Spectroscopic binaries in M 67

AbstractFor almost 400 members of M67 we have accumulated about 5,000 precise radial velocities. Already we have orbital solutions for more than 32 spectroscopic binaries in M67. Many of these orbits were derived by combining the Palomar and CfA observations, thus extending the time coverage to more than 20 years. The distribution of eccentricity versus period shows evidence for tidal circularization on the main sequence. The transition from circular orbits is fairly clean. Excluding the blue stragglers, the first eccentric orbit has a period of 11.0 days, while the last circular orbit has a period of 12.4 days. For longer periods the distribution of eccentricity is the same as for field stars. The blue straggler S1284 has an eccentric orbit despite its short period of 4.2 days.

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The nature of the NGC 2546: Not one but two open clusters

Astronomy and Astrophysics ◽

10.1051/0004-6361/201936294 ◽

2020 ◽

Vol 633 ◽

pp. A146 ◽

Cited By ~ 1

Author(s):

A. D. Alejo ◽

J. F. González ◽

M. E. Veramendi

Keyword(s):

Radial Velocity ◽

Binary Stars ◽

Open Cluster ◽

Open Clusters ◽

Spectroscopic Binaries ◽

Physical Parameters ◽

Distance Modulus ◽

Cluster Membership ◽

Spectroscopic Observations ◽

Astrometric Data

Context. As part of a broader project on the role of binary stars in clusters, we present a spectroscopic study of the open cluster NGC 2546, which is a large cluster lacking previous spectroscopic analysis. Aims. We report the finding of two open clusters in the region of NGC 2546. For the two star groups, we determine radial velocity, parallax, proper motion, reddening, distance modulus, and age, using our spectroscopic observations and available photometric and astrometric data, mainly from the second Gaia data release (Gaia-DR2). We also determine the orbit of four spectroscopic binaries in these open clusters. Methods. From mid-resolution spectroscopic observations for 28 stars in the NGC 2546 region, we determined radial velocities and evaluate velocity variability. To analyze double-lined spectroscopic binaries, we used a spectral separation technique and fit the spectroscopic orbits using a least-squares code. The presence of two stellar groups is suggested by the radial velocity distribution and confirmed by available photometric and astrometric data. We applied a multi-criteria analysis to determine cluster membership, and obtained kinematic and physical parameters of the clusters. Results. NGC 2546 is actually two clusters, NGC 2546A and NGC 2546B, which are not physically related to each other. NGC 2546A has an age of about 180 Myr and a distance of 950 pc. It has a half-number radius of 8 pc and contains about 480 members brighter than G = 18 mag. NGC 2546B is a very young cluster (<10 Myr) located at a distance of 1450 pc. It is a small cluster with 80 members and a half-number radius of 1.6 pc. Stars less massive than 2.5 M⊙ in this cluster would be pre-main-sequence objects. We detected four spectroscopic binaries and determined their orbits. The two binaries of NGC 2546A contain chemically peculiar components: HD 68693 is composed of two mercury-manganese stars and HD 68624 has a Bp silicon secondary. Among the most massive objects of NGC 2546B, there are two binary stars: HD 68572, with P = 124.2 d, and CD -37 4344 with P = 10.4 d.

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The spatial distribution of spectroscopic binaries and blue stragglers in the open cluster M67

The Astronomical Journal ◽

10.1086/114269 ◽

1986 ◽

Vol 92 ◽

pp. 1364 ◽

Cited By ~ 57

Author(s):

Robert D. Mathieu ◽

David W. Latham

Keyword(s):

Spatial Distribution ◽

Open Cluster ◽

Spectroscopic Binaries ◽

Blue Stragglers

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The Spatial Distribution of Spectroscopic Binaries and Blue Stragglers in M 67

Symposium - International Astronomical Union ◽

10.1017/s0074180900043564 ◽

1988 ◽

Vol 126 ◽

pp. 675-676

Author(s):

Robert D. Mathieu ◽

David W. Latham

Keyword(s):

Spatial Distribution ◽

Radial Velocity ◽

Confidence Level ◽

Spectroscopic Binaries ◽

Velocity Variation ◽

Spatial Distributions ◽

Late Type ◽

Single Star ◽

Blue Stragglers ◽

Radial Velocity Variation

Mathieu et al. (1986) have completed an extensive radial-velocity survey of over 100 late-type stars in M 67 with V < 12.8. The spatial distributions of the spectroscopic binaries and single stars (i.e. those stars without detected radial-velocity variation; many of these are undoubtedly binaries, albeit with lower secondary masses) are shown in Fig. 1. The distribution of the binaries is notably more centrally concentrated than the single stars. The two observed distributions derive from distinct parent distributions at the 98% confidence level. The projected half-mass radius of the binaries is 0.9 pc; the half-mass radius of the single stars is 2.4 pc. Indeed, 77% of the binaries lie within the single-star half-mass radius.

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Dynamics of the Open Cluster NGC 188: A Comparison to an N-body Simulation of M67

Proceedings of the International Astronomical Union ◽

10.1017/s1743921308015421 ◽

2007 ◽

Vol 3 (S246) ◽

pp. 111-112

Author(s):

Aaron M. Geller ◽

Robert D. Mathieu ◽

Hugh C. Harris ◽

Robert D. McClure

Keyword(s):

Radial Velocity ◽

Binary Stars ◽

Main Sequence ◽

Open Cluster ◽

Spectroscopic Binaries ◽

Solar Mass ◽

Dynamical Study ◽

Data Set ◽

Spatial Coverage ◽

Orbital Periods

AbstractWe present a detailed dynamical study of the old (7 Gyr) open cluster NGC 188. Our combined radial-velocity data set spans a baseline of 35 years, a magnitude range of 12 ≤ V ≤ 16.5, and a 1° diameter region on the sky. Our magnitude limits include solar-mass main-sequence stars, subgiants, giants, and blue stragglers, and our spatial coverage extends radially to 11.5 core radii. We have measured radial velocities for 1014 stars in the direction of NGC 188 with a precision of 0.4 km s−1, and have calculated radial-velocity membership probabilities for stars with ≥ 3 measurements. We find 420 stars to be high-probability cluster members, including 137 spectroscopic binaries. These detectable binaries all have orbital periods of less than 104 days, and thus are hard. We have derived orbit solutions for 67 member binary stars, and use our 35 main-sequence binaries with orbit solutions to compare the eccentricity and period distributions with simulated observations of the Hurley et al. (2005) model of M67 (4.5 Gyr). We also compare the spatial distributions of cluster member populations.

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UOCS. IV. Discovery of diverse hot companions to blue stragglers in the old open cluster King 2

Journal of Astrophysics and Astronomy ◽

10.1007/s12036-021-09746-y ◽

2021 ◽

Vol 42 (2) ◽

Author(s):

Vikrant V. Jadhav ◽

Sindhu Pandey ◽

Annapurni Subramaniam ◽

Ram Sagar

Keyword(s):

Open Cluster ◽

Blue Stragglers

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Tidal Circularization Among the Close Binaries in M67

Symposium - International Astronomical Union ◽

10.1017/s0074180900122740 ◽

1992 ◽

Vol 151 ◽

pp. 471-472

Author(s):

David W. Latham ◽

Robert D. Mathieu ◽

Alejandra A. E. Milone ◽

Robert J. Davis

Keyword(s):

Main Sequence ◽

Open Cluster ◽

Radial Velocities ◽

Spectroscopic Binaries ◽

Close Binaries ◽

To Come ◽

Mirror Telescope

In 1971 Roger Griffin and Jim Gunn began monitoring the radial velocities of most of the members brighter than the main-sequence turnoff in the old open cluster M67, primarily using the 200-inch Hale Telescope. In 1982 the torch was passed to Dave Latham and Bob Mathieu, who began monitoring many of the same stars with the 1.5-meter Tillinghast Reflector and the Multiple-Mirror Telescope on Mt. Hopkins. We have successively combined these two sets of data, plus some additional CORAVEL velocities kindly provided by Michel Mayor, to obtain 20 years of time coverage (e.g. Mathieu et al. 1986). Among the stars brighter than magnitude V = 12.7 we have already published orbits for 22 spectroscopic binaries (Mathieu et al. 1990). At Mt. Hopkins an extension of this survey to many of the cluster members down to magnitude V = 15.5 has already yielded thirteen additional orbital solutions, with the promise of many more to come.

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Radial-velocity search and statistical studies for short-period planets in the Pleiades open cluster

Publications of the Astronomical Society of Japan ◽

10.1093/pasj/psaa105 ◽

2020 ◽

Vol 72 (6) ◽

Author(s):

Takuya Takarada ◽

Bun’ei Sato ◽

Masashi Omiya ◽

Yasunori Hori ◽

Michiko S Fujii

Keyword(s):

Radial Velocity ◽

Open Cluster ◽

Open Clusters ◽

Occurrence Rate ◽

High Dispersion ◽

Echelle Spectrograph ◽

Upper Limit ◽

Stringent Constraint ◽

Short Period ◽

Statistical Studies

Abstract We report on a radial-velocity search for short-period planets in the Pleiades open cluster. We observed 30 Pleiades member stars at the Okayama Astrophysical Observatory with the High Dispersion Echelle Spectrograph. To evaluate and mitigate the effects of stellar activity on radial-velocity (RV) measurements, we computed four activity indicators (full width at half maximum, Vspan, Wspan, and SHα). Among our sample, no short-period planet candidates were detected. Stellar intrinsic RV jitter was estimated to be 52 m s−1, 128 m s−1, and 173 m s−1 for stars with $v$ sin i of 10 km s−1, 15 km s−1, and 20 km s−1, respectively. We determined the planet occurrence rate from our survey and set the upper limit to 11.4% for planets with masses 1–13 MJUP and period 1–10 d. To set a more stringent constraint on the planet occurrence rate, we combined the result of our survey with those of other surveys targeting open clusters with ages in the range 30–300 Myr. As a result, the planet occurrence rate in young open clusters was found to be less than 7.4%, 2.9%, and 1.9% for planets with an orbital period of 3 d and masses of 1–5, 5–13, and 13–80 MJUP, respectively.

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Masses of the components of SB2 binaries observed with Gaia – V. Accurate SB2 orbits for 10 binaries and masses of the components of 5 binaries

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa1571 ◽

2020 ◽

Vol 496 (2) ◽

pp. 1355-1368

Author(s):

J-L Halbwachs ◽

F Kiefer ◽

Y Lebreton ◽

H M J Boffin ◽

F Arenou ◽

...

Keyword(s):

Radial Velocity ◽

Binary Stars ◽

Main Sequence ◽

Spectroscopic Binaries ◽

Orbital Elements ◽

Evolved Stars ◽

The Individual ◽

The Masses ◽

Stellar Masses ◽

Selection Of

ABSTRACT Double-lined spectroscopic binaries (SB2s) are one of the main sources of stellar masses, as additional observations are only needed to give the inclinations of the orbital planes in order to obtain the individual masses of the components. For this reason, we are observing a selection of SB2s using the SOPHIE spectrograph at the Haute-Provence observatory in order to precisely determine their orbital elements. Our objective is to finally obtain masses with an accuracy of the order of one per cent by combining our radial velocity (RV) measurements and the astrometric measurements that will come from the Gaia satellite. We present here the RVs and the re-determined orbits of 10 SB2s. In order to verify the masses, we will derive from Gaia, we obtained interferometric measurements of the ESO VLTI for one of these SB2s. Adding the interferometric or speckle measurements already published by us or by others for four other stars, we finally obtain the masses of the components of five binary stars, with masses ranging from 0.51 to 2.2 solar masses, including main-sequence dwarfs and some more evolved stars whose location in the HR diagram has been estimated.

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Study of Spectroscopic Binaries with the Objective Prism Method

International Astronomical Union Colloquium ◽

10.1017/s025292110000988x ◽

1983 ◽

Vol 62 ◽

pp. 104-107

Author(s):

Frank Gieseking

Keyword(s):

Radial Velocity ◽

Frequency Distribution ◽

Radial Velocities ◽

Spectroscopic Binaries ◽

Steep Decrease ◽

Visual Magnitude ◽

Objective Prism ◽

The Individual ◽

Large Telescopes

The frequency distribution of SB’s over apparent visual magnitude emerging from the catalogue of Batten et. al. (1978) shows a very steep decrease of the number of spectroscopically detected SB’s already for such bright stars of magnitude 7. Considering the number of all stars in the individual magnitude intervals, we find a kind of completeness parameter of the spectroscopic surveys: If we scale it somewhat optimistically at 100% between 0 and 3 mag, we see a 50% decrease of the completeness of our knowledge of stellar radial velocities already for stars fainter than 4.5 mag.This situation is mainly due to the fact that the measurement of radial velocities with conventional slit spectrographs is extremely laborious, requiring long exposure times at large telescopes for the exposure of only one spectrum at a time. – Therefore more efficient methods for radial velocity determinations of fainter stars are urgently needed.

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