Astronomers Uncover “Super-Earth” in the Habitable Zone

A team of astronomers has recently identified a fascinating celestial body named TOI-715b, a “super-Earth” located approximately 137 light-years away. This intriguing exoplanet, larger than our Earth, orbits a red dwarf star that is cooler and smaller than our sun. The discovery was made possible through NASA’s TESS (Transiting Exoplanet Survey Satellite) mission, highlighting the satellite’s crucial role in expanding our understanding of the cosmos.

Unique Characteristics of TOI-715b

TOI-715b is estimated to be one and a half times wider than Earth, completing a full orbit around its star in just over 19 Earth days. What sets this discovery apart is its position within the habitable zone, the region around a star where conditions are conducive to the existence of liquid water on a planet’s surface. Dr. Georgina Dransfield, lead author of the study from the University of Birmingham, emphasized the importance of the conservative habitable zone, which minimizes potential errors associated with habitability calculations.

Potential for Further Exploration

Given its proximity, TOI-715b presents a unique opportunity for in-depth atmospheric investigations. The exoplanet’s frequent transits, or passages in front of its star, make it an optimal candidate for observation with the James Webb Space Telescope. This advanced telescope, operating in the infrared spectrum, could reveal crucial information about the exoplanet’s atmosphere and composition, providing valuable insights into its potential habitability.

NASA announces new ‘super-Earth’: Exoplanet orbits in ‘habitable zone,’ is only 137 light-years away

The Quest for Earth-like planets Continues

Astronomers are eagerly exploring the possibilities of finding Earth-like planets, particularly those orbiting stars similar to our sun. The most common stars in our galaxy, red dwarf stars, often host rocky planets. TOI-715b’s star, despite being a red dwarf, has shown minimal flaring activity, raising hopes for its stability. However, questions remain about potential stellar flares and radiation impacting the habitability of planets around such stars.

Future Endeavors and Anticipated Discoveries

As scientists delve into the mysteries of the universe, upcoming missions, including the European Space Agency’s PLATO, offer promise. PLATO, scheduled for launch in 2026, aims to study Earth-like planets in habitable zones around sun-like stars. The mission’s 26 cameras will provide a unique perspective, potentially uncovering planets similar to Earth. Dr. Dransfield expressed optimism about the coming decade, anticipating groundbreaking discoveries that could shed light on the prevalence of Earth-like planets throughout the cosmos.

In the ever-expanding quest for knowledge beyond our solar system, TOI-715b marks a significant milestone. With advanced technologies and upcoming missions, astronomers are poised to uncover more celestial wonders, bringing us closer to understanding the diversity of exoplanetary systems and the potential for habitable worlds beyond our own.

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🌟✨ Unveiling the Secrets of the Habitable Zone 🌟✨

In the vast expanse of the cosmos, where countless stars twinkle like diamonds in the night sky, lies a concept that has fascinated astronomers, astrobiologists, and dreamers alike: the Habitable Zone. Also known as the Goldilocks Zone, it is the region around a star where conditions are just right – not too hot, not too cold – for the existence of liquid water and, potentially, life as we know it. This celestial real estate is the key to understanding our place in the universe and the possibility of other habitable worlds beyond our own.

Defining the Habitable Zone

To begin our journey of unveiling the secrets of the Habitable Zone, we must first grasp the concept itself. The Habitable Zone is the distance from a star where the temperature is neither too scorching for water to exist as a liquid nor too freezing for it to be permanently frozen. It's like the cosmic sweet spot, where life as we understand it could thrive.

The location of this zone is not fixed and depends on the star's characteristics. For instance, stars smaller and cooler than our Sun would have a closer-in Habitable Zone, while larger and hotter stars would push the zone farther away. It's a delicate balance where the warmth of a star and the size of the habitable zone determine the potential for life to emerge.

The Significance of Liquid Water

Why is liquid water so important when we talk about habitability? Water is the universal solvent, a fundamental molecule for life on Earth. It serves as a medium for chemical reactions, a solvent for essential compounds, and a habitat for countless species. Without liquid water, the chemistry of life as we know it becomes impossible.

The presence of liquid water is not the sole requirement for habitability, but it is a critical one. It's the reason we often hear about "follow the water" in astrobiology. Understanding the conditions that allow liquid water to exist guides our search for habitable worlds.

The Role of Stellar Type

Stars come in various sizes, colors, and temperatures, and their characteristics have a profound impact on the position of the Habitable Zone. Our Sun, a G-type main-sequence star, has a relatively wide Habitable Zone extending from about 0.95 to 1.37 astronomical units (AU) from the star. Earth orbits at about 1 AU, perfectly situated within this zone.

On the other hand, cooler stars like red dwarfs have smaller and more compact Habitable Zones, which can be both a blessing and a curse. These stars are far more common in the universe than Sun-like stars, increasing the potential number of habitable planets. However, red dwarfs tend to be more active, subjecting their planets to stronger stellar flares and radiation, which could be detrimental to potential life.

Conversely, massive stars like blue giants have much wider Habitable Zones but are less common and have shorter lifespans. Planets within their Habitable Zones would need to be positioned at a considerable distance to avoid being engulfed by their expanding stars.

The Habitable Zone's Dynamism

One intriguing aspect of the Habitable Zone is its dynamism over time. It's not a static region but evolves as the star ages and its characteristics change. For instance, as a star like our Sun ages, it becomes hotter and more luminous. This means that the Habitable Zone shifts outward over time.

This dynamism raises questions about the long-term habitability of planets. A world that might have once been in the Habitable Zone could find itself too close to its aging star, turning into a lifeless desert or even being consumed by the star's expansion.

Understanding these shifts is crucial when searching for habitable exoplanets. We must consider not only a planet's current position within the Habitable Zone but also the future changes it will undergo.

Exoplanets: The Treasure Trove of Discovery

The quest for habitable worlds has been greatly accelerated by the discovery of exoplanets – planets that orbit stars beyond our solar system. Over the past few decades, astronomers have detected thousands of these distant worlds, some of which reside in their star's Habitable Zone.

Tools like the Kepler Space Telescope and the Transiting Exoplanet Survey Satellite (TESS) have been instrumental in this effort. They employ the transit method, observing slight dips in a star's brightness when a planet passes in front of it, to identify and characterize exoplanets. Through these missions, we have found a tantalizing array of diverse exoplanets, from scorching gas giants to rocky, Earth-like worlds.

One notable discovery in recent years is Proxima Centauri b, an exoplanet orbiting our closest stellar neighbor, Proxima Centauri. This planet lies within its star's Habitable Zone and has ignited hopes of finding life beyond Earth. However, the challenges of studying exoplanets in detail, such as their atmospheres and surface conditions, remain formidable.

The Search for Life Beyond Earth

The Habitable Zone not only guides our search for exoplanets but also raises the question of whether life exists elsewhere in the universe. The discovery of extremophiles on Earth – organisms that thrive in extreme conditions, such as deep-sea hydrothermal vents or acidic hot springs – suggests that life can be remarkably resilient.

This resilience leads scientists to consider that life might exist in unconventional environments, both within our solar system (like the subsurface oceans of Europa or Enceladus) and on exoplanets beyond. The Habitable Zone provides a starting point for these investigations, as it defines the regions where life, as we understand it, is most likely to emerge.

The Limits of Our Knowledge

As we unveil the secrets of the Habitable Zone, it's essential to acknowledge the limits of our knowledge. While we have made tremendous progress in identifying exoplanets and characterizing their environments, we are still in the early stages of understanding the diversity of planetary systems and the potential for habitability beyond Earth.

The search for life beyond our planet remains one of the greatest mysteries of our time, and the Habitable Zone serves as our guide. It reminds us that the universe is vast, with countless opportunities for exploration and discovery. As we continue to peer into the cosmos and study distant worlds, we may one day unlock the ultimate secret – whether we are truly alone or whether other habitable zones in the universe teem with life, waiting to be unveiled. 🌟✨

3 Unique Characteristics of the Earth

I think many people on this planet will agree with this statement: The Earth is an amazing planet. It has many characteristics that make it unique among all the other worlds of the Solar System.

After all, only here there is life (as far as we know, of course). And only here you can have fun right at home by playing a blackjack online game.

But what makes Earth so special? After all, it is not particularly large, there are no materials on it that are not available on other planets. And the process of its formation was not particularly different from that of other planets.

 In this article, we will look at some of the unique characteristics of the Earth. And their importance for the emergence and maintenance of life.

3 Unique Characteristics of the Earth

1. Liquid Water

Earth is the only planet in the Solar System located in the so–called "habitable zone".

A habitable zone is an area around a star in which a planet may have liquid water on the surface. This distance varies from star to star and depends on its size and type.

The habitable zone of the Sun is somewhere between 0.9 and 1.2 astronomical units (from 134 to 179 million kilometers). Earth is the only planet in the Solar System whose orbit is completely in this range.

Mars is right on the edge of the zone. And this is one of the reasons why some scientists believe that water oceans could have existed on the Red Planet in the past.

 Theoretically, some satellites and planets of the Solar System have liquid water. This is the case with Neptune, Uranus, Triton, Titan, Europa, and other bodies. But in these cases, liquid water may be contained in some "temperature pockets" under the surface or the mantle near the cores of these cosmic bodies.

About 71% of the Earth's surface is covered with water. The oceans contain about 96% of the entire water of our planet. The rest is distributed in the form of atmospheric steam, polar ice caps, glaciers, lakes, rivers, and soil moisture.

2. A Planet With Continents

Continents are large continuous landmasses that are located on actively moving tectonic plates, as if "floating" on the planet's mantle. As plates move and geological activity is in the form of volcanoes, everything on this planet drifts and rebuilds.

Earth is the only planet in the Solar System with continents. And it has them precisely because it is the only one of the inner (rocky) planets that have plate tectonics. Without them, the geological activity necessary to form huge land masses would simply never have happened.

The surface of other rocky planets (Mercury, Venus, and Mars) is more uniform. Even though they have mountains and other features that arose as a result of geological activity in the past. In the case of Venus, there may still be active volcanoes there today. But this is not yet known for sure.

As for the other planets (Jupiter, Saturn, Uranus, and Neptune), since they consist of gas and have no surface, they cannot have continents.

On Earth, continents are separated by oceans. And there is still debate about whether oceans of liquid water are necessary for the formation of these continents.

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#NASA #TESS #satellite just discovered 2nd #Earth sized #exoplanet in #TOi700 system Transiting Exoplanet Survey Satellite 🛰️ #spaceexploration #spacecraft #tesssatellite #toi700e #astronomy #habitablezone #space #planet https://www.instagram.com/p/CnR3TFwuNEx/?igshid=NGJjMDIxMWI=

SEGUNDO EXOPLANETA PARECIDO COM A TERRA NA ZONA HABITÁVEL DA ESTRELA TOI...

ASSINE JÁ O SPACE TODAY PLUS E TENHA ACESSO A CENTENAS DE CONTEÚDOS INÉDITOS E EM PORTUGUÊS SOBRE ASTRONOMIA E ASTRONÁUTICA POR APENAS R$29,90 POR MÊS!!! https://quero.plus OUÇA O PODCAST HORIZONTE DE EVENTOS: https://www.spreaker.com/show/horizonte-de-eventos Relatamos a descoberta do TOI-700e, um planeta de 0,95 R⊕ que reside na Zona Habitável Otimista (HZ) de sua estrela hospedeira. Esta descoberta foi possibilitada por vários anos de monitoramento da missão Transiting Exoplanet Survey Satellite (TESS) da NASA. A estrela hospedeira, TOI-700 (TIC 150428135), é uma anã M2.5 próxima (31,1 pc), inativa (Vmag = 13,15). TOI-700 já é conhecido por hospedar três planetas, incluindo o pequeno planeta HZ, TOI-700d. O novo planeta tem um período orbital de 27,8 dias e, com base em seu raio (0,95 R⊕), é provavelmente rochoso. O TOI-700 foi observado em 21 setores nos anos 1 e 3 da missão TESS, incluindo 10 setores na cadência de 20 segundos no ano 3. Usando este conjunto completo de dados da TESS e observações de acompanhamento adicionais, foi possível identificar, validar e caracterizar o TOI-700e. Esta descoberta acrescenta outro mundo à pequena lista de pequenos planetas HZ que transitam por estrelas hospedeiras próximas e brilhantes. Tais sistemas, onde as estrelas são brilhantes o suficiente para que observações de acompanhamento sejam possíveis para restringir massas e atmosferas de planetas usando instalações atuais e futuras, são incrivelmente valiosos. A presença de vários pequenos planetas HZ torna este sistema ainda mais atraente para observações de acompanhamento. FONTES: https://www.nasa.gov/feature/nasa-s-tess-discovers-planetary-system-s-second-earth-size-world https://arxiv.org/pdf/2301.03617.pdf #EXOPLANET #HABITABLEZONE #NASA

Circumstellar habitable zone

In astronomy and astrobiology, the circumstellar habitable zone (CHZ), or simply the habitable zone, is the range of orbitsaround a star within which a planetary surface can support liquid water given sufficient atmospheric pressure.

The bounds of the CHZ are based on Earth's position in the Solar System and the amount of radiant energy it receives from the Sun.

Due to the importance of liquid water to Earth's biosphere, the nature of the CHZ and the objects within it may be instrumental in determining the scope and distribution of Earth-like extraterrestrial life and intelligence.

Since the concept was first presented in 1953, many stars have been confirmed to possess a CHZ planet, including some systems that consist of multiple CHZ planets. Most such planets, being super-Earths or gas giants, are more massive than Earth, because such planets are easier to detect.

On November 4, 2013, astronomers reported, based on Kepler data, that there could be as many as 40 billion Earth-sized planets orbiting in the habitable zones of Sun-like stars and red dwarfs in the Milky Way.11 billion of these may be orbiting Sun-like stars. Proxima Centauri b, located about 4.2 light-years (1.3 parsecs) from Earth in the constellation of Centaurus, is the nearest known exoplanet, and is orbiting in the habitable zone of its star. 

The CHZ is also of particular interest to the emerging field of habitability of natural satellites, because planetary-mass moons in the CHZ might outnumber planets.

Stars that are smaller, cooler and lower mass than the Sun (M-dwarfs) have their habitable zone much closer to the star than the Sun (G-dwarf). Stars that are larger, hotter and more massive than the Sun (A-dwarfs) have their habitable zone much farther out from the star.

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Is our galaxy teeming with Earth-like planets? Perhaps no other planet besides Gliese 581g (Zarmina’s World) is at the heart of the controversy behind this question. . Gliese 581 is a red dwarf that lies about 20 light years away and thus is one of the closest star systems. . The system has been found to contain at least four planets, however, the discovery (bottom showing the Keck Telescope that was used) of Zarmina’s World (top) - a super-Earth 🌎 in the habitable zone around the star ⭐️ suggests that Earth like planets maybe more common in the Milky Way 🌌 than previously thought. . Adding fuel to the controversy is the subsequent analysis that the planet may not actually exist. . Perhaps more conclusive evidence about its existence can be determined by the next generation of space telescopes 🔭 such as the James Webb Space Telescope that is expected to be launched in 2021. . Credit: Aldaron / public domain and NASA/JPL/Caltech / public domain. . #exoplanet #exoplanets #gliese #gliese581 #reddwarf #starsystems #spacetelescope #nasa #keckobservatory #superearth #habitablezone #drakeequation https://www.instagram.com/p/B8_CoABJiRp/?igshid=1fr6emoum4qqz

What in the Universe is an Exoplanet?

Simply put, an exoplanet is a planet that orbits another star. 

All of the planets in our solar system orbit around the Sun. Planets that orbit around other stars outside our solar system are called exoplanets.

Just because a planet orbits a star (like Earth) does not mean that it is automatically stable for life. The planet must be within the habitable zone, which is the area around a star in which water has the potential to be liquid…aka not so close that all the water would evaporate, and not too far away where all the water would freeze.

Exoplanets are very hard to see directly with telescopes. They are hidden by the bright glare of the stars they orbit. So, astronomers use other ways to detect and study these distant planets by looking at the effects these planets have on the stars they orbit.

One way to search for exoplanets is to look for "wobbly" stars. A star that has planets doesn’t orbit perfectly around its center. From far away, this off-center orbit makes the star look like it’s wobbling. Hundreds of planets have been discovered using this method. However, only big planets—like Jupiter, or even larger—can be seen this way. Smaller Earth-like planets are much harder to find because they create only small wobbles that are hard to detect.

How can we find Earth-like planets in other solar systems?

In 2009, we launched a spacecraft called Kepler to look for exoplanets. Kepler looked for planets in a wide range of sizes and orbits. And these planets orbited around stars that varied in size and temperature.

Kepler detected exoplanets using something called the transit method. When a planet passes in front of its star, it’s called a transit. As the planet transits in front of the star, it blocks out a little bit of the star's light. That means a star will look a little less bright when the planet passes in front of it. Astronomers can observe how the brightness of the star changes during a transit. This can help them figure out the size of the planet.

By studying the time between transits, astronomers can also find out how far away the planet is from its star. This tells us something about the planet’s temperature. If a planet is just the right temperature, it could contain liquid water—an important ingredient for life.

So far, thousands of planets have been discovered by the Kepler mission.

We now know that exoplanets are very common in the universe. And future missions have been planned to discover many more!

Next month, we’re launching an explorer-class planet finder — the Transiting Exoplanet Survey Satellite (TESS). This mission will search the entire sky for exoplanets — planets outside our solar system that orbit sun-like stars.

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NASA Says Earth-Size, Habitable-Zone Planet Found Hidden in… A team of transatlantic scientists, using reanalysed data from NASA's Kepler space telescope, has discovered an Earth-size exoplanet orbiting in its star's habitable zone, the area around a star where a rocky planet could support liquid water.

After a week of consideration, now it’s been affirmed: who believe in there is a living planet in the space and earth is not the only one, there is a rocky, probably Earth-like planet only 4 light-years from Earth, the closest ever found.

Video Source: www.youtube.com

The German newspaper Der Spiegel quoted On Aug. 16, an unnamed source from the European Southern Observatory who said that they had found an Earth-like planet projecting the closest star to Earth, Proxima Centauri. Better yet, the planet projected in the star’s ‘habitable zone,’ an area around a star where liquid water can subsist.

The source also stated the newspaper that the observatory would affirm the discovery by the end of August this year. Well, another news is, no one at the ESO had approved or denied the discovery.

Picture Courtesy: pics-about-space.com

Proxima Centauri is a distant star that lies in the constellation Centaurus. It’s actually part of a 3-star system that also holds the Alpha Centauri A and Alpha Centauri B.

This artist’s impression explains a view of the surface of the planet Proxima b orbiting the red dwarf star Proxima Centauri, the closest star to our solar system.

Picture Courtesy: www.nasa.gov

The orbit of RR245, a new dwarfed planet orbiting beyond Neptune. New dwarfed planet found beyond orbit of Neptune

This artist’s impression gives a view of the three-star system HD 131399 from close to the large planet orbiting in the system. New exoplanet has unique triple star system

Jupiter with one of its biggest moons, Ganymede, ‘The largest and baddest planet in the solar system.

Picture Courtesy: www.nasa.gov

The research for the exoplanet was done using the ESO’s spectrograph telescope; it handles the breakdown of light, as well as other expert and amateur telescopes from around the globe as part of the Pale Red Dot campaign. Scientists were looking for a wobble in the star. A wobble would mean that a planet’s gravitational pull was acting upon the star.

Guillem Anglada-Escudé who led the campaign said ‘The first signs of a possible planet were found back in 2013, but the discovery was not convincing Since then we have worked carefully to get further observations of the ground with help from ESO and others.’

Picture Courtesy: omnichronicle.com

The investigation found that a planet with a size of about 1.3 Earths was orbiting Proxima Centauri about 7 million kilometers away, closer than Mercury orbits the sun.

Despite the planet, Proxima Centauri b, orbits much alike to its host star, it’s still in the habitable place because the star is much cooler and fainter than our own.

Astronomers predict that the planet has warmth that would allow water to exist on its covering, which provides for the possibility of life. However, scientists will have to continue to study in order to confirm.

Picture Courtesy: www.cnn.com

Have you ever questioned what it would be like to live on the moon? What about Mars or Mercury, or Venus ? We certain have and that’s why we chose to find out what it might be like to exist on other worlds in our solar system, from Mercury to Pluto and beyond.

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#SomethingKnew #Repost @nasa : New planets outside our solar system! We discovered the most Earth-sized planets found in the habitable zone of a single star, called TRAPPIST-1. This system of seven rocky worlds-all of them with the potential for water on their surface-is an exciting discovery in the search for life on other worlds. The discovery sets a new record for greatest number of habitable-zone planets found around a single star outside our solar system. All of these seven planets could have liquid water - key to life as we know it - under the right atmospheric conditions, but the chances are highest with the three in the habitable zone. This illustrations show planets of the TRAPPIST-1 system, including a travel poster and the possible surface of TRAPPIST-1f, one of the newly discovered planets. Credits: NASA/JPL-Caltech #nasa #space #exoplanet #earthlike #habitablezone #star #trappist1 #astronomy #spitzer #science #TheAgeOfAqaurius #MyLifeInImax #TrapArtists #AnlaTechCorner

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Regram @nasa AMAZING! #Repost @nasa with @repostapp ・・・ New planets outside our solar system! We discovered the most Earth-sized planets found in the habitable zone of a single star, called TRAPPIST-1. This system of seven rocky worlds-all of them with the potential for water on their surface-is an exciting discovery in the search for life on other worlds. The discovery sets a new record for greatest number of habitable-zone planets found around a single star outside our solar system. All of these seven planets could have liquid water - key to life as we know it - under the right atmospheric conditions, but the chances are highest with the three in the habitable zone. This illustrations show planets of the TRAPPIST-1 system, including a travel poster and the possible surface of TRAPPIST-1f, one of the newly discovered planets. Credits: NASA/JPL-Caltech #nasa #space #exoplanet #earthlike #habitablezone #star #trappist1 #astronomy #spitzer #science #discovery

To find another planet like Earth, astronomers are focusing on the HabitableZone around stars--where it's not too hot and not too cold for liquid water to exist on the surface. Credit: NASA [900x675]