DOCSLIB.ORG

THE OPEN CLUSTER NGC 457 Ross Allen Shuart a Departmental Thesis Submitted to the Faculty of Thu DEPARTMENT of ASTRONOMY MASTER

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
THE OPEN CLUSTER NGC 457 Ross Allen Shuart a Departmental Thesis Submitted to the Faculty of Thu DEPARTMENT of ASTRONOMY MASTER The Open Cluster NGC 457 Item Type text; Thesis-Reproduction (electronic) Authors Shuart, Ross Allen Publisher The University of Arizona. Rights Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. Download date 04/10/2021 00:46:31 Link to Item http://hdl.handle.net/10150/621903 THE OPEN CLUSTER NGC 457 by Ross Allen Shuart A Departmental Thesis Submitted to the Faculty of thu DEPARTMENT OF ASTRONOMY In Partial Fulfillment of the Requirements For the Degree of MASTER OF SCIENCE In the Graduate College THE UNIVERSITY OF ARIZONA 1 9 7 3 ACKNOWLEDGMENTS The author wishes to thank the following people who aided him in the preparation of this study: Drs. Jeffrey D. Rosendhal, Bart J. Bok, and Raymond E. White, who served as couuuittee members; Dr. Roberta M. Humphreys, who originally suggested the investigation and served as its first director; Drs. Helmut A. Abt, Arthur A. Hoag, and Peter Pesch, for informal discussions; and Mr. Ed Howell, for the photographic work. Special acknowledgment must go to Dr. Abt for supplying the author with unpublished radial velocity material and to Dr. Hoag for the loan and permission to reproduce a plate of NGC 457. TABLE OF CONTENTS Page LIST OF TABLES iv LIST OF ILLUSTRATIONS V ABSTRACT vi INTRODUCTION 1 PREVIOUS STUDIES OF NGC 457 4 Position 4 Catalogues 6 Proper Motions 7 Photometry 17 Polarization 36 Radial Velocities 37 PRESENT SPECTROSCOPIC WORK 42 Objectives 42 Observational Work 42 Discussion of Results 45 DISCUSSION 49 FUTURE WORK 52 REFERENCES 54 iii LIST OF TABLES Table Page 1. Lists of Cluster Stars 6 2. Mean Proper Motions for Different Magnitudes 9 3. Magnitude Dependences of Proper Motion Differences 12 4. Proper Motions of the Bright Supergiants 16 5. Photometric Studies of NGC 457 17 6. Differences in Photoelectric Photometry '19 7. Effect of Model Differences on the Scatter of Photometric Differences 21 8. Photometry of Selected Stars 23 9. Magnitude Dependence of Color Excess 28 10. Mean Color Excesses 30 11. Main Sequence Fitting of NGC 457 34 12. Polarization 36 13. Radial Velocity Observations 38 14. Adopted Radial Velocities 39 15. Observational Record 43 16. Present Spectral Types 44 17. MK Types and Spectroscopic Parallaxes 46 iv LIST OF ILLUSTRATIONS Figure Page 1. The Open Cluster NGC 457 5 2. Mean Proper Motions for Different Magnitudes 10 3. Vector Point Diagram of Proper Motions in Cluster Field . 15 4. Possible Systematic Effects in Differences in Photometry . 20 5. Color -Color Diagram of NGC 457 26 6. Distribution of Derived Color Excesses 29 7. Color -Magnitude Diagram of NGC 457 with Individual Color Excesses Removed 31 8. Color- Magnitude Diagram of NGC 457 with Average Color Excess Removed 32 9. Color- Magnitude Diagram of Stars with MK Spectral Classifications 47 v ABSTRACT Previous work on the open cluster NGC 457 is discussed. The presence of a magnitude equation creates difficulty in using the published proper motions to determine membership of the brighter stars. Analysis of the available photometry reveals no systematic differences larger than 0.03 magnitude. The photometric distance modulus of the cluster is (m -M)0 = 12.31 ± 0.25. The main sequence turnoff point, (B -V)T = -0.24, indicates an age of 1.3 x 107 years. MK classifications of previously unclassified cluster stars are used in a new evaluation of the spectroscopic distance, (m -M) = 11.98 0 ± 0.39, which is brought into agreement with the photometric distance. Membership of the supergiant star 0 Cas in the cluster seems likely, but cannot be proven. Some possible consequences of its member- ship are discussed. vi INTRODUCTION Open clusters provide a valuable link between the group and individual properties of stars. Most of the nearby open clusters are bright enough to permit moderately detailed study of the separate stars. Assuming cluster membership then allows the individual properties to be related to the common distance and hopefully common origin of the stars. Roughly 50 open clusters and a comparable number of associations include at least one supergiant. Some well known examples are NGC 2362 and GMa, NGC 4755 and w Cru, NGC 6231 and C Sco, and NGC 457 and 0 Cas. The relationship between supergiants and open clusters is important in several ways. Absolute magnitudes of supergiants are difficult to obtain by statistical parallax methods because of the small proper motions of these stars. Open clusters furnish an accurate means of calibrating the luminosities of supergiants, including supergiants which are Cepheids. Since the cluster provides a reference velocity, the atmospheric effects on observed radial velocities might also be studied, although this does not seem to have been done. Evolutionary models of supergiants can be checked against the age of the cluster, which can be determined from models of the main sequence stars. Aarseth (1968) has shown that, if present, very massive stars will dominate the dynamical evolution of a cluster. It is for these reasons that a cluster with an apparently asso- ciated supergiant deserves to be well studied. A comprehensive investi- gation of an open cluster must include astrometric, photometric, and 1 2 spectroscopic observations. All available data should be assembled and studied as a whole, paying careful attention to the possibility of various systematic effects. The cluster NGC 457 has three supergiants associated with it, but lias never been fully investigated in the manner described above. Although individual studies have supplied considerable amounts of data, the results have not been combined with proper consideration for possible systematic errors. Despite the substantial data available for NGC 457, problems remain. The spectroscopic and photometric distances previously derived have been discordant. The membership of 0 Cas in the cluster still remains an open question, but, in spite of this, several researchers in the field of supergiants have used this star as a calibration standard on the assumption that it is a cluster member. Work by de Vegt et al. (1968) has suggested the possiblity of a large motion for NGC 457 in a direction perpendicular to the galactic plane, which would imply that the cluster is not bound to the Galaxy. Because of these problems, NGC 457 is a candidate for a thorough review. Adequate photometry to about visual magnitude 14 exists for NGC 457, while good proper motions require a longer time base than is cur- rently available for the cluster. Therefore, no attempt was made to secure more data of these types. The requirements of slit spectroscopy, fairly large telescopes and long exposures, have created a lack of sub- stantial spectroscopic information about the stars in NGC 457. The need for such data, combined with the ready availability of the proper 3 equipment, indicated the type of new observational work which would be most useful in a thorough discussion of NGC 457. This work uses the standard techniques employed in the study of open clusters, relatively few modifications being necessary. The following sections discuss the data of each type (astrometric, photometric, and spectroscopic) in the order which seems most useful. The discussion in each section begins with a brief statement of what can be accomplished with the type of data under consideration and of what methods are used in that section. There follows a review of the previous work and a search for systematic errors. The data are then combined to produce the final results. At each stage, an attempt is made to eliminate stars that are not cluster members in order to reduce their effects on the conclusions reached in the subsequent parts of the discussion. PREVIOUS STUDIES OF NGC 457 Listed in the late eighteenth century catalogues of Sir William Herschel, the open cluster NGC 457 is today an object with large amounts Of data available. Proper motions have been determined for about 900 stars in the field, three -color photometry of varying quality has been done for some 600 stars, and spectral types have been determined for several dozen stars. However, radial velocities and MK luminosity classi- fications are known for only about a dozen stars. Figure 1 is a large -scale view of NGC 457. The caption identifies the three supergiants in its vicinity. Position The NGC equatorial coordinates of NGC 457, when precessed to 1950.0, become 1h 15m 55s, 1-58° 03.6, the rounded values of which are given in the catalogue of Alter et al. (1970) which designates the cluster as 0C1 -321. The equivalent LAU galactic coordinates are 1 = 12656, b = -4.35. With an approximate distance of three kiloparsecs, NGC 457 is located in the Perseus arm of the Galaxy. Alter (1944) previously gave equatorial coordinates of 1h 16.4, +58o Olt (1950.0). Inspection of the Palomar prints suggests that this position is correct. Unfortunately, most recent work quotes the position developed from the NGC coordinates. 4 Figure 1. The Open Cluster NGC 457 NGC 457 as photographed with the Kitt Peak 84 -inch reflector on 1968 January 7. This print is a 2.4x enlargement of a 30- minute exposure on 103a -D emulsion with a CG11 filter. The print scale is 5:'1 /mm. North is toward the binding and west is toward the top of the page. The supergiant 0 Cas is the brightest star in the field. HD 7902 (type B6) is located 55 mm up and 35 mm to the left of the lower right hand corner of the print. HD 236697 (type M2) is 53 mm up and 47 imu to the right of the lower left hand corner.
Load more

Recommended publications
  • Astronomy Magazine Special Issue
    γ ι ζ γ δ α κ β κ ε γ β ρ ε ζ υ α φ ψ ω χ α π χ φ γ ω ο ι δ κ α ξ υ λ τ μ β α σ θ ε β σ δ γ ψ λ ω σ η ν θ Aι must-have for all stargazers η δ μ NEW EDITION! ζ λ β ε η κ NGC 6664 NGC 6539 ε τ μ NGC 6712 α υ δ ζ M26 ν NGC 6649 ψ Struve 2325 ζ ξ ATLAS χ α NGC 6604 ξ ο ν ν SCUTUM M16 of the γ SERP β NGC 6605 γ V450 ξ η υ η NGC 6645 M17 φ θ M18 ζ ρ ρ1 π Barnard 92 ο χ σ M25 M24 STARS M23 ν β κ All-in-one introduction ALL NEW MAPS WITH: to the night sky 42,000 more stars (87,000 plotted down to magnitude 8.5) AND 150+ more deep-sky objects (more than 1,200 total) The Eagle Nebula (M16) combines a dark nebula and a star cluster. In 100+ this intense region of star formation, “pillars” form at the boundaries spectacular between hot and cold gas. You’ll find this object on Map 14, a celestial portion of which lies above. photos PLUS: How to observe star clusters, nebulae, and galaxies AS2-CV0610.indd 1 6/10/10 4:17 PM NEW EDITION! AtlAs Tour the night sky of the The staff of Astronomy magazine decided to This atlas presents produce its first star atlas in 2006.
    [Show full text]
  • SAC's 110 Best of the NGC
    SAC's 110 Best of the NGC by Paul Dickson Version: 1.4 | March 26, 1997 Copyright °c 1996, by Paul Dickson. All rights reserved If you purchased this book from Paul Dickson directly, please ignore this form. I already have most of this information. Why Should You Register This Book? Please register your copy of this book. I have done two book, SAC's 110 Best of the NGC and the Messier Logbook. In the works for late 1997 is a four volume set for the Herschel 400. q I am a beginner and I bought this book to get start with deep-sky observing. q I am an intermediate observer. I bought this book to observe these objects again. q I am an advance observer. I bought this book to add to my collect and/or re-observe these objects again. The book I'm registering is: q SAC's 110 Best of the NGC q Messier Logbook q I would like to purchase a copy of Herschel 400 book when it becomes available. Club Name: __________________________________________ Your Name: __________________________________________ Address: ____________________________________________ City: __________________ State: ____ Zip Code: _________ Mail this to: or E-mail it to: Paul Dickson 7714 N 36th Ave [email protected] Phoenix, AZ 85051-6401 After Observing the Messier Catalog, Try this Observing List: SAC's 110 Best of the NGC [email protected] http://www.seds.org/pub/info/newsletters/sacnews/html/sac.110.best.ngc.html SAC's 110 Best of the NGC is an observing list of some of the best objects after those in the Messier Catalog.
    [Show full text]
  • SAA 100 Club
    S.A.A. 100 Observing Club Raleigh Astronomy Club Version 1.2 07-AUG-2005 Introduction Welcome to the S.A.A. 100 Observing Club! This list started on the USENET newsgroup sci.astro.amateur when someone asked about everyone’s favorite, non-Messier objects for medium sized telescopes (8-12”). The members of the group nominated objects and voted for their favorites. The top 100 objects, by number of votes, were collected and ranked into a list that was published. This list is a good next step for someone who has observed all the objects on the Messier list. Since it includes objects in both the Northern and Southern Hemispheres (DEC +72 to -72), the award has two different levels to accommodate those observers who aren't able to travel. The first level, the Silver SAA 100 award requires 88 objects (all visible from North Carolina). The Gold SAA 100 Award requires all 100 objects to be observed. One further note, many of these objects are on other observing lists, especially Patrick Moore's Caldwell list. For convenience, there is a table mapping various SAA100 objects with their Caldwell counterparts. This will facilitate observers who are working or have worked on these lists of objects. We hope you enjoy looking at all the great objects recommended by other avid astronomers! Rules In order to earn the Silver certificate for the program, the applicant must meet the following qualifications: 1. Be a member in good standing of the Raleigh Astronomy Club. 2. Observe 80 Silver observations. 3. Record the time and date of each observation.
    [Show full text]
  • WHAT 'S UP? November 2016
    WHAT 'S UP? November 2016 Temecula Valley Astronomers http://www.temeculavalleyastronomers.com METEOR SHOWERS - South Taurids Occurs September 25 – November 25 , Peak 11/4-5 - North Taurids Occurs from October 12 – December 2, Peal 11/11-12 - Leonids Occurs from Nov 6 – Nov 23, Peak on 11/16 -17 - zenith hourly rate 15/hr - Moon phase almost (81%) full (moonrise 20:16) - Geminids Occurs from Dec 7 – Dec 17, Peak on 12/13 -14 - zenith hourly rate 120/hr - Moon phase full (moon rise @16:56) “SUPER MOONS” Two more this year! -November 14 – “Beaver” moon - 6am EST, the centers of the Earth and Moon will be just 221,275 miles apart. Closest since 1976, and won’t be as close again until 2020. -December 14 – “Full Cold Moon” November 7 CASSIOPEIA Prominent northern constellation, named after Queen Cassiopeia One of the original 48 constellations plotted by Ptolemy, and remains one of the 88 today One of the most recognizable due to the “W” shape of the 5 brightest stars Located right in the center of the Milky Way, featuring over a dozen bright open clusters, double and variable stars, 4 nebula, and 3 galaxies In the most northern latitudes, it is circumpolar, so visible year round. STARS, STARS, STARS! ALGOL (β Per) (VARIABLE STAR) CASSIOPEIA OBJECTS Clusters Nebula NGC 869 and NGC 884 - The Double Cluster ** NGC 281 (Pacman Nebula) M34 - Spiral Cluster NGC 7635 (The Bubble Nebula) M52 ** IC 1805 (Heart Nebula) M103 - open cluster ** IC 1848 (Soul Nebula) Stock 2 ** IC 59 and IC 63 (challenging) NGC 129 ** NGC 225 (Sailboat Cluster) ** Galaxies
    [Show full text]
  • Introduction No. 103 June 2020
    No. 103 June 2020 Introduction I hope you are in good health as June’s Binocular Sky Newsletter reaches you. Although it is primarily targeted at binocular (and small telescope) observers in the UK, this particular community extends well south of the Equator. So welcome! Even in southern Britain, we will not have astronomical darkness until mid-July (although we do have a few hours of astronomical twilight) so observing opportunities in June are necessarily limited. The Solar System offers binocular observers little beyond lunar phenomena this month, the highlight being an occultation of Venus on the 19th. Last month held the promise of Comet C/2020 F8 (SWAN); it seems that it hasn’t survived perihelion passage intact and is effectively fizzling out. We should be used to this by now! But, as ever, the summer Deep Sky offers us a wonderful variety, which many of us will be able to enjoy without having to swathe ourselves in multi- layers of thermal insulation. It’s a real gift to be able to simply walk outside with binoculars on a clear night and be with old friends in the sky, knowing that other like-minded folk are sharing the same beauty. If you would like to receive the newsletter automatically each month, please complete and submit the subscription form. You can get “between the newsletters” alerts, etc. via and . Binocular Sky Newsletter – June 2020 The Deep Sky (Hyperlinks will take you to finder charts and more information on the objects.) It’s unfortunate that June’s nights are so short, and never completely dark, in the northern temperate latitudes because, as you will see from the chart on the next page, examples of all the major classes of deep sky object are well-placed.
    [Show full text]
  • Caldwell Catalogue - Wikipedia, the Free Encyclopedia
    Caldwell catalogue - Wikipedia, the free encyclopedia Log in / create account Article Discussion Read Edit View history Caldwell catalogue From Wikipedia, the free encyclopedia Main page Contents The Caldwell Catalogue is an astronomical catalog of 109 bright star clusters, nebulae, and galaxies for observation by amateur astronomers. The list was compiled Featured content by Sir Patrick Caldwell-Moore, better known as Patrick Moore, as a complement to the Messier Catalogue. Current events The Messier Catalogue is used frequently by amateur astronomers as a list of interesting deep-sky objects for observations, but Moore noted that the list did not include Random article many of the sky's brightest deep-sky objects, including the Hyades, the Double Cluster (NGC 869 and NGC 884), and NGC 253. Moreover, Moore observed that the Donate to Wikipedia Messier Catalogue, which was compiled based on observations in the Northern Hemisphere, excluded bright deep-sky objects visible in the Southern Hemisphere such [1][2] Interaction as Omega Centauri, Centaurus A, the Jewel Box, and 47 Tucanae. He quickly compiled a list of 109 objects (to match the number of objects in the Messier [3] Help Catalogue) and published it in Sky & Telescope in December 1995. About Wikipedia Since its publication, the catalogue has grown in popularity and usage within the amateur astronomical community. Small compilation errors in the original 1995 version Community portal of the list have since been corrected. Unusually, Moore used one of his surnames to name the list, and the catalogue adopts "C" numbers to rename objects with more Recent changes common designations.[4] Contact Wikipedia As stated above, the list was compiled from objects already identified by professional astronomers and commonly observed by amateur astronomers.
    [Show full text]
  • 108 Afocal Procedure, 105 Age of Globular Clusters, 25, 28–29 O
    Index Index Achromats, 70, 73, 79 Apochromats (APO), 70, Averted vision Adhafera, 44 73, 79 technique, 96, 98, Adobe Photoshop Aquarius, 43, 99 112 (software), 108 Aquila, 10, 36, 45, 65 Afocal procedure, 105 Arches cluster, 23 B1620-26, 37 Age Archinal, Brent, 63, 64, Barkhatova (Bar) of globular clusters, 89, 195 catalogue, 196 25, 28–29 Arcturus, 43 Barlow lens, 78–79, 110 of open clusters, Aricebo radio telescope, Barnard’s Galaxy, 49 15–16 33 Basel (Bas) catalogue, 196 of star complexes, 41 Aries, 45 Bayer classification of stellar associations, Arp 2, 51 system, 93 39, 41–42 Arp catalogue, 197 Be16, 63 of the universe, 28 Arp-Madore (AM)-1, 33 Beehive Cluster, 13, 60, Aldebaran, 43 Arp-Madore (AM)-2, 148 Alessi, 22, 61 48, 65 Bergeron 1, 22 Alessi catalogue, 196 Arp-Madore (AM) Bergeron, J., 22 Algenubi, 44 catalogue, 197 Berkeley 11, 124f, 125 Algieba, 44 Asterisms, 43–45, Berkeley 17, 15 Algol (Demon Star), 65, 94 Berkeley 19, 130 21 Astronomy (magazine), Berkeley 29, 18 Alnilam, 5–6 89 Berkeley 42, 171–173 Alnitak, 5–6 Astronomy Now Berkeley (Be) catalogue, Alpha Centauri, 25 (magazine), 89 196 Alpha Orionis, 93 Astrophotography, 94, Beta Pictoris, 42 Alpha Persei, 40 101, 102–103 Beta Piscium, 44 Altair, 44 Astroplanner (software), Betelgeuse, 93 Alterf, 44 90 Big Bang, 5, 29 Altitude-Azimuth Astro-Snap (software), Big Dipper, 19, 43 (Alt-Az) mount, 107 Binary millisecond 75–76 AstroStack (software), pulsars, 30 Andromeda Galaxy, 36, 108 Binary stars, 8, 52 39, 41, 48, 52, 61 AstroVideo (software), in globular clusters, ANR 1947
    [Show full text]
  • INTERSTELLAR POLARIZATION and EXTINCTION TOWARDS the OPEN CLUSTER NGC 457 Submitted to PASP ABSTRACT NGC 457 Is a Moderately
    Page 1 of 16 AUTHOR SUBMITTED MANUSCRIPT - PASP-100333.R1 1 2 3 Draft version July 9, 2017 4 Typeset using LATEX manuscript style in AASTeX61 5 6 7 8 INTERSTELLAR POLARIZATION AND EXTINCTION TOWARDS THE OPEN CLUSTER 9 10 NGC 457 11 12 13 14 Gregory A. Topasna,1 Eryn A. Daman,1 and Nadia T. Kaltcheva2 15 16 17 1Department of Physics and Astronomy, Virginia Military Institute, Lexington, VA 24450, USA 18 2Department of Physics and Astronomy, University of Wisconsin Oshkosh, 800 Algoma Blvd., Oshkosh, WI 54901, 19 USA 20 21 22 (Received ...; Revised ...; Accepted ...) 23 24 25 Submitted to PASP 26 27 28 ABSTRACT 29 30 NGC 457 is a moderately reddened and relatively young open cluster, very rich in variable stars and 31 32 in Be stars in particular, but not associated with any prominent star-forming field. We combine new 33 34 multi-wavelength polarization measurements with existing UBV and uvby photometries to obtain 35 36 precise estimates of the total-to-selective extinction in the field of the cluster and reevaluate its 37 38 distance and age. The polarization measurements show a tight alignment of the polarization vectors 39 40 with the Galactic plane and yield an average value of the total-to-selective extinction of 3.05 ± 0.17 41 42 for the cluster’s field. Using this value and the confirmed color excess E(B − V )=0.500 ± 0.030 43 44 . ± . ± . 45 mag, we obtain a distance modulus of 12 20 0 39, corresponding to 2 75 0 49 kpc and, assuming 46 47 slightly sub-solar metallicity, an age of 15.8 Myr.
    [Show full text]
  • The Caldwell Catalogue+Photos
    The Caldwell Catalogue was compiled in 1995 by Sir Patrick Moore. He has said he started it for fun because he had some spare time after finishing writing up his latest observations of Mars. He looked at some nebulae, including the ones Charles Messier had not listed in his catalogue. Messier was only interested in listing those objects which he thought could be confused for the comets, he also only listed objects viewable from where he observed from in the Northern hemisphere. Moore's catalogue extends into the Southern hemisphere. Having completed it in a few hours, he sent it off to the Sky & Telescope magazine thinking it would amuse them. They published it in December 1995. Since then, the list has grown in popularity and use throughout the amateur astronomy community. Obviously Moore couldn't use 'M' as a prefix for the objects, so seeing as his surname is actually Caldwell-Moore he used C, and thus also known as the Caldwell catalogue. http://www.12dstring.me.uk/caldwelllistform.php Caldwell NGC Type Distance Apparent Picture Number Number Magnitude C1 NGC 188 Open Cluster 4.8 kly +8.1 C2 NGC 40 Planetary Nebula 3.5 kly +11.4 C3 NGC 4236 Galaxy 7000 kly +9.7 C4 NGC 7023 Open Cluster 1.4 kly +7.0 C5 NGC 0 Galaxy 13000 kly +9.2 C6 NGC 6543 Planetary Nebula 3 kly +8.1 C7 NGC 2403 Galaxy 14000 kly +8.4 C8 NGC 559 Open Cluster 3.7 kly +9.5 C9 NGC 0 Nebula 2.8 kly +0.0 C10 NGC 663 Open Cluster 7.2 kly +7.1 C11 NGC 7635 Nebula 7.1 kly +11.0 C12 NGC 6946 Galaxy 18000 kly +8.9 C13 NGC 457 Open Cluster 9 kly +6.4 C14 NGC 869 Open Cluster
    [Show full text]
  • Commentary on Interstellar Matter Associated with 18 Open Clusters
    NASA Reference Publication 1229 1989 Commentary on Interstellar Matter Associated With 18 Open Clusters David Leisawitz Goddard Space Flight Center Greenbelt, Maryland NASA National Aeronautics and Space Administration Office of Management Scientific and Technical Information Division Preface This report summarizes information supplementary to that contained in Section IV of an article entitled "A CO Survey of Regions Around 34 Open Clusters" (Leisawitz, Bash, and Thaddeus 1989). The information presented here, which describes the interstellar environments of young clusters and some cluster physical characteristics, comes from observations published in the astronomical literature and the author's carbon monoxide (CO) emission line survey, and may help clarify our understanding of the interaction of massive stars with the interstellar medium. PRECEDING PAGE BLANK NOT FILMED iii Identification and Galactic coordinate data for the open clusters discussed in this report are given in Table 1. Additional information about the clusters can be found in Leisawitz, Bash, and Thaddeus (1989; hereafter referred to as Paper I) and in the Catalog of Open Clusters and Associated Interstellar Matter (Leisawitz 1988). Following the table, the clusters and their associated interstellar matter are described. The molecular cloud nomenclature is that of Paper I. TABLE 1 Identifications and Galactic coordinates of clusters Associated Galactic Cluster Identification H I1 Region Coordinates Member of 111 bI I OCLa Common Alias Association Sb wc Name ( deg 1 ( deg 1 100 NGC 6709 ... ... 42.16 4.70 124 NGC 6823 Vu1 OB1 86 55 59.41 -0.15 138 Roslund 4 IC 4954/5 ... ... 66.96 -1.26 I 205 NGC 7062 ... ... 89.93 -2.72 222 IC 1396 Tr 37 Cep OB2 131 *** 99.29 3.73 244 NGC 7380 Cep OB1 142 *** 107.08 -0.90 286 Berkeley 59 Cep OB4 171 1 118.25 4.95 313 NGC 281 184 a** 123.13 -6.24 321 NGC 457 ..
    [Show full text]
  • AL Urban Observing Program
    AL Urban Observing Program Introduction The purpose of the Urban Program is to bring amateur astronomy back to the cities, back to those areas that are affected by heavy light pollution. Amateur astronomy used to be called "backyard astronomy". This was in the days when light pollution was not a problem, and you could pursue your hobby from the comfort of your backyard. But as cities grew, so did light pollution, and the amateur astronomer was forced to drive further and further out into the country to escape that light pollution. It is not uncommon today for a city dweller to drive 100 miles to enjoy his/her hobby. But many people do not have the time or the resources to drive great distances to achieve dark skies. That is the reason for the creation of this program, to allow those who want to enjoy the wonders of the heavens in the comfort of their own neighborhoods to do so, and to maximize the observing experience despite the presence of heavy light pollution. The list of Urban Program objects consists of 87 deep-sky objects, 12 double stars and 1 variable star. The objects on this list have been observed from the East Coast to Middle America to the West Coast, and from major metropolitan areas like Miami, Baltimore, Dallas, Houston, and Los Angeles. Sky limiting magnitudes went from a high of 4, down to 2, to a "Geez" on one particularly bad evening. Instruments ranged from a six-inch reflector to a ten-inch SCT. There is a world of objects out there that can be enjoyed under even poor skies, and it only takes a small to medium sized telescope to enjoy them.
    [Show full text]
  • Extract from Stargazing Under Suburban Skies - a Star Hoppers Guide
    Extract from Stargazing under Suburban Skies - A Star Hoppers Guide Chapter 1 -Seeking Out the Dark Example Bronze Object Example Silver Object Example Gold Object Example Lunar Object Note. This file is an extract and none of the text, maps or images may be reproduced without express permission of the authors, Malcolm Zack, Andy Gannon, John McRoberts. Copyright remains with the authors. Chapter 1 – Seeking Out the Dark From Messier to the Modern Day Lists of stars and objects are not a new idea in astronomy. Ancient observers noted the stars in the skies and as early as the 10th century AD, the Persian astronomer, Abd al-Rahman al-Sufi, compiled his “book of fixed stars”. Today, most astronomers eventually get to know the Messier Catalogue or to give it its proper title “Catalogue des Nébuleuses et des Amas d’Etoiles”. The first edition of the Messier Catalogue included 45 objects and grew to the 110 that are searched for, sketched, imaged, lost, found and talked about by experienced observers and beginners alike the world over. Others, such as the New General Catalogue (NGC), and the Index Catalogue (IC), and specific lists including the Herschel 400 and the Caldwell objects generated by the much loved and missed Sir Patrick Moore, provide ample resources and targets to challenge and occupy the observing nights for astronomers everywhere. Since 1758 when Messier first published his catalog, improvements in optical, radio and infrared technology have allowed us to see things that he could not have imagined. Amateur telescope technology has moved on apace too.
    [Show full text]