How do astronomers know if a planet is orbiting a star, or it's simply another star in the background?











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For example, if astronomers photograph a "planet", which is in close proximity to a given star, then this "planet", could actually just be another "star" in the background, many light years away.



It might just be in the photograph by chance.



How can astronomers determine if this is in fact a planet orbiting that star, or just another star many light years away?





For example, a common method to find planets orbiting stars is to via transit. ie, we can observe how the star appears to slowly change it's brightness, and it get's it back to normal again. This basically tells astronomers that this must be a planet.



But how do astronomers know that this isn't just the "first star" transitting a star "in the background"?










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    Because it repeats!
    – Rob Jeffries
    18 hours ago















up vote
3
down vote

favorite












For example, if astronomers photograph a "planet", which is in close proximity to a given star, then this "planet", could actually just be another "star" in the background, many light years away.



It might just be in the photograph by chance.



How can astronomers determine if this is in fact a planet orbiting that star, or just another star many light years away?





For example, a common method to find planets orbiting stars is to via transit. ie, we can observe how the star appears to slowly change it's brightness, and it get's it back to normal again. This basically tells astronomers that this must be a planet.



But how do astronomers know that this isn't just the "first star" transitting a star "in the background"?










share|improve this question


















  • 1




    Because it repeats!
    – Rob Jeffries
    18 hours ago













up vote
3
down vote

favorite









up vote
3
down vote

favorite











For example, if astronomers photograph a "planet", which is in close proximity to a given star, then this "planet", could actually just be another "star" in the background, many light years away.



It might just be in the photograph by chance.



How can astronomers determine if this is in fact a planet orbiting that star, or just another star many light years away?





For example, a common method to find planets orbiting stars is to via transit. ie, we can observe how the star appears to slowly change it's brightness, and it get's it back to normal again. This basically tells astronomers that this must be a planet.



But how do astronomers know that this isn't just the "first star" transitting a star "in the background"?










share|improve this question













For example, if astronomers photograph a "planet", which is in close proximity to a given star, then this "planet", could actually just be another "star" in the background, many light years away.



It might just be in the photograph by chance.



How can astronomers determine if this is in fact a planet orbiting that star, or just another star many light years away?





For example, a common method to find planets orbiting stars is to via transit. ie, we can observe how the star appears to slowly change it's brightness, and it get's it back to normal again. This basically tells astronomers that this must be a planet.



But how do astronomers know that this isn't just the "first star" transitting a star "in the background"?







star planet planetary-transits






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asked 22 hours ago









K Split X

444137




444137








  • 1




    Because it repeats!
    – Rob Jeffries
    18 hours ago














  • 1




    Because it repeats!
    – Rob Jeffries
    18 hours ago








1




1




Because it repeats!
– Rob Jeffries
18 hours ago




Because it repeats!
– Rob Jeffries
18 hours ago










2 Answers
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6
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I think there are two parts to this question: How do we know that the transiting object is a planet, and how do we know that it's gravitationally bound to the parent star, rather than an interloper?



If the object is indeed orbiting a star, we should see periodic transits. If a candidate transit is observed, follow-up observations should also be able to observe it. A lack of further confirmation would be a strike against the idea that the object is indeed bound. An additional tool that's useful here is spectroscopy. If the body is orbiting, it should cause a Doppler shift in the light from the star. This shift can be measured throughout the body's orbit. If a periodic shift is observed - with the same period as the transits - then we have another bit of evidence for an exoplanet.



Now, the light curves of transiting exoplanets can look similar to those of eclipsing binaries - binary stars where the orbital plane of the components is aligned with the line of sight of the observer. A couple key elements can help astronomers differentiate between the two:




  • An eclipsing binary should display a secondary eclipse when the less luminous component passes behind the first. This is not likely to be prominent in the case of a transiting exoplanet.

  • The mass of the orbiting object can be determined by measuring the radial velocity of the star, as determined by looking at the Doppler shift. This is an easy way to distinguish an exoplanet from a star.


In short, an occultation of a background star by an interloper would not be periodic and would not be associated with Doppler shifts in the other star's spectrum. The mass of the orbiting body - as well as the presence or absence of a significant secondary eclipse - can help us determine its nature.






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    They can measure radiation from the celestial body and determine if it is a star or not.






    share|improve this answer








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    Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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    • This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
      – MCG
      16 hours ago






    • 3




      I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
      – K Split X
      12 hours ago











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    2 Answers
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    up vote
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    I think there are two parts to this question: How do we know that the transiting object is a planet, and how do we know that it's gravitationally bound to the parent star, rather than an interloper?



    If the object is indeed orbiting a star, we should see periodic transits. If a candidate transit is observed, follow-up observations should also be able to observe it. A lack of further confirmation would be a strike against the idea that the object is indeed bound. An additional tool that's useful here is spectroscopy. If the body is orbiting, it should cause a Doppler shift in the light from the star. This shift can be measured throughout the body's orbit. If a periodic shift is observed - with the same period as the transits - then we have another bit of evidence for an exoplanet.



    Now, the light curves of transiting exoplanets can look similar to those of eclipsing binaries - binary stars where the orbital plane of the components is aligned with the line of sight of the observer. A couple key elements can help astronomers differentiate between the two:




    • An eclipsing binary should display a secondary eclipse when the less luminous component passes behind the first. This is not likely to be prominent in the case of a transiting exoplanet.

    • The mass of the orbiting object can be determined by measuring the radial velocity of the star, as determined by looking at the Doppler shift. This is an easy way to distinguish an exoplanet from a star.


    In short, an occultation of a background star by an interloper would not be periodic and would not be associated with Doppler shifts in the other star's spectrum. The mass of the orbiting body - as well as the presence or absence of a significant secondary eclipse - can help us determine its nature.






    share|improve this answer

























      up vote
      6
      down vote













      I think there are two parts to this question: How do we know that the transiting object is a planet, and how do we know that it's gravitationally bound to the parent star, rather than an interloper?



      If the object is indeed orbiting a star, we should see periodic transits. If a candidate transit is observed, follow-up observations should also be able to observe it. A lack of further confirmation would be a strike against the idea that the object is indeed bound. An additional tool that's useful here is spectroscopy. If the body is orbiting, it should cause a Doppler shift in the light from the star. This shift can be measured throughout the body's orbit. If a periodic shift is observed - with the same period as the transits - then we have another bit of evidence for an exoplanet.



      Now, the light curves of transiting exoplanets can look similar to those of eclipsing binaries - binary stars where the orbital plane of the components is aligned with the line of sight of the observer. A couple key elements can help astronomers differentiate between the two:




      • An eclipsing binary should display a secondary eclipse when the less luminous component passes behind the first. This is not likely to be prominent in the case of a transiting exoplanet.

      • The mass of the orbiting object can be determined by measuring the radial velocity of the star, as determined by looking at the Doppler shift. This is an easy way to distinguish an exoplanet from a star.


      In short, an occultation of a background star by an interloper would not be periodic and would not be associated with Doppler shifts in the other star's spectrum. The mass of the orbiting body - as well as the presence or absence of a significant secondary eclipse - can help us determine its nature.






      share|improve this answer























        up vote
        6
        down vote










        up vote
        6
        down vote









        I think there are two parts to this question: How do we know that the transiting object is a planet, and how do we know that it's gravitationally bound to the parent star, rather than an interloper?



        If the object is indeed orbiting a star, we should see periodic transits. If a candidate transit is observed, follow-up observations should also be able to observe it. A lack of further confirmation would be a strike against the idea that the object is indeed bound. An additional tool that's useful here is spectroscopy. If the body is orbiting, it should cause a Doppler shift in the light from the star. This shift can be measured throughout the body's orbit. If a periodic shift is observed - with the same period as the transits - then we have another bit of evidence for an exoplanet.



        Now, the light curves of transiting exoplanets can look similar to those of eclipsing binaries - binary stars where the orbital plane of the components is aligned with the line of sight of the observer. A couple key elements can help astronomers differentiate between the two:




        • An eclipsing binary should display a secondary eclipse when the less luminous component passes behind the first. This is not likely to be prominent in the case of a transiting exoplanet.

        • The mass of the orbiting object can be determined by measuring the radial velocity of the star, as determined by looking at the Doppler shift. This is an easy way to distinguish an exoplanet from a star.


        In short, an occultation of a background star by an interloper would not be periodic and would not be associated with Doppler shifts in the other star's spectrum. The mass of the orbiting body - as well as the presence or absence of a significant secondary eclipse - can help us determine its nature.






        share|improve this answer












        I think there are two parts to this question: How do we know that the transiting object is a planet, and how do we know that it's gravitationally bound to the parent star, rather than an interloper?



        If the object is indeed orbiting a star, we should see periodic transits. If a candidate transit is observed, follow-up observations should also be able to observe it. A lack of further confirmation would be a strike against the idea that the object is indeed bound. An additional tool that's useful here is spectroscopy. If the body is orbiting, it should cause a Doppler shift in the light from the star. This shift can be measured throughout the body's orbit. If a periodic shift is observed - with the same period as the transits - then we have another bit of evidence for an exoplanet.



        Now, the light curves of transiting exoplanets can look similar to those of eclipsing binaries - binary stars where the orbital plane of the components is aligned with the line of sight of the observer. A couple key elements can help astronomers differentiate between the two:




        • An eclipsing binary should display a secondary eclipse when the less luminous component passes behind the first. This is not likely to be prominent in the case of a transiting exoplanet.

        • The mass of the orbiting object can be determined by measuring the radial velocity of the star, as determined by looking at the Doppler shift. This is an easy way to distinguish an exoplanet from a star.


        In short, an occultation of a background star by an interloper would not be periodic and would not be associated with Doppler shifts in the other star's spectrum. The mass of the orbiting body - as well as the presence or absence of a significant secondary eclipse - can help us determine its nature.







        share|improve this answer












        share|improve this answer



        share|improve this answer










        answered 19 hours ago









        HDE 226868

        18.9k262117




        18.9k262117






















            up vote
            -1
            down vote













            They can measure radiation from the celestial body and determine if it is a star or not.






            share|improve this answer








            New contributor




            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.


















            • This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
              – MCG
              16 hours ago






            • 3




              I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
              – K Split X
              12 hours ago















            up vote
            -1
            down vote













            They can measure radiation from the celestial body and determine if it is a star or not.






            share|improve this answer








            New contributor




            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.


















            • This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
              – MCG
              16 hours ago






            • 3




              I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
              – K Split X
              12 hours ago













            up vote
            -1
            down vote










            up vote
            -1
            down vote









            They can measure radiation from the celestial body and determine if it is a star or not.






            share|improve this answer








            New contributor




            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.









            They can measure radiation from the celestial body and determine if it is a star or not.







            share|improve this answer








            New contributor




            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.









            share|improve this answer



            share|improve this answer






            New contributor




            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.









            answered 16 hours ago









            Ziyad

            1




            1




            New contributor




            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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            New contributor





            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.






            Ziyad is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
            Check out our Code of Conduct.












            • This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
              – MCG
              16 hours ago






            • 3




              I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
              – K Split X
              12 hours ago


















            • This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
              – MCG
              16 hours ago






            • 3




              I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
              – K Split X
              12 hours ago
















            This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
            – MCG
            16 hours ago




            This needs quite a bit more to be a useful answer. What kind of radiation is measured and how for example? Plus there are many more methods depending how bright the star is and how far away it is for example.
            – MCG
            16 hours ago




            3




            3




            I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
            – K Split X
            12 hours ago




            I agree, what type of radiation are we talking here? The human body emits radiation in the infrared, as an example
            – K Split X
            12 hours ago


















             

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