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CM Draconis

May 03, 2024

CM Draconis (GJ 630.1A) is an eclipsing binary system approximately 47 light-years away[2] in the constellation of Draco (the Dragon). The system consists of two nearly identical red dwarf stars located in the constellation Draco. The two stars orbit each other with a period of 1.27 days with a separation of 2.7 million kilometres (0.018 AU).[4] Along with two stars in the triple system KOI 126, the stars in CM Draconis are the lightest stars with precisely measured masses and radii. Consequently, the system plays an important role in testing stellar structure models for very low mass stars.[5] These comparisons find that models underpredict the stellar radii by approximately 5%. This is attributed to consequences of the stars' strong magnetic activity.

CM Draconis

A red band light curve for CM Draconis, adapted from Kozhevnikova et al. (2009)[1]
Observation data
Epoch J2000.0      Equinox J2000.0 (ICRS)
Constellation Draco
Right ascension 16h 34m 20.321s
Declination +57° 09′ 44.70″
Apparent magnitude (V) 12.90
Characteristics
Spectral type M4.5V / M4.5V / DB
Variable type BY Draconis variable
Eclipsing binary
Flare star
Astrometry
Radial velocity (Rv)–118.71 km/s
Proper motion (μ) RA: –1109 mas/yr
Dec.: 1203 mas/yr
Parallax (π)69.2 ± 2.5 mas[2]
Distance47 ± 2 ly
(14.5 ± 0.5 pc)
Absolute magnitude (MV)12.1
Orbit[3]
Period (P)1.268389985 days
Semi-major axis (a)3.7634±0.0046 R
Eccentricity (e)0.0054
Inclination (i)89.769°
Longitude of the node (Ω)15.79°
Argument of periastron (ω)
(secondary)		107.6°
Semi-amplitude (K1)
(primary)		72.23 km/s
Semi-amplitude (K2)
(secondary)		77.95 km/s
Details[3]
A
Mass0.2310 ± 0.0009 M
Radius0.2534 ± 0.0019 R
Luminosity (bolometric)0.00552 L
Surface gravity (log g)4.994 ± 0.007 cgs
Temperature3130 ± 70 K
Age4.1 ± 0.8 Gyr
B
Mass0.2141 ± 0.0010 M
Radius0.2396 ± 0.0015 R
Luminosity (bolometric)0.00486 L
Temperature3120 ± 70 K
Age4.1 ± 0.8 Gyr
Other designations
CM Dra, GJ 630.1, LP 101-15, NLTT 43148, WDS J16345+5709A, CCDM J16343+5710A
Database references
SIMBADdata
ARICNSA
B

According to the system's entry in the Combined General Catalogue of Variable Stars, at least one of the components is a flare star and at least one is a BY Draconis variable.[6] The white dwarf star GJ 630.1B, located 25.7 arcseconds away shares the same proper motion as the CM Draconis stars and is thus a true companion star of the system.[7] Given the system's distance of 47 light years,[8] this corresponds to a separation of at least 370 astronomical units between CM Draconis and GJ 630.1B.

Possible planetary system edit

The system was the subject of a dedicated search for transiting extrasolar planets in orbit around the binary from 1994–1999. In the end, the existence of all of the transiting planet candidates suggested by the project was ruled out.[9][10]

Based on variations in the timing of the system's eclipses, it has been suggested that there may be an object in a circumbinary orbit around the two red dwarf stars. In 2000, it was proposed that a Jovian planet is orbiting the system with a period of 750–1050 days.[11] A later analysis of timing variations did not confirm this proposed planet and instead suggested that there was a Jovian planet in an 18.5-year orbit, or a more massive object further out.[7] This analysis was itself not supported by a 2009 study that found the eclipse timings were indistinguishable from linear, though the binary stars do have a small eccentricity that may indicate that they are being perturbed by an orbiting body that prevents the orbit from being fully circularised by tidal effects. A massive planet or brown dwarf on an orbit of 50–200 days would fulfil the observational criteria: the requirement for dynamical stability, the constraints from the lack of observed timing variations and the requirement that the object can maintain the eccentricity of the binary stars.[5]

References edit

  1. ^ Kozhevnikova, A. V.; Svechnikov, M. A.; Kozhevnikov, V. P. (October 2009). "V.P. Starspot and flare activity of the dwarf system CM Dra". Astrophysics. 52 (4): 512–522. Bibcode:2009Ap.....52..512K. doi:10.1007/s10511-009-9090-4. S2CID 121618264. Retrieved 3 January 2022.
  2. ^ a b Van Altena W. F.; Lee J. T.; Hoffleit E. D. (1995). "GCTP 3775.03". The General Catalogue of Trigonometric Stellar Parallaxes, Fourth Edition. Retrieved 2014-05-08.
  3. ^ a b Morales, Juan Carlos (2009). "Absolute Properties of the Low-Mass Eclipsing Binary CM Draconis". The Astrophysical Journal. 691 (2): 1400–1411. arXiv:0810.1541. Bibcode:2009ApJ...691.1400M. doi:10.1088/0004-637X/691/2/1400. S2CID 3752277.
  4. ^ "TEP: CM Draconis".
  5. ^ a b Morales, Juan Carlos; Ribas, Ignasi; Jordi, Carme; Torres, Guillermo; Gallardo, José; Guinan, Edward F.; Charbonneau, David; Wolf, Marek; Latham, David W.; Anglada-Escudé, Guillem; Bradstreet, David H.; Everett, Mark E.; O'Donovan, Francis T.; Mandushev, Georgi; Mathieu, Robert D. (2009). "Absolute Properties of the Low-Mass Eclipsing Binary CM Draconis". The Astrophysical Journal. 691 (2): 1400–1411. arXiv:0810.1541. Bibcode:2009ApJ...691.1400M. doi:10.1088/0004-637X/691/2/1400. S2CID 3752277.
  6. ^ Samus (2004). "CM Dra". Combined General Catalogue of Variable Stars.
  7. ^ a b Deeg, H. J.; Ocaña, B.; Kozhevnikov, V. P.; Charbonneau, D.; O'Donovan, F. T.; Doyle, L. R. (2008). "Extrasolar planet detection by binary stellar eclipse timing: evidence for a third body around CM Draconis". Astronomy and Astrophysics. 480 (2): 563–571. arXiv:0801.2186. Bibcode:2008A&A...480..563D. doi:10.1051/0004-6361:20079000. S2CID 10252705.
  8. ^ Gliese, W.; Jahreiß, H. (1991). "GJ 630.1A". Preliminary Version of the Third Catalogue of Nearby Stars. Retrieved 2008-10-12.
  9. ^ "The TEP network".
  10. ^ Doyle, Laurance R.; Deeg, Hans J.; Kozhevnikov, Valerij P.; Oetiker, Brian; Martín, Eduardo L.; Blue, J. Ellen; Rottler, Lee; Stone, Remington P. S.; Ninkov, Zoran; Jenkins, Jon M.; Schneider, Jean; Dunham, Edward W.; Doyle, Moira F.; Paleologou, Efthimious (2000). "Observational Limits on Terrestrial-sized Inner Planets around the CM Draconis System Using the Photometric Transit Method with a Matched-Filter Algorithm". The Astrophysical Journal. 535 (1): 338–349. arXiv:astro-ph/0001177. Bibcode:2000ApJ...535..338D. doi:10.1086/308830. S2CID 18639250.
  11. ^ Deeg, Hans J.; Doyle, Laurance R.; Kozhevnikov, Valerij P.; Blue, J. Ellen; Martín, Eduardo L.; Schneider, Jean (2000). "A search for Jovian-mass planets around CM Draconis using eclipse minima timing". Astronomy and Astrophysics. 358: L5–L8. arXiv:astro-ph/0003391. Bibcode:2000A&A...358L...5D.

External links edit

  • "CM Draconis 3". SolStation. Retrieved 2008-06-11.


May 03, 2024
draconis, eclipsing, binary, system, approximately, light, years, away, constellation, draco, dragon, system, consists, nearly, identical, dwarf, stars, located, constellation, draco, stars, orbit, each, other, with, period, days, with, separation, million, ki. CM Draconis GJ 630 1A is an eclipsing binary system approximately 47 light years away 2 in the constellation of Draco the Dragon The system consists of two nearly identical red dwarf stars located in the constellation Draco The two stars orbit each other with a period of 1 27 days with a separation of 2 7 million kilometres 0 018 AU 4 Along with two stars in the triple system KOI 126 the stars in CM Draconis are the lightest stars with precisely measured masses and radii Consequently the system plays an important role in testing stellar structure models for very low mass stars 5 These comparisons find that models underpredict the stellar radii by approximately 5 This is attributed to consequences of the stars strong magnetic activity CM DraconisA red band light curve for CM Draconis adapted from Kozhevnikova et al 2009 1 Observation dataEpoch J2000 0 Equinox J2000 0 ICRS Constellation Draco Right ascension 16h 34m 20 321s Declination 57 09 44 70 Apparent magnitude V 12 90 Characteristics Spectral type M4 5V M4 5V DB Variable type BY Draconis variableEclipsing binaryFlare star AstrometryRadial velocity Rv 118 71 km sProper motion m RA 1109 mas yr Dec 1203 mas yrParallax p 69 2 2 5 mas 2 Distance47 2 ly 14 5 0 5 pc Absolute magnitude MV 12 1 Orbit 3 Period P 1 268389985 daysSemi major axis a 3 7634 0 0046 R Eccentricity e 0 0054Inclination i 89 769 Longitude of the node W 15 79 Argument of periastron w secondary 107 6 Semi amplitude K1 primary 72 23 km sSemi amplitude K2 secondary 77 95 km s Details 3 AMass0 2310 0 0009 M Radius0 2534 0 0019 R Luminosity bolometric 0 00552 L Surface gravity log g 4 994 0 007 cgsTemperature3130 70 KAge4 1 0 8 GyrBMass0 2141 0 0010 M Radius0 2396 0 0015 R Luminosity bolometric 0 00486 L Temperature3120 70 KAge4 1 0 8 Gyr Other designationsCM Dra GJ 630 1 LP 101 15 NLTT 43148 WDS J16345 5709A CCDM J16343 5710A Database referencesSIMBADdataARICNSAB According to the system s entry in the Combined General Catalogue of Variable Stars at least one of the components is a flare star and at least one is a BY Draconis variable 6 The white dwarf star GJ 630 1B located 25 7 arcseconds away shares the same proper motion as the CM Draconis stars and is thus a true companion star of the system 7 Given the system s distance of 47 light years 8 this corresponds to a separation of at least 370 astronomical units between CM Draconis and GJ 630 1B Possible planetary system editThe system was the subject of a dedicated search for transiting extrasolar planets in orbit around the binary from 1994 1999 In the end the existence of all of the transiting planet candidates suggested by the project was ruled out 9 10 Based on variations in the timing of the system s eclipses it has been suggested that there may be an object in a circumbinary orbit around the two red dwarf stars In 2000 it was proposed that a Jovian planet is orbiting the system with a period of 750 1050 days 11 A later analysis of timing variations did not confirm this proposed planet and instead suggested that there was a Jovian planet in an 18 5 year orbit or a more massive object further out 7 This analysis was itself not supported by a 2009 study that found the eclipse timings were indistinguishable from linear though the binary stars do have a small eccentricity that may indicate that they are being perturbed by an orbiting body that prevents the orbit from being fully circularised by tidal effects A massive planet or brown dwarf on an orbit of 50 200 days would fulfil the observational criteria the requirement for dynamical stability the constraints from the lack of observed timing variations and the requirement that the object can maintain the eccentricity of the binary stars 5 References edit Kozhevnikova A V Svechnikov M A Kozhevnikov V P October 2009 V P Starspot and flare activity of the dwarf system CM Dra Astrophysics 52 4 512 522 Bibcode 2009Ap 52 512K doi 10 1007 s10511 009 9090 4 S2CID 121618264 Retrieved 3 January 2022 a b Van Altena W F Lee J T Hoffleit E D 1995 GCTP 3775 03 The General Catalogue of Trigonometric Stellar Parallaxes Fourth Edition Retrieved 2014 05 08 a b Morales Juan Carlos 2009 Absolute Properties of the Low Mass Eclipsing Binary CM Draconis The Astrophysical Journal 691 2 1400 1411 arXiv 0810 1541 Bibcode 2009ApJ 691 1400M doi 10 1088 0004 637X 691 2 1400 S2CID 3752277 TEP CM Draconis a b Morales Juan Carlos Ribas Ignasi Jordi Carme Torres Guillermo Gallardo Jose Guinan Edward F Charbonneau David Wolf Marek Latham David W Anglada Escude Guillem Bradstreet David H Everett Mark E O Donovan Francis T Mandushev Georgi Mathieu Robert D 2009 Absolute Properties of the Low Mass Eclipsing Binary CM Draconis The Astrophysical Journal 691 2 1400 1411 arXiv 0810 1541 Bibcode 2009ApJ 691 1400M doi 10 1088 0004 637X 691 2 1400 S2CID 3752277 Samus 2004 CM Dra Combined General Catalogue of Variable Stars a b Deeg H J Ocana B Kozhevnikov V P Charbonneau D O Donovan F T Doyle L R 2008 Extrasolar planet detection by binary stellar eclipse timing evidence for a third body around CM Draconis Astronomy and Astrophysics 480 2 563 571 arXiv 0801 2186 Bibcode 2008A amp A 480 563D doi 10 1051 0004 6361 20079000 S2CID 10252705 Gliese W Jahreiss H 1991 GJ 630 1A Preliminary Version of the Third Catalogue of Nearby Stars Retrieved 2008 10 12 The TEP network Doyle Laurance R Deeg Hans J Kozhevnikov Valerij P Oetiker Brian Martin Eduardo L Blue J Ellen Rottler Lee Stone Remington P S Ninkov Zoran Jenkins Jon M Schneider Jean Dunham Edward W Doyle Moira F Paleologou Efthimious 2000 Observational Limits on Terrestrial sized Inner Planets around the CM Draconis System Using the Photometric Transit Method with a Matched Filter Algorithm The Astrophysical Journal 535 1 338 349 arXiv astro ph 0001177 Bibcode 2000ApJ 535 338D doi 10 1086 308830 S2CID 18639250 Deeg Hans J Doyle Laurance R Kozhevnikov Valerij P Blue J Ellen Martin Eduardo L Schneider Jean 2000 A search for Jovian mass planets around CM Draconis using eclipse minima timing Astronomy and Astrophysics 358 L5 L8 arXiv astro ph 0003391 Bibcode 2000A amp A 358L 5D External links edit CM Draconis 3 SolStation Retrieved 2008 06 11 Retrieved from https en wikipedia org w index php title CM Draconis amp oldid 1178337505, wikipedia, wiki, book, books, library,

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