surface water and hydrological cycle , located in the habitable zone of a Sun-like star, may be the best exoplanetary candidate for extraterrestrial surface water discovered to date, but is significantly larger than Earth and its actual composition is unknown. The concept of the habitable zone (or Liquid Water Zone) defining a region where water can exist on the surface, is based on the properties of both the Earth and Sun. Under this model, Earth orbits roughly at the centre of this zone or in the "Goldilocks" position. Earth is the only planet currently confirmed to possess large bodies of surface water. Venus is on the hot side of the zone while Mars is on the cold side. Neither are known to have persistent surface water, though evidence exists that Mars did have in its ancient past, and it is speculated that the same was the case for Venus. Thus extrasolar planets (or moons) in the Goldilocks position with substantial atmospheres may possess oceans and water clouds like those on Earth. In addition to surface water, a true Earth analog would require a mix of oceans or lakes and areas not covered by water, or
land. Some argue that a true Earth analog must not only have a similar position of its planetary system but also orbit a solar analog and have a near circular orbit such that it remains continuously habitable like Earth. ==Extrasolar Earth analog==