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Why does the author believe that the central mass that gas cloud HCN-0.009-0.044 orbits is smaller than our solar system?

What is it exactly about these flares of infrared light from Sgr A* that “confirms” it is a supermassive black hole?How did the authors determine both the spatial size of gas cloud HCN-0.009-0.044 and its central mass at the same time?Current limitations in radio-astronomical spectrometry analysis of local interstellar cloud's hyperfine structuresWhy do we think that there is no two-solar-mass black hole?Can we draw a min(distance) and max(mass) relation based on current observation data of nearby astronomical objects within several parcsecs?Two black holes photo interpretationExplanation for the first spinning neutron star detected in the Andromeda galaxy?Explosions of black holesWhy black holes have positive energy?How did the object CO-0.40-0.22 get its name, and how is it distinct from CO-0.40-0.22*?Can Earth be ejected out of the solar system this way?How did the authors determine both the spatial size of gas cloud HCN-0.009-0.044 and its central mass at the same time?

6

$begingroup$

Phys.org's Hiding black hole found says:

A research team led by Shunya Takekawa at the National Astronomical Observatory of Japan noticed HCN-0.009-0.044, a gas cloud moving strangely near the center of the galaxy 25,000 light-years away from Earth in the constellation Sagittarius. They used ALMA (Atacama Large Millimeter/submillimeter Array) to perform high-resolution observations of the cloud and found that it is swirling around a massive invisible object.

Takekawa says, "Detailed kinematic analyses revealed that an enormous mass, 30,000 times that of the sun, was concentrated in a region much smaller than our solar system. This and the lack of any observed object at that location strongly suggests an intermediate-mass black hole. By analyzing other anomalous clouds, we hope to expose other quiet black holes."

The paper is Indication of Another Intermediate-mass Black Hole in the Galactic Center and is open access.

The quote in the second paragraph is all over the internet. I have found that sciencedaily and iflscience both link back to the same quote on an official NAO page here.

Takekawa explains, “Detailed kinematic analyses revealed that an enormous mass, 30,000 times that of the Sun, was concentrated in a region much smaller than our Solar System.”

Questions: How do they know that the central mass is "concentrated in a region much smaller than our Solar System"?

This answer about the paper and subsequent discussions below it don't seem to shed any light on this particular question. The NAO page does not indicate the origin of the quote, I'm wondering if it is a translation of a corresponding Japanese language page on the same site that explains further.

black-hole observational-astronomy radio-astronomy

share|improve this question

asked 15 hours ago

uhohuhoh

6,13221761

$endgroup$

add a comment | 

6

$begingroup$

Phys.org's Hiding black hole found says:

A research team led by Shunya Takekawa at the National Astronomical Observatory of Japan noticed HCN-0.009-0.044, a gas cloud moving strangely near the center of the galaxy 25,000 light-years away from Earth in the constellation Sagittarius. They used ALMA (Atacama Large Millimeter/submillimeter Array) to perform high-resolution observations of the cloud and found that it is swirling around a massive invisible object.

Takekawa says, "Detailed kinematic analyses revealed that an enormous mass, 30,000 times that of the sun, was concentrated in a region much smaller than our solar system. This and the lack of any observed object at that location strongly suggests an intermediate-mass black hole. By analyzing other anomalous clouds, we hope to expose other quiet black holes."

The paper is Indication of Another Intermediate-mass Black Hole in the Galactic Center and is open access.

The quote in the second paragraph is all over the internet. I have found that sciencedaily and iflscience both link back to the same quote on an official NAO page here.

Takekawa explains, “Detailed kinematic analyses revealed that an enormous mass, 30,000 times that of the Sun, was concentrated in a region much smaller than our Solar System.”

Questions: How do they know that the central mass is "concentrated in a region much smaller than our Solar System"?

This answer about the paper and subsequent discussions below it don't seem to shed any light on this particular question. The NAO page does not indicate the origin of the quote, I'm wondering if it is a translation of a corresponding Japanese language page on the same site that explains further.

black-hole observational-astronomy radio-astronomy

share|improve this question

asked 15 hours ago

uhohuhoh

6,13221761

$endgroup$

add a comment | 

$begingroup$

Phys.org's Hiding black hole found says:

A research team led by Shunya Takekawa at the National Astronomical Observatory of Japan noticed HCN-0.009-0.044, a gas cloud moving strangely near the center of the galaxy 25,000 light-years away from Earth in the constellation Sagittarius. They used ALMA (Atacama Large Millimeter/submillimeter Array) to perform high-resolution observations of the cloud and found that it is swirling around a massive invisible object.

Takekawa says, "Detailed kinematic analyses revealed that an enormous mass, 30,000 times that of the sun, was concentrated in a region much smaller than our solar system. This and the lack of any observed object at that location strongly suggests an intermediate-mass black hole. By analyzing other anomalous clouds, we hope to expose other quiet black holes."

The paper is Indication of Another Intermediate-mass Black Hole in the Galactic Center and is open access.

The quote in the second paragraph is all over the internet. I have found that sciencedaily and iflscience both link back to the same quote on an official NAO page here.

Takekawa explains, “Detailed kinematic analyses revealed that an enormous mass, 30,000 times that of the Sun, was concentrated in a region much smaller than our Solar System.”

Questions: How do they know that the central mass is "concentrated in a region much smaller than our Solar System"?

This answer about the paper and subsequent discussions below it don't seem to shed any light on this particular question. The NAO page does not indicate the origin of the quote, I'm wondering if it is a translation of a corresponding Japanese language page on the same site that explains further.

black-hole observational-astronomy radio-astronomy

share|improve this question

asked 15 hours ago

uhohuhoh

6,13221761

$endgroup$

share|improve this question

asked 15 hours ago

uhohuhoh

6,13221761

share|improve this question

asked 15 hours ago

uhohuhoh

6,13221761

asked 15 hours ago

uhohuhoh

6,13221761

asked 15 hours ago

uhohuhoh

6,13221761

1 Answer
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11

$begingroup$

The authors were able to successfully model the motion of the gas streams as Keplerian orbits around an object of $sim30000M_{odot}$. In doing so, they derived some key quantities, such as the pericentric distances of these two gas components (the "Balloon" and the "Stream"). One has its closest approach at $sim0.21$ pc; the other has its closest approach at $sim0.07$ pc ($14000text{ AU}$). This places the pericenter well inside the Oort Cloud, and therefore inside the Solar System.

Therefore, given that it's highly unlikely that the Balloon skims the surface of the central object, we can say that the object's radius is certainly less than that of the Oort Cloud, and by extension, the Solar System. This is a key part of the argument that the object is, in fact, an intermediate mass black hole, as they note on Page 5. It's basically the same logic used to constrain the size of Sagittarius A* based on those infrared flares observed last year.

share|improve this answer

edited 12 hours ago

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125

$endgroup$

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  $begingroup$
  Ah, thanks! I was thinking circa 100 AU, but that's not the right number. I guess by the time the quote made it to popular media it should have had an explainer attached. I think that the general public still thinks that Pluto is the edge of the solar system.
  $endgroup$
  – uhoh
  12 hours ago
  
  
  

  
  
  
  

add a comment | 

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11

$begingroup$

The authors were able to successfully model the motion of the gas streams as Keplerian orbits around an object of $sim30000M_{odot}$. In doing so, they derived some key quantities, such as the pericentric distances of these two gas components (the "Balloon" and the "Stream"). One has its closest approach at $sim0.21$ pc; the other has its closest approach at $sim0.07$ pc ($14000text{ AU}$). This places the pericenter well inside the Oort Cloud, and therefore inside the Solar System.

Therefore, given that it's highly unlikely that the Balloon skims the surface of the central object, we can say that the object's radius is certainly less than that of the Oort Cloud, and by extension, the Solar System. This is a key part of the argument that the object is, in fact, an intermediate mass black hole, as they note on Page 5. It's basically the same logic used to constrain the size of Sagittarius A* based on those infrared flares observed last year.

share|improve this answer

edited 12 hours ago

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125

$endgroup$

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  $begingroup$
  Ah, thanks! I was thinking circa 100 AU, but that's not the right number. I guess by the time the quote made it to popular media it should have had an explainer attached. I think that the general public still thinks that Pluto is the edge of the solar system.
  $endgroup$
  – uhoh
  12 hours ago
  
  
  

  
  
  
  

add a comment | 

11

$begingroup$

The authors were able to successfully model the motion of the gas streams as Keplerian orbits around an object of $sim30000M_{odot}$. In doing so, they derived some key quantities, such as the pericentric distances of these two gas components (the "Balloon" and the "Stream"). One has its closest approach at $sim0.21$ pc; the other has its closest approach at $sim0.07$ pc ($14000text{ AU}$). This places the pericenter well inside the Oort Cloud, and therefore inside the Solar System.

Therefore, given that it's highly unlikely that the Balloon skims the surface of the central object, we can say that the object's radius is certainly less than that of the Oort Cloud, and by extension, the Solar System. This is a key part of the argument that the object is, in fact, an intermediate mass black hole, as they note on Page 5. It's basically the same logic used to constrain the size of Sagittarius A* based on those infrared flares observed last year.

share|improve this answer

edited 12 hours ago

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125

$endgroup$

• 
  
  
  

  
  1
  

  
  
  
  
  
  

  
  $begingroup$
  Ah, thanks! I was thinking circa 100 AU, but that's not the right number. I guess by the time the quote made it to popular media it should have had an explainer attached. I think that the general public still thinks that Pluto is the edge of the solar system.
  $endgroup$
  – uhoh
  12 hours ago
  
  
  

  
  
  
  

add a comment | 

$begingroup$

The authors were able to successfully model the motion of the gas streams as Keplerian orbits around an object of $sim30000M_{odot}$. In doing so, they derived some key quantities, such as the pericentric distances of these two gas components (the "Balloon" and the "Stream"). One has its closest approach at $sim0.21$ pc; the other has its closest approach at $sim0.07$ pc ($14000text{ AU}$). This places the pericenter well inside the Oort Cloud, and therefore inside the Solar System.

Therefore, given that it's highly unlikely that the Balloon skims the surface of the central object, we can say that the object's radius is certainly less than that of the Oort Cloud, and by extension, the Solar System. This is a key part of the argument that the object is, in fact, an intermediate mass black hole, as they note on Page 5. It's basically the same logic used to constrain the size of Sagittarius A* based on those infrared flares observed last year.

share|improve this answer

edited 12 hours ago

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125

$endgroup$

share|improve this answer

edited 12 hours ago

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125

answered 13 hours ago

HDE 226868♦HDE 226868

20k265125