“SS Cygni”的意思、由来-开放百科全书

SS Cygni is a variable star in the northern constellation Cygnus (the Swan). It is the prototype of the subclass of dwarf novae that show only normal eruptions. It typically rises from 12th magnitude to 8th magnitude for 1–2 days every 7 or 8 weeks. The northerly declination of SS Cygni (about 44° N) makes the star almost circumpolar from European and North American latitudes, allowing a large proportion of the world's amateur astronomers to monitor its behavior. Furthermore, since the star lies against the rich backdrop of the Milky Way band, the telescope field of view around SS Cygni contains an abundance of useful brightness comparison stars.

SS Cygni, like all other cataclysmic variables, consists of a close binary system. One of the components is a red dwarf-type star, cooler than the Sun, while the other is a white dwarf. Studies suggest that the stars in the SS Cygni system are separated (from surface to surface) by "only" 100,000 miles or less. The two stars are so close that they complete their orbital revolution in slightly over 6 1/2 hours. The inclination of the system has been calculated to be about 50 degrees, yielding masses of 0.6 solar mass ({{Solar mass|link=yes}}) for the white dwarf primary star and 0.4 {{Solar mass}} for the red dwarf secondary star.^[1]

Astronomically speaking, SS Cygni is also fairly close by. Originally thought to be at 90 to 100 light years,^[2] its distance was revised in 1952 to about 400 light years. In 2007 Hubble Space Telescope data indicated a distance of about 540 light years, though this value caused difficulties with the theory of dwarf novae;^[3] this was checked during 2010—2012 using radio astrometry with VLBI, which yielded a smaller distance of {{convert|114 ± 2|parsec|ly}}.^[10] This value is much more in accord with the old (≈400 light-year) value, and it removes completely the difficulties the larger HST distance made for the theory of dwarf novae.

References

1. ^{{cite journal | author=Honey, W.B.| display-authors=etal | title=Quiescent and Outburst Photometry of the Dwarf Nova SS Cygni | journal=Monthly Notices of the Royal Astronomical Society | volume=236 | issue=4 |date=1989 |pages=727–734 | bibcode=1989MNRAS.236..727H | doi=10.1093/mnras/236.4.727}}
2. ^{{cite book | last=Burnham |first=Robert Jr. |title=Burnham's Celestial Handbook | publisher=Dover |location=New York |date=1978}}
3. ^{{cite journal|author= M. R. Schreiber|author2= J.P. Lasota |title=The dwarf nova SS Cygni: what is wrong?|journal=Astronomy & Astrophysics|volume=473|issue=3|pages=897–901|bibcode= 2007A&A...473..897S|doi=10.1051/0004-6361:20078146|date=2007|arxiv = 0706.3888 }}
4. ^¹²³⁴⁵{{cite DR2|1972957892448494592}}
5. ^¹{{cite journal|doi=10.1046/j.1365-8711.2002.05795.x|bibcode=2002MNRAS.337.1215N|arxiv=astro-ph/0201538|title=The systemic velocities of four long-period cataclysmic variable stars|journal=Monthly Notices of the Royal Astronomical Society|volume=337|issue=4|pages=1215–1223|year=2002|last1=North|first1=R. C|last2=Marsh|first2=T. R|last3=Kolb|first3=U|last4=Dhillon|first4=V. S|last5=Moran|first5=C. K. J}}
6. ^¹²{{cite journal|display-authors=4|author=J. C. A. Miller-Jones|author2=G. R. Sivakoff|author3=C. Knigge|author4=E. G. Körding|author5=M. Templeton|author6=E. O. Waagen|title=An Accurate Geometric Distance to the Compact Binary SS Cygni Vindicates Accretion Disc Theory|journal=Science|volume=340|issue=6135|pages=950–952|doi=10.1126/science.1237145 |date=24 May 2013 |arxiv = 1305.5846 |bibcode = 2013Sci...340..950M|pmid=23704566}}
7. ^¹²³⁴⁵{{cite journal|doi=10.1086/517496|bibcode=2007ApJ...662..564B|arxiv=astro-ph/0703087|title=The Masses and Evolutionary State of the Stars in the Dwarf Nova SS Cygni|journal=The Astrophysical Journal|volume=662|issue=1|pages=564–573|year=2007|last1=Bitner|first1=Martin A|last2=Robinson|first2=Edward L|last3=Behr|first3=Bradford B}}

词条	SS Cygni
释义	References External links {{Starbox begin}}{{Starbox observe \| epoch = 2000 \| constell = Cygnus \| ra = {{RA\|21\|42\|42.8034}}^[1] \| dec = {{DEC\|+43\|35\|09.864}}^[1] \| appmag_v = 7.7 - 12.4 }}{{Starbox character \| class = K5V^[4] \| variable = Dwarf nova }}{{Starbox astrometry \| radial_v = −16.1^[6] \| prop_mo_ra = {{val\|112.373\|0.113}}^[1] \| prop_mo_dec = {{val\|33.589\|0.094}}^[1] \| parallax = 8.7242 \| p_error = 0.0491 \| parallax_footnote = ^[1] \| dist_ly= {{val\|372\|7}} \| dist_pc= {{val\|114\|2}}^[10] \| absmag_v = }}{{Starbox orbit \| reference = ^[6] \| period_unitless = 0.27512973 days \| k1 = {{val\|162.5\|1.0}} \| k2 = \| inclination = 45 - 56 \| eccentricity = }}{{Starbox detail \| component1 = Red dwarf \| temperature = 4,560^[6] \| mass = {{val\|0.55\|0.13}}^[6] \| component2 = White dwarf \| mass2 = {{val\|0.81\|0.2}}^[6] }}{{Starbox catalogue \| names= SS Cyg, HD 206697, BD+42 4189a, TYC 3196-723-1 }}{{Starbox reference \| Simbad = SS+Cygni }}{{Starbox end}} SS Cygni is a variable star in the northern constellation Cygnus (the Swan). It is the prototype of the subclass of dwarf novae that show only normal eruptions. It typically rises from 12th magnitude to 8th magnitude for 1–2 days every 7 or 8 weeks. The northerly declination of SS Cygni (about 44° N) makes the star almost circumpolar from European and North American latitudes, allowing a large proportion of the world's amateur astronomers to monitor its behavior. Furthermore, since the star lies against the rich backdrop of the Milky Way band, the telescope field of view around SS Cygni contains an abundance of useful brightness comparison stars. SS Cygni, like all other cataclysmic variables, consists of a close binary system. One of the components is a red dwarf-type star, cooler than the Sun, while the other is a white dwarf. Studies suggest that the stars in the SS Cygni system are separated (from surface to surface) by "only" 100,000 miles or less. The two stars are so close that they complete their orbital revolution in slightly over 6 1/2 hours. The inclination of the system has been calculated to be about 50 degrees, yielding masses of 0.6 solar mass ({{Solar mass\|link=yes}}) for the white dwarf primary star and 0.4 {{Solar mass}} for the red dwarf secondary star.^[1] Astronomically speaking, SS Cygni is also fairly close by. Originally thought to be at 90 to 100 light years,^[2] its distance was revised in 1952 to about 400 light years. In 2007 Hubble Space Telescope data indicated a distance of about 540 light years, though this value caused difficulties with the theory of dwarf novae;^[3] this was checked during 2010—2012 using radio astrometry with VLBI, which yielded a smaller distance of {{convert\|114 ± 2\|parsec\|ly}}.^[10] This value is much more in accord with the old (≈400 light-year) value, and it removes completely the difficulties the larger HST distance made for the theory of dwarf novae. References 1. ^{{cite journal \| author=Honey, W.B.\| display-authors=etal \| title=Quiescent and Outburst Photometry of the Dwarf Nova SS Cygni \| journal=Monthly Notices of the Royal Astronomical Society \| volume=236 \| issue=4 \|date=1989 \|pages=727–734 \| bibcode=1989MNRAS.236..727H \| doi=10.1093/mnras/236.4.727}} 2. ^{{cite book \| last=Burnham \|first=Robert Jr. \|title=Burnham's Celestial Handbook \| publisher=Dover \|location=New York \|date=1978}} 3. ^{{cite journal\|author= M. R. Schreiber\|author2= J.P. Lasota \|title=The dwarf nova SS Cygni: what is wrong?\|journal=Astronomy & Astrophysics\|volume=473\|issue=3\|pages=897–901\|bibcode= 2007A&A...473..897S\|doi=10.1051/0004-6361:20078146\|date=2007\|arxiv = 0706.3888 }} 4. ^¹²³⁴⁵{{cite DR2\|1972957892448494592}} 5. ^¹{{cite journal\|doi=10.1046/j.1365-8711.2002.05795.x\|bibcode=2002MNRAS.337.1215N\|arxiv=astro-ph/0201538\|title=The systemic velocities of four long-period cataclysmic variable stars\|journal=Monthly Notices of the Royal Astronomical Society\|volume=337\|issue=4\|pages=1215–1223\|year=2002\|last1=North\|first1=R. C\|last2=Marsh\|first2=T. R\|last3=Kolb\|first3=U\|last4=Dhillon\|first4=V. S\|last5=Moran\|first5=C. K. J}} 6. ^¹²{{cite journal\|display-authors=4\|author=J. C. A. Miller-Jones\|author2=G. R. Sivakoff\|author3=C. Knigge\|author4=E. G. Körding\|author5=M. Templeton\|author6=E. O. Waagen\|title=An Accurate Geometric Distance to the Compact Binary SS Cygni Vindicates Accretion Disc Theory\|journal=Science\|volume=340\|issue=6135\|pages=950–952\|doi=10.1126/science.1237145 \|date=24 May 2013 \|arxiv = 1305.5846 \|bibcode = 2013Sci...340..950M\|pmid=23704566}} 7. ^¹²³⁴⁵{{cite journal\|doi=10.1086/517496\|bibcode=2007ApJ...662..564B\|arxiv=astro-ph/0703087\|title=The Masses and Evolutionary State of the Stars in the Dwarf Nova SS Cygni\|journal=The Astrophysical Journal\|volume=662\|issue=1\|pages=564–573\|year=2007\|last1=Bitner\|first1=Martin A\|last2=Robinson\|first2=Edward L\|last3=Behr\|first3=Bradford B}} ^[4]^[5]^[6]^[7] }} External links AAVSO Variable Star of the Month. SS Cygni: June 2000 {{Stars of Cygnus}} 6 : Cygnus (constellation)\|Dwarf novae\|Henry Draper Catalogue objects\|Objects with variable star designations\|K-type main-sequence stars\|Durchmusterung objects
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References

External links