Among the many binary systems known in the universe, there is one of them that will give us a fascinating astronomical spectacle.
<p dir="auto"><strong>MT91 213 & PSR J2032 + 4127 <hr /> <p dir="auto"><img src="https://images.hive.blog/768x0/https://steemitimages.com/DQmWEiUQcXkmJW2UskKJXT4gxPqj8q9PZYUkNf6fbqf3UDb/Screenshot_20171228-130726.png" alt="Screenshot_20171228-130726.png" srcset="https://images.hive.blog/768x0/https://steemitimages.com/DQmWEiUQcXkmJW2UskKJXT4gxPqj8q9PZYUkNf6fbqf3UDb/Screenshot_20171228-130726.png 1x, https://images.hive.blog/1536x0/https://steemitimages.com/DQmWEiUQcXkmJW2UskKJXT4gxPqj8q9PZYUkNf6fbqf3UDb/Screenshot_20171228-130726.png 2x" /><br /> <code>1 - Recreation of the pulsar PSR J2032 + 4127 - Credits: NASA's Goddard Space Flight Center Conceptual Image Lab. <p dir="auto">On the one hand we have <strong>PSR J2032 +4127 which is a <strong>pulsar that emits ray and radio waves, until recently it was believed that it was a young and isolated neutron star. However, its rate of accelerated decline increased extraordinarily by a factor of 2, which led scientists to determine in 2015, that this pulsar is part of a <strong>binary system. <p dir="auto"><img src="https://images.hive.blog/768x0/https://steemitimages.com/DQmea7dzvnh1bNRD3aYvQ6HTkG5BfKHLpe1uezyZrwxyaZU/Screenshot_20171228-130718.png" alt="Screenshot_20171228-130718.png" srcset="https://images.hive.blog/768x0/https://steemitimages.com/DQmea7dzvnh1bNRD3aYvQ6HTkG5BfKHLpe1uezyZrwxyaZU/Screenshot_20171228-130718.png 1x, https://images.hive.blog/1536x0/https://steemitimages.com/DQmea7dzvnh1bNRD3aYvQ6HTkG5BfKHLpe1uezyZrwxyaZU/Screenshot_20171228-130718.png 2x" /><br /> <code>2 - Recreation of the binary system. - Credits: NASA's Goddard Space Flight Center Conceptual Image Lab. <p dir="auto">But to get a binary system you need two stars or in the case of pulsar (a residue of a massive star that exploded like a supernova).<br /> The <strong>massive star that pulls the pulsar is <strong>MT91 213. Classified as a <strong>Be type <strong>star, the companion has fifteen times the mass of the Sun and shines ten thousand times brighter. Be stars produce strong outputs, called stellar winds, and are embedded in large gas and dust disks. <p dir="auto"><strong>It’s expected by the beginning of 2018. Although there is no exact date, the truth is that many eyes will be monitoring the astronomical event. Although to observe it will be necessary to use very powerful telescopes, so unfortunately it will not be visible to the naked eye. <p dir="auto">One of the factors that makes it so special is that having such a long orbital period (estimated to be 25 to 50 years), we haven’t yet been able to see its transit. And with the most recent data it has been determined that it’s very close to it periastron. <hr /> <p dir="auto"><img src="https://images.hive.blog/768x0/https://steemitimages.com/DQmUqTsdVuxwTicyviy7duWfU2LBuB8zLnAe7GAjGUcbuoV/_20171228_134232.JPG" alt="_20171228_134232.JPG" srcset="https://images.hive.blog/768x0/https://steemitimages.com/DQmUqTsdVuxwTicyviy7duWfU2LBuB8zLnAe7GAjGUcbuoV/_20171228_134232.JPG 1x, https://images.hive.blog/1536x0/https://steemitimages.com/DQmUqTsdVuxwTicyviy7duWfU2LBuB8zLnAe7GAjGUcbuoV/_20171228_134232.JPG 2x" /> <p dir="auto"><code>3 - Picture taken with Palomar 48-inch Schmidt Telescope. - Credits: NASA / IPAC EXTRAGALACTIC DATABASE <blockquote> <p dir="auto">”It is expected therefore that PSR J2032+4127 shows an enhancement of high-energy emission caused by the interaction between the pulsar wind and Be wind/disk around periastron.”<br /> ”We also discuss the pulsar wind/Be disk interaction at the periastron passage, and propose the possibility of formation of an accretion disk around the pulsar.”<br /> <code>Q1 - J. Takata et. al. <hr /> <p dir="auto"><img src="https://images.hive.blog/768x0/https://steemitimages.com/DQmTY9j64qGfivPu99ZeVZd37LHkaUdPNkpnqRntuC3qJSR/Screenshot_20171228-130722.png" alt="Screenshot_20171228-130722.png" srcset="https://images.hive.blog/768x0/https://steemitimages.com/DQmTY9j64qGfivPu99ZeVZd37LHkaUdPNkpnqRntuC3qJSR/Screenshot_20171228-130722.png 1x, https://images.hive.blog/1536x0/https://steemitimages.com/DQmTY9j64qGfivPu99ZeVZd37LHkaUdPNkpnqRntuC3qJSR/Screenshot_20171228-130722.png 2x" /> <p dir="auto"><code>4 - Recreation of the binary system, periastrón. - Credits: NASA's Goddard Space Flight Center Conceptual Image Lab. <p dir="auto">So, probably in a few days we will have more data on this astronomical phenomenon that involves the close encounter between a pulsar and a massive star. And with the amount of Astronomers and Astrophysicists who are going to be measuring their increase in emissions, very soon we’ll know more about this strange couple, and we can compare it with another known pair (B1259-63 / LS2883). <h3><em>Are you ready for fireworks? <hr /> <p dir="auto"><em>References <hr /> <p dir="auto"><code>Q1 - “High-Energy emissions from the Pulsar/Be binary system PSR J2032+4127/MT91 213” J. Takata et. al.<br /><span> <a href="https://arxiv.org/abs/1702.04446" target="_blank" rel="noreferrer noopener" title="This link will take you away from hive.blog" class="external_link">https://arxiv.org/abs/1702.04446 <p dir="auto"><code>1, 2, 4<br /><span> <a href="https://svs.gsfc.nasa.gov/20225" target="_blank" rel="noreferrer noopener" title="This link will take you away from hive.blog" class="external_link">https://svs.gsfc.nasa.gov/20225 <p dir="auto"><code>3<br /><span> <a href="http://ned.ipac.caltech.edu/cgi-bin/nph-objsearch?objname=CYG%20OB2%3a%5bBDB2006%5d%20129&extend=no&out_csys=Equatorial&out_equinox=J2000.0&obj_sort=RA+or+Longitude&of=pre_text&zv_breaker=30000.0&list_limit=5&img_stamp=YES#BasicData_0" target="_blank" rel="noreferrer noopener" title="This link will take you away from hive.blog" class="external_link">http://ned.ipac.caltech.edu/cgi-bin/nph-objsearch?objname=CYG%20OB2%3a%5bBDB2006%5d%20129&extend=no&out_csys=Equatorial&out_equinox=J2000.0&obj_sort=RA+or+Longitude&of=pre_text&zv_breaker=30000.0&list_limit=5&img_stamp=YES#BasicData_0 <hr /> <p dir="auto"><img src="https://images.hive.blog/0x0/https://steemitimages.com/DQmboGhZmuYCxpmYNTbLGJqz67yNJr4aGZHhL3rpbr76fqa/DQmboGhZmuYCxpmYNTbLGJqz67yNJr4aGZHhL3rpbr76fqa.gif" alt="DQmboGhZmuYCxpmYNTbLGJqz67yNJr4aGZHhL3rpbr76fqa.gif" /> <p dir="auto"><strong>Gift-thanks<span> to <a href="/@markperandin">@markperandin <h2><em>Let's take care of the pale blue dot <h2><em>Enjoy your day. Enjoy your life. <hr /> <p dir="auto"><img src="https://images.hive.blog/0x0/https://steemitimages.com/DQmPUybzwDgpH6PmxyUTYMoDFSyNouMRmagrWwV3yMzQMp3/20171105_185607.gif" alt="20171105_185607.gif" /> <p dir="auto"><strong>Gift-thanks<span> to <a href="/@stellabelle">@stellabelle
click here! , TeamMorocco! .
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The more they look, the more they get confused because what they assumed work doesn't work everywhere.
The laws of physics have worked quite well predicting orbits, distances, etc. Now they are beginning to find some celestial bodies that shouldn't exist and other oddities, and that will bring new studies that will help us to better understand the universe.
And who knows, maybe they don't take too long to accept the Electric Universe, although at the moment it isn't a majority. This has been happening since the birth of science.
Yup. Science is only the study of understanding how things work. ;) They figure it out more and more as time goes along.
I agree that the progress seems slow but actually are published many papers.
I am a very curious person, and I love that we still know such a small percentage of our universe, if we knew everything, our life would be very boring. ;)
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