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词条 Geminga
释义

  1. Pulsar

  2. Discovery and identification

  3. Proper motion

  4. Timing measurements

  5. References

  6. External links

{{Starbox short
| name = Geminga
| epoch = J2000.0
| constell = Gemini
| ra = {{RA|06|33|54.15}}
| dec = {{DEC|+17|46|12.9}}
| appmag_v = 25.5
| dist_ly = 815
| dist_pc = 250
| spectral = Pulsar
| names = SN 437, PSR B0633+17, PSR J0633+1746
}}Geminga is a neutron star approximately 250 parsecs[1] (around 800 light years) from the Sun in the constellation Gemini. Its name, attributed by its discoverer Giovanni Bignami, is both a contraction of Gemini gamma-ray source, and a transcription of the words gh'è minga ({{IPA-lmo|ɡɛ ˈmĩːɡa|pron}}), meaning "it's not there" in the Milanese dialect of Lombard.[1]

Pulsar

The nature of Geminga was quite unknown for 20 years after its discovery by NASA's Second Small Astronomy Satellite (SAS-2). Finally, in March 1991 the ROSAT satellite detected a periodicity of 0.237 seconds in soft x-ray emission. Thus, it is supposed that Geminga is a sort of neutron star: the decaying core of a massive star that exploded as a supernova about 300,000 years ago.[2]

It was once thought that this nearby explosion was responsible for the low density of the interstellar medium in the immediate vicinity of the Solar System. This low-density area is known as the Local Bubble.[3] Possible evidence for this includes findings by the Arecibo Observatory that local micrometre-sized interstellar meteor particles appear to originate from its direction.[4] More recently, however, it has been suggested that multiple supernovae in subgroup B1 of the Pleiades moving group were more likely responsible,[5] becoming a remnant supershell.[6]

Discovery and identification

Geminga was the first example of an unidentified gamma-ray source, a source which could not be associated with any objects known at other wavelengths. It was first detected as a significant excess of gamma-rays over the expected background of diffuse Galactic emission, by the SAS-2 satellite (Fichtel et al. 1975) and subsequently by the COS-B satellite. The SAS-2 group

reported a pulsation in the gamma-ray signal, with period approximately 59 s, although the limited number of detected gamma-rays (121 over a period of four months) led them to conclude that the pulsation was not statistically compelling. Due to the limited angular resolution of the instrument (approximately 2.5° at 100MeV) and the small number of gamma-rays detected, the exact location of the source was uncertain, constrained only to be within a relatively large "error region". At the time of detection, four weak radio sources were known within this region, two supernova remnants bordered it and a known satellite galaxy to the Milky Way lay nearby. None of these known sources were convincing associations to the gamma-ray source, and the SAS-2 team suggested that an undiscovered radio-pulsar was the most likely progenitor.[7]

Despite the investment of a significant amount of observation time, the source remained unidentified through the COS-B era; their data did, however, rule out the claimed 59 s pulsation. Many claims were made about the source during this time, but its nature remained a mystery until the identification of a candidate source by the Einstein x-ray satellite, 1E 0630+178.[1] The characteristics of the x-ray source were unique: large x-ray to optical luminosity, no radio emission detected by the sensitive VLA instrument, point-like emission in the Einstein imager and an estimated distance of approximately 100 pc, placing it within the Galaxy. An association between the gamma-ray and x-ray sources was not conclusively made until the ROSAT x-ray imager detected a 237 ms pulsation,[8] which was also seen in gamma-rays by the EGRET instrument[9] and retrospectively in the COS-B and SAS-2 data.[10][11] Geminga thus appeared to be the first example of a radio-quiet pulsar, and served as an illustration of the difficulty of associating gamma-ray emission with objects known at other wavelengths: some characteristic of the gamma-ray source, such as periodicity or variability, must be identified in candidate counterparts at other wavelengths in order to make the connection of their identity.

Finally, this principle held true when radio emissions of matching 237 ms periodicity were found at previously unsurveyed frequencies of 100 MHz and below.[12]

Proper motion

The proper motion of Geminga is 178.2 mas/year which corresponds to a projected velocity of 205 kilometers per second.[13] This is very fast for a star, comparable to Barnard's star.

Timing measurements

Geminga underwent a minor glitch in the late part of 1996, with a fractional change in frequency of 6.2 × 10−10.[14] A 1998 study of the pre-glitch ephemeris suggested that the timings were being affected by reflex motion due to the presence of a low-mass planet in a 5.1-year orbit,[15] however this was later shown to be an artifact of noise that affects the pulse times from Geminga rather than a genuine orbital effect.[14]

References

1. ^{{cite journal |first=G. F. |last=Bignami |display-authors=etal |title=An identification for ’Geminga’ (2CG 195+04) 1E 0630+178 - A unique object in the error box of the high-energy gamma-ray source |journal=Astrophysical Journal |volume=272 |pages=L9–L13 |date=September 1983| doi = 10.1086/184107 |bibcode = 1983ApJ...272L...9B }}
2. ^Geminga, Internet Encyclopedia of Science
3. ^{{Cite journal| last1 = Gehrels | first1 = N.| last2 = Chen | first2 = W.| title = The Geminga supernova as a possible cause of the local interstellar bubble| journal = Nature| volume = 361| pages = 706| year = 1993| doi = 10.1038/361706a0|bibcode = 1993Natur.361..706G | issue=6414}}
4. ^{{cite web| url=http://www.centauri-dreams.org/?p=1741| title=The Sun's Exotic Neighborhood| publisher=Centauri Dreams| date=2008-02-28}}
5. ^{{cite journal |author1=T. W. Berghoefer |author2=D. Breitschwerdt | year = 2002 | title = The origin of the young stellar population in the solar neighborhood - a link to the formation of the Local Bubble? | journal = Astronomy and Astrophysics | volume = 390 | issue = 1 | pages = 299–306 | arxiv = astro-ph/0205128v2 | doi = 10.1051/0004-6361:20020627 |bibcode = 2002A&A...390..299B }}
6. ^{{cite web |url= http://aas.org/archives/BAAS/v29n5/aas191/abs/S051009.html |title= [51.09] Model of an Expanding Supershell Structure in the LISM |author1=J. R. Gabel |author2=F. C. Bruhweiler |date= 8 January 1998 |publisher= American Astronomical Society |accessdate= 2014-03-14 }}
7. ^{{cite journal |first=D. J. |last=Thompson |display-authors=etal |title=Final SAS-2 gamma-ray results on sources in the galactic anticenter region |journal=Astrophysical Journal |volume=213 |pages=252–262 |date=April 1977|bibcode = 1977ApJ...213..252T |doi = 10.1086/155152 }}
8. ^{{cite journal |first=J. P. |last=Halpern |first2=S. S. |last2=Holt |title=Discovery of soft X-ray pulsations from the gamma-ray source Geminga |journal=Nature |volume=357 |pages=222–224 |date=May 1992|bibcode = 1992Natur.357..222H |doi = 10.1038/357222a0 }}
9. ^{{cite journal |first=D. L. |last=Bertsch |display-authors=etal |title=Pulsed high-energy gamma-radiation from Geminga (1E0630 + 178) |journal=Nature |volume=357 |pages=306 |date=May 1992|bibcode = 1992Natur.357..306B |doi = 10.1038/357306a0 }}
10. ^{{cite journal |first=G. F. |last=Bignami |first2=P. A. |last2=Caraveo |author2-link=Patrizia A. Caraveo |title=Geminga - New Period Old Gamma-Rays |journal=Nature |volume=357 |pages=287 |date=May 1992|bibcode = 1992Natur.357..287B |doi = 10.1038/357287a0 }}
11. ^{{cite journal |first=J. R. |last=Mattox |display-authors=etal |title=SAS 2 observation of pulsed high-energy gamma radiation from Geminga |journal=Astrophysical Journal |volume=401 |pages=L23–L26 |date=December 1992|bibcode = 1992ApJ...401L..23M |doi = 10.1086/186661 }}
12. ^{{cite journal|last1 = Gil, J. A.|last2 = Khechinashvili, D. G.|last3 = Melikidze, G. I.|title = Why is the Geminga pulsar radio quiet at frequencies higher than about 100 MHz?|journal = ASP Conference Series|year = 1998|volume = 138|pages = 119 |bibcode = 1998ASPC..138..119G}}
13. ^{{Cite journal| last1 = Faherty | first1 = J.| last2 = Walter | first2 = F. M.| last3 = Anderson | first3 = J.| title = The trigonometric parallax of the neutron star Geminga| journal = Astrophysics and Space Science| volume = 308| pages = 225| year = 2007| doi = 10.1007/s10509-007-9368-0|bibcode = 2007Ap&SS.308..225F }}
14. ^{{cite journal|title=A High-Energy Study of the Geminga Pulsar|author1=Jackson, M. S. |author2=Halpern, J. P. |author3=Gotthelf, E. V. |author4=Mattox, J. R. |date=2002|journal=The Astrophysical Journal|volume=578|issue=2|pages=935–942|doi=10.1086/342662|bibcode=2002ApJ...578..935J|arxiv=astro-ph/0207001}}
15. ^{{cite journal |title=Timing the Geminga Pulsar with Gamma-Ray Observations |author=Mattox, J. R. |author2=Halpern, J. P. |author3=Caraveo, P. A. |date=1998 |journal=The Astrophysical Journal |volume=493 |issue=2 |pages=891–897 |doi=10.1086/305144 |bibcode=1998ApJ...493..891M}}
  • {{cite journal |first=C. E. |last=Fichtel |display-authors=etal |title=High-energy gamma-ray results from the second small astronomy satellite. |journal=Astrophysical Journal |volume=198 |pages=163–182 |date=May 1975|bibcode = 1975ApJ...198..163F |doi = 10.1086/153590 }}

External links

  • Spaceflight Now: 'Cannonball pulsar' seen flying across space
  • ESA: Hipparcos pinpoints an amazing gamma-ray clock
{{Stars of Gemini}}

2 : Gemini (constellation)|Pulsars

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