Bibliographic information: Nefs SV et al. 2012. Four ultra-short period eclipsing M-dwarf binaries in the WFCAM Transit Survey. Accepted for publication in Mon. Not. R. Astron. Soc.; arXiv:1206.1200v1


Astronomers working with the United Kingdom Infrared Telescope on Hawaii have discovered four pairs of stars that orbit each other in less than 4 hours.




This artist’s impression shows the tightest of the new record breaking binary systems. Two active M4 type red dwarfs orbit each other every 2.5 hours, as they continue to spiral inwards. Eventually they will coalesce into a single star (J. Pinfield / RoPACS network)


Until now it was thought that such close-in binary stars could not exist.


About half of the stars in our Milky Way galaxy are, unlike our Sun, part of a binary system in which two stars orbit each other. Most likely, the stars in these systems were formed close together and have been in orbit around each other from birth onwards. It was always thought that if binary stars form too close to each other, they would quickly merge into one single, bigger star. This was in line with many observations taken over the last three decades showing the abundant population of stellar binaries, but none with orbital periods shorter than 5 hours.


For the first time, the team has investigated binaries of red dwarfs, stars up to ten times smaller and a thousand times less luminous than the Sun. Although they form the most common type of star in the Milky Way, red dwarfs do not show up in normal surveys because of their dimness in visible light.


“To our complete surprise, we found several red dwarf binaries with orbital periods significantly shorter than the 5 hour cut-off found for Sun-like stars, something previously thought to be impossible”, said Dr Bas Nefs of Leiden Observatory in the Netherlands, lead author of a paper accepted for publication in the journal Monthly Notices of the Royal Astronomical Society. “It means that we have to rethink how these close-in binaries form and evolve.”


Since stars shrink in size early in their lifetime, the fact that these very tight binaries exist means that their orbits must also have shrunk as well since their birth, otherwise the stars would have been in contact early on and have merged. However, it is not at all clear how these orbits could have shrunk by so much.


One possible answer to this riddle is that cool stars in binary systems are much more active and violent than previously thought.


It is possible that the magnetic field lines radiating out from the cool star companions get twisted and deformed as they spiral in towards each other, generating the extra activity through stellar wind, explosive flaring and star spots. Powerful magnetic activity could apply the brakes to these spinning stars, slowing them down so that they move closer together.


“Without UKIRT’s superb sensitivity, it wouldn’t have been possible to find these extraordinary pairs of red dwarfs,” said co-author Dr David Pinfield of the University of Hertfordshire. “The active nature of these stars and their apparently powerful magnetic fields has profound implications for the environments around red dwarfs throughout our Galaxy.”




Bibliographic information: Nefs SV et al. 2012. Four ultra-short period eclipsing M-dwarf binaries in the WFCAM Transit Survey. Accepted for publication in Mon. Not. R. Astron. Soc.; arXiv:1206.1200v1

  • Lisa Hays

    Dear Walter Cruttenden, I am a lawyer in Indiana–someone you might not expect to be interested in science. However, since 2009, many metaphysical experiences and messages have appeared to me in the form of virtual realities, visuals, voice and sound of which I have kept copious notes of each experience and message. In the middle of the night on 10/29/15, I woke up and heard in my mind, “Binary is an issue in cosmic space.” I immediately wanted more information on what the meanings of binary, issue, cosmic and space meant in this message. I had no previous understanding of what binary meant until I looked it up and discovered it is based on 1 and 0 and is utilized in computer programming. I have yet to understand this message other than binary could be describing our bipolar realm and became an issue when we fell into the experiment of evil. I stumbled upon your work when I was listening to you with Jimmy Church on Coast to Coast and felt compelled to share this message with you. Anyway, please let me know if this message has any meaning to you or is helpful to your research. The message is a bit cryptic, yet I know it has an important meaning to someone who can decrypt it. You may email me at lhays@hays-associates. com. Love & Joy, Lisa

    • Gabor G1

      Dear Lisa Hays, You wrote: “Binary is an issue in cosmic space.” and ”

      The message is a bit cryptic, yet I know it has an important meaning to someone who can decrypt it.” The meaning of this message is: our Solar system has a binary twin, a brown dwarf star, called Nibiru. Every ca. 3600 years it makes a close flyby around our Sun which can have a devastating effect on our planet, Earth: earhquakes, tsunamis, volcano eruptions etc. Not every bypass is cataclysmic appr. every third ones is, and now, this time we are heading towards a dangerous encounter. And this will be the “end time” what almost every major religion mention. If you interested, pls join some of these Facebook groups: “NIbiru countdown”, “Surviving the PoleShift” or “Nibiru Flyby – The Coming Cataclysm” Kind regards, Gábor Göblös

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  • Nelson Rivera

    Mathematically I’m not up to the task but visually I am reminded of the shipboard navigation techniques that I would employ as a QM while in the USCG: dead reckoning from fixed visuals, GPS in its infancy, LORAN, MoBoards, compass headings, sea & wind directions, CelNav, sunlines, moonlines, etc. The point being: given enough observed and recorded data, aggregated into like sets which are then all cross referenced with each another, one can usually “solve for x.” It seems that BRI has identified a number of variables (both terrestrialy and off-planetarily observed) that should, given the proper model development and computational power, be able to assemble an in-motion, 4 dimensional model of where the source gravitational influence (i.e., undiscovered binary) is tracking in real time. Particle physicist Álvaro Diez from the University of Warsaw was able to develop a Black Hole calculator capable of solving for an enormous number of moving parts and influences so I have full faith in the fact that BRI should soon be well on its way to this exponentially large problem of “simple” (kidding of course) triangulation of an object’s position. If given enough interest, desire, funding, computational and intellectual resources, this could truly prove to be the correcting of a millenia-old faux pas (and finally get those old Nautical Almanacs properly updated). I wish you all @ BRI the best of luck and look forward to the promising reports to come. Nelson R. – DBQ, IA