Английская Википедия:Becklin–Neugebauer Object

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The Becklin–Neugebauer Object (BN) is an object visible only in the infrared in the Orion molecular cloud 1 (OMC1). It was discovered in 1967 by Eric Becklin and Gerry Neugebauer during their near-infrared survey of the Orion Nebula.[1] A faint glow around the center-most stars can be observed in the visible light spectrum, especially with the aid of a telescope.

The BN Object is thought to be an intermediate-mass protostar. It was the first star detected using infrared methods and is deeply embedded within the Orion star-forming nebula, where it is invisible at optical wavelengths because the light is completely scattered or absorbed due to the high density of dusty material.

Near-infrared polarized light observations showed that the star BN is still surrounded by a circumstellar disk.[2]

Файл:V2254OriLightCurve.png
A near-infrared Ks band light curve for V2254 Orionis, adapted from Hillenbrand et al. (2001)[3]

Past ejection of BN

BN moves towards the northwest with respect to other stars in the Kleinmann-Low nebula. A proper motion of between 21 and 27 km/s in the northwest region and a redshift of about 11 km/s with respect to the OMC1 was measured for this star. BN is therefore considered a runaway star.[4]

It was proposed that Theta1Ori C ejected BN about 4000 years ago, but it is more likely that BN and two other runaway stars, called Source I (Src I) and Source n (Src n), were ejected from a position about 500 years ago. Source I and Source n both move in opposite directions, away from BN.[4]

With more recent VLA proper motion measurements it was realised that at least six compact sources recede from a common point: BN, source I, Orion MR (formerly source n), X, IRc23 and Zapata 11. Almost all these sources were ejected about 500 years ago.[5] The ejection of BN and source I was proposed to have occurred in the year 1475±6 (about 550 years ago).[6] IRc23 was ejected only 300 years ago.[5]

At the time of the ejection four or more protostars dynamically interacted with each other, leading to the ejection of the stars in different directions. In the classical three-body scenario, the dynamical interaction either formed a compact binary or the merger of two stars.[4] The large number of ejected stars suggest a more complex interaction, such as the interaction of a tight binary with a compact star cluster.[5]

This dynamical interaction released a large amount of energy, causing an infrared-only flare on the scale of a nova or supernova with an energy of about 1048 erg.[4]

Alternatively the explosion was not a multi-system interaction but a supernova.[7]

Explosion remnant

Шаблон:Main articles The remnant of the explosion is called Kleinmann-Low nebula.[8] Multi-wavelength observations and carbon monoxide (CO) observations with ALMA reveal the mostly spherical remnant of an explosion at the intersection point of the BN object and Source I. The ALMA observations revealed hundreds of CO streamers moving with up to 100 km/s. Some of these CO streamers nearly reach the shocked gas and dust observed in molecular hydrogen and iron [Fe II].[4]

Becklin's star

Becklin's star (IRC -10093) is located at 5h 35.3m / -5° 23', very near the Becklin-Neugebauer object.[9]

Gallery

References

Шаблон:Reflist

Шаблон:Stars of Orion

  1. Шаблон:Cite journal
  2. Шаблон:Cite journal
  3. Ошибка цитирования Неверный тег <ref>; для сносок Hillenbrand2001 не указан текст
  4. 4,0 4,1 4,2 4,3 4,4 Шаблон:Cite journal
  5. 5,0 5,1 5,2 Шаблон:Cite journal
  6. Шаблон:Cite journal
  7. Шаблон:Cite journal
  8. Шаблон:Cite web
  9. Sky Catalogue 2000.0, Volume 2: Double Stars, Variable Stars and Nonstellar Objects - Glossary of Selected Astronomical Names, page xlv