A New(Ish) Star Is Born 29 August 2011

Total Page：16

File Type：pdf, Size：1020Kb

A new(ish) star is born 29 August 2011 "To put that into perspective, it means this star was formed after the dinosaurs became extinct and when mammals first started to become dominant on Earth," Mr Murphy said. The star is the newest member of a group of young stars known as the Argus Association. The age and close proximity of AP Columbae make it a prime candidate for getting good images. "Because AP Columbae is so close we are able to hunt for giant gas planets at high resolution, close AP Columbae to the star. Later this year we are hoping to use the eight metre Gemini South telescope in Chile to observe any planets that might be present." (PhysOrg.com) -- Researchers have uncovered a new stellar neighbour with the discovery of the Provided by Australian National University closest young star to Earth. The international team, including Simon Murphy, a final-year PhD student from the ANU Research School of Astronomy and Astrophysics, have shown that the star, named AP Columbae, is the closest so-called `pre main-sequence' star. Their paper has been published this week in The Astronomical Journal. "Pre main-sequence stars are much younger than the Sun. Using telescopes in Coonabarabran, Chile, Hawaii and California we have shown that the faint, red-dwarf star AP Columbae is the closest such star to the Earth," said Mr Murphy. "For decades it was believed that young stars only resided in vast star-forming regions like the Orion Nebula. These regions are typically several hundred light years away from the Earth. With the advent of accurate, all-sky surveys we can now find young stars much closer to home." AP Columbae, an otherwise innocuous red-dwarf star in the constellation of Columba is a comparably close 27-light-years away from Earth and approximately 40 million years old. 1 / 2 APA citation: A new(ish) star is born (2011, August 29) retrieved 25 September 2021 from https://phys.org/news/2011-08-newish-star-born.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. 2 / 2 Powered by TCPDF (www.tcpdf.org).

Copy Link

Recommended publications

GEORGE HERBIG and Early Stellar Evolution
GEORGE HERBIG and Early Stellar Evolution Bo Reipurth Institute for Astronomy Special Publications No. 1 George Herbig in 1960 —————————————————————– GEORGE HERBIG and Early Stellar Evolution —————————————————————– Bo Reipurth Institute for Astronomy University of Hawaii at Manoa 640 North Aohoku Place Hilo, HI 96720 USA . Dedicated to Hannelore Herbig c 2016 by Bo Reipurth Version 1.0 – April 19, 2016 Cover Image: The HH 24 complex in the Lynds 1630 cloud in Orion was discov- ered by Herbig and Kuhi in 1963. This near-infrared HST image shows several collimated Herbig-Haro jets emanating from an embedded multiple system of T Tauri stars. Courtesy Space Telescope Science Institute. This book can be referenced as follows: Reipurth, B. 2016, http://ifa.hawaii.edu/SP1 i FOREWORD I ﬁrst learned about George Herbig’s work when I was a teenager. I grew up in Denmark in the 1950s, a time when Europe was healing the wounds after the ravages of the Second World War. Already at the age of 7 I had fallen in love with astronomy, but information was very hard to come by in those days, so I scraped together what I could, mainly relying on the local library. At some point I was introduced to the magazine Sky and Telescope, and soon invested my pocket money in a subscription. Every month I would sit at our dining room table with a dictionary and work my way through the latest issue. In one issue I read about Herbig-Haro objects, and I was completely mesmerized that these objects could be signposts of the formation of stars, and I dreamt about some day being able to contribute to this ﬁeld of study.
[Show full text]
Renaissance Star Charts Anna Friedman Herlihy
4 • Renaissance Star Charts Anna Friedman Herlihy Between the early fifteenth and the early seventeenth cen- of their predecessors for both technical data and artistic turies, star charts progressed from imprecise, often deco- style, with certain works reflecting moments of break- rative illustrations based on medieval manuscripts to through and the founding of new traditions. sophisticated map projections with systematized nomen- clature for the stars. The reimportation into Europe of Historiography technical classical texts such as Ptolemy’s Almagest, as well as Islamic works such as Abu¯ al-H. usayn Abd al- Despite the recent publication of a number of lavish illus- 3 Rah.ma¯n ibn Umar al-S.u¯fı¯’s constellation maps, appears trated books intended for a general public audience, the to have played a significant role in this transformation. By study of Renaissance star charts (and indeed star charts the early sixteenth century, with the publication of Al- in general) has been largely neglected by the scholarly brecht Dürer’s pair of maps in 1515, the most popular format for small celestial maps was definitively set: two hemispheres, north and south, on some sort of polar pro- jection. Around the turn of the seventeenth century, when Johannes Bayer published his 1603 Uranometria, the ba- I would like to thank Elly Dekker for her invaluable feedback and comments on the draft of this chapter, especially regarding the Hip- sic star atlas format was solidified, with one page for each parchus rule, and for several additional references of which I was un- constellation and perhaps a few hemispherical charts aware.
[Show full text]
UNIVERSITY of CALIFORNIA Los Angeles Characterizing Low-Mass Stars and Brown Dwarfs and Upgrading NIRSPEC a Dissertation Submitt
UNIVERSITY OF CALIFORNIA Los Angeles Characterizing Low-mass Stars and Brown Dwarfs and Upgrading NIRSPEC A dissertation submitted in partial satisfaction of the requirements for the degree Doctor of Philosophy in Astronomy by Emily Catherine Martin 2018 c Copyright by Emily Catherine Martin 2018 ABSTRACT OF THE DISSERTATION Characterizing Low-mass Stars and Brown Dwarfs and Upgrading NIRSPEC by Emily Catherine Martin Doctor of Philosophy in Astronomy University of California, Los Angeles, 2018 Professor Ian S. McLean, Chair This dissertation combines near-infrared spectroscopic and astrometric analysis of low-mass stars and brown dwarfs with instrumentation work to upgrade the NIRSPEC spectrometer for the Keck II Telescope. The scientific goals of my thesis are to discover and characterize the physical properties of brown dwarfs, the lowest-mass (<0.08 MSun) products of the star formation process. These relatively cold objects (Teff< 2500K, compared to TSun ∼5800K) emit the bulk of their light in the infrared. Project I of my thesis used near-infrared spec- troscopy from NIRSPEC to study the surface gravities of 228 low-mass stars and brown dwarfs in the NIRSPEC Brown Dwarf Spectroscopic Survey (Martin et al., 2017). Project II utilizes imaging data from the Spitzer Space Telescope to study the coldest and lowest-mass brown dwarfs. I measure distances to 22 late-T and Y dwarfs and use those distances to measure absolute physical properties. Project III encompasses my work to upgrade the NIR- SPEC instrument and compliments my scientific research interests. My work on the upgrade includes project management, infrared detector characterization and testing, optical design of the new slit-viewing camera, electronics design, and mechanical testing and prototyping (see Martin et al., 2014, 2016).
[Show full text]
Download This Article in PDF Format
A&A 575, A119 (2015) Astronomy DOI: 10.1051/0004-6361/201424253 & c ESO 2015 Astrophysics The HARPS search for southern extra-solar planets XXXVI. Planetary systems and stellar activity of the M dwarfs GJ 3293, GJ 3341, and GJ 3543?;?? N. Astudillo-Defru1;2, X. Bonfils1;2, X. Delfosse1;2, D. Ségransan3, T. Forveille1;2, F. Bouchy3;4, M. Gillon5, C. Lovis3, M. Mayor3, V. Neves6, F. Pepe3, C. Perrier1;2, D. Queloz3;7, P. Rojo8, N. C. Santos9;10, and S. Udry3 1 Université Grenoble Alpes, IPAG, 38000 Grenoble, France e-mail: [email protected] 2 CNRS, IPAG, 38000 Grenoble, France 3 Observatoire de Genève, Université de Genève, 51 ch. des Maillettes, 1290 Sauverny, Switzerland 4 Laboratoire d’Astrophysique de Marseille, UMR 6110 CNRS, Université de Provence, 38 rue Frédéric Joliot-Curie, 13388 Marseille Cedex 13, France 5 Institut d’Astrophysique et de Géophysique, Université de Liège, Allée du 6 Août 17, Bat. B5C, 4000 Liège, Belgium 6 Departamento de Física, Universidade Federal do Rio Grande do Norte, 59072-970 Natal, RN, Brazil 7 Cavendish Laboratory, J J Thomson Avenue, Cambridge, CB3 0HE, UK 8 Departamento de Astronomía, Universidad de Chile, Camino El Observatorio 1515, Las Condes, Santiago, Chile 9 Centro de Astrofísica, Universidade do Porto, Rua das Estrelas, 4150-762 Porto, Portugal 10 Departamento de Física e Astronomia, Faculdade de Ciências, Universidade do Porto, Portugal Received 22 May 2014 / Accepted 25 November 2014 ABSTRACT Context. Planetary companions of a fixed mass induce reflex motions with a larger amplitude around lower-mass stars, which adds to making M dwarfs excellent targets for extra-solar planet searches.
[Show full text]
Answers to Chapter Review Questions and Problems for the Amateur Astronomer's Introduction to the Celestial Sphere
Answers to Chapter Review Questions and Problems for The Amateur Astronomer’s Introduction to the Celestial Sphere William Millar July 10, 2006 2 Contents 1 The lure of the sky 1 2 Location and coordinates 3 3 Stars and constellations 7 4 Motions of the Earth 11 5 The seasons 19 6 The phases of the Moon 25 7 Eclipses 31 8 Observation projects 35 i ii CONTENTS Chapter 1 The lure of the sky There are no review questions in this chapter. 1 2 CHAPTER 1. THE LURE OF THE SKY Chapter 2 Location and coordinates Questions for review and further thought 1. What do we mean by a coordinate system’s origin? Answer: The origin is the point at which all distance measurements along the reference lines begin. While the origin is usually labeled with a zero (0) and located at the center of the coordinate space, these conditions are not required. 2. How many dimensions (coordinates) are required to map the sky, as seen from Earth? Answer: Two. We treat the sky as if it were mapped onto the inside of a two-dimensional surface we call the celestial sphere. We know that space is three dimensional, that is, there is a distance to the stars, but we do not need to know the distance to a star in order to point our telescopes at it. 3. What are the three basic units of measure for angles, and how are they related to each other? Answer: The three basic units are degrees, minutes and seconds. There are 360 degrees in a circle, 60 minutes in a degree and 60 seconds in a minute.
[Show full text]
SKA Astrometry
Spanish SKA White Book, 2015 264 SKA Astrometry SKA Astrometry J.C. Guirado1;2, I. Agudo3, A. Alberdi3, R. Azulay2, F. Colomer4, J.L. Gómez3, I. Mart´ı-Vidal5, J. Moldón6, M.A. Pérez-Torres3;7;8, M. Perucho1;2, M. Ribó9, M.J. Rioja10;4, and E. Ros11;1;2 1 Observatorio Astronómico,Universidad de Valencia, Spain 2 Departamento de Astronom´ıay Astrof´ısica,Universidad de Valencia, Spain 3 Instituto de Astrof´ısica de Andaluc´ıa{ CSIC, Granada, Spain 4 Observatorio AstronómicoNacional, Alcaláde Henares, Spain 5 Onsala Space Observatory, Chalmers Univ. of Technology, Onsala, Sweden 6 Netherland Foundation for Radio Astronomy, Dwingeloo, The Netherlands 7 Centro de Estudios de la F´ısicadel Cosmos de Aragón,Teruel, Spain 8 Departamento de F´ısicaTeórica,Universidad de Zaragoza, Spain 9 Dep. d'Astronomia i Meteorologia, Ins. Ciènciesdel Cosmos, Univ. Barcelona, Spain 10 International Centre for Radio Astronomy Research, Univ. Western Australia, Australia 11 Max-Planck-Institut fürRadioastronomie, Bonn, Germany Abstract We report on the astrometric capabilities of the different configurations of the SKA. For SKA1-MID, the large enhancement in sensitivity will allow astrometric studies at sub-mas level of a wide variety of objects well below the detection threshold of present VLB arrays. Microarcsecond astrometric accuracy will necessarily come from combination of SKA1-MID with existing VLBI networks or from the SKA2 realization using conventional in-beam phase-referencing or Multiview techniques. We describe some astrometry projects that will become accessible with the SKA. 1 Introduction The measurement of the motion and size of the celestial bodies constitutes the foundations of our present understanding of the universe.
[Show full text]
IMPACT of LIGHT POLLUTION on DIFFERENT TAXA of MIGRATORY SPECIES (Prepared by Ms
Convention on the Conservation of Migratory Species of Wild Animals 5th Meeting of the Sessional Committee of the CMS Scientific Council (ScC-SC5) Online, 28 June – 9 July 2021 UNEP/CMS/ScC-SC5/Inf.7 IMPACT OF LIGHT POLLUTION ON DIFFERENT TAXA OF MIGRATORY SPECIES (Prepared by Ms. Laetitia Nunny on behalf of the CMS Secretariat) UNEP/CMS/ScC-SC5/Inf.7 IMPACT OF LIGHT POLLUTION ON DIFFERENT TAXA OF MIGRATORY SPECIES 1. INTRODUCTION 1.1 Background 1.1.1 What is light pollution? The use of artificial light to illuminate our streets, homes, sports pitches, commercial and industrial properties either permanently or intermittently through the hours of darkness has become the norm in most developed countries. Lighting at night is considered essential for our security and/or convenience. Monuments, churches, bridges and other landmarks may be illuminated at night for aesthetic purposes and light is also emitted by the vehicles we use on land, at sea and in the air. The increasing use of electric lighting has modified the natural light environment dramatically and this can have effects on both humans and wild animals. The last century has seen an unprecedented increase in the use of artificial light at night (also known as ALAN), with a global increase rate of approximately 6% per year (with a range of 0-20% depending on geographical region) according to Hölker et al. (2010b). ALAN is also referred to as light pollution and some distinctions are made between “astronomical light pollution”, which prevents us from seeing the stars and other celestial matter, and “ecological light pollution” which has an impact on the biological functioning of species and disrupts ecosystems (Longcore and Rich, 2004).
[Show full text]
The Ledger and Times, February 18, 1967
Murray State's Digital Commons The Ledger & Times Newspapers 2-18-1967 The Ledger and Times, February 18, 1967 The Ledger and Times Follow this and additional works at: https://digitalcommons.murraystate.edu/tlt Recommended Citation The Ledger and Times, "The Ledger and Times, February 18, 1967" (1967). The Ledger & Times. 5592. https://digitalcommons.murraystate.edu/tlt/5592 This Newspaper is brought to you for free and open access by the Newspapers at Murray State's Digital Commons. It has been accepted for inclusion in The Ledger & Times by an authorized administrator of Murray State's Digital Commons. For more information, please contact [email protected]. •P fr 411.111111111assamat"6"avisme Selected Al A BM All Round Sentricry °mummify Newspaper reeetteeessomowasoneem ot% The Only Afternoon Daily Circulation 1 In Murray And Both In City [Calloway County j And In County. United Press International In Our 88th Year Murray, Ky., Saturday Afternoon, February 18, 1967 10e Per Copy Vol. LXXXVIII No. 41 Murray Student Is Seen & Heard Help Meeting Delegate To National Shoemaker 4 For BTU Set, Honor Society Resigns As Ara,and A Murray student has been elect- ed delegate of the Moirray State AssociAtion Veit(OrsiSy chaEter of Alpha Chi, Commissioner MURRAY or, national college scilirshiti hon- c, or society:- and- nine others'ehirve been accepted for membership. Darrell Shoemaker, civic and bus- A two-night "HELP- meeting for Charles Foinell, 215 North 13th DiNIMPSO of the heort and blood Meru leader in Murray for a number Eapiet Training Union leadership Street, is the new officer, He Is vessels are responoble tor more of years has resigned as Master , has been announced for Februazy a senior majoring in English and in his country Commissioner of Calloway County.
[Show full text]
RX J0942. 7-7726AB: an Isolated Pre-Main Sequence Wide Binary
Mon. Not. R. Astron. Soc. 000, 000–000 (0000) Printed 22 October 2018 (MN LATEX style ﬁle v2.2) RX J0942.7−7726AB: an isolated pre-main sequence wide binary Simon J. Murphy1⋆, Warrick A. Lawson2⋆ and Michael S. Bessell1⋆ 1 Research School of Astronomy and Astrophysics, The Australian National University, Cotter Road, Weston Creek ACT 2611, Australia 2 School of PEMS, University of New South Wales, Australian Defence Force Academy, Canberra, ACT 2600, Australia 22 October 2018 ABSTRACT We report the discovery of two young M-dwarfs, RX J0942.7−7726 (M1) and 2MASS J09424157−7727130 (M4.5), that were found only 42 arcsec apart in a survey for pre-main sequence stars surrounding the open cluster η Chamaeleontis. Both stars have congruent proper motions and near-infrared photometry. Medium-resolution spectroscopy reveals that they are coeval (age 8–12 Myr), codistant (100–150 pc) and thus almost certainly form a true wide binary with a projected separation of 4000–6000 AU. The system appears too old and dynamically fragile to have originated in η Cha and a traceback analysis argues for its birth in or near the Scorpius-Centaurus OB Association. RX J0942.7−7726AB joins a growing group of wide binaries kinematically linked to Sco-Cen, suggesting that such fragile systems can survive the turbulent environment of their natal molecular clouds while still being dis- persed with large velocities. Conversely, the small radial velocity difference between the stars (2.7 ± 1.0 km s−1) could mean the system is unbound, a result of the coincidental ejection of two single stars with similar velocity vectors from the OB association early in its evolution.
[Show full text]
Young, Low-Mass Stars: X-Rays and Circumstellar Environments
Rochester Institute of Technology RIT Scholar Works Theses 6-22-2018 Young, Low-Mass Stars: X-rays and Circumstellar Environments Kristina Marie Punzi [email protected] Follow this and additional works at: https://scholarworks.rit.edu/theses Recommended Citation Punzi, Kristina Marie, "Young, Low-Mass Stars: X-rays and Circumstellar Environments" (2018). Thesis. Rochester Institute of Technology. Accessed from This Dissertation is brought to you for free and open access by RIT Scholar Works. It has been accepted for inclusion in Theses by an authorized administrator of RIT Scholar Works. For more information, please contact [email protected]. Rochester Institute of Technology Ph.D. Dissertation Young, Low-Mass Stars: X-rays and Circumstellar Environments Author: Advisor: Kristina Marie Punzi Joel H. Kastner A dissertation submitted in partial fulﬁllment of the requirements for the degree of Ph.D. in Astrophysical Sciences and Technology in the School of Physics and Astronomy June 22, 2018 Rochester Institute of Technology Ph.D. Dissertation Young, Low-Mass Stars: X-rays and Circumstellar Environments Author: Advisor: Kristina Marie Punzi Joel H. Kastner A dissertation submitted in partial fulﬁllment of the requirements for the degree of Ph.D. in Astrophysical Sciences and Technology in the School of Physics and Astronomy Approved by Professor Joel H. Kastner Date Director, Astrophysical Sciences and Technology Certificate of Approval Astrophysical Sciences and Technologies R·I·T College of Science Rochester, NY, USA The Ph.D. Dissertation of Kristina Marie Punzi has been approved by the undersigned members of the dissertation committee as satisfactory for the degree of Doctor of Philosophy in Astrophysical Sciences and Technology.
[Show full text]
Arxiv:1411.7048V1 [Astro-Ph.EP] 25 Nov 2014 Ulations by Approximately 3 to 1 (E.G
Astronomy & Astrophysics manuscript no. GJ3293˙GJ3341˙GJ3543˙vF c ESO 2014 November 27, 2014 The HARPS search for southern extra-solar planets? XXXV. Planetary systems and stellar activity of the M dwarfs GJ 3293, GJ 3341, and GJ 3543 N. Astudillo-Defru1;2, X. Bonfils1;2, X. Delfosse1;2, D. Segransan´ 3, T. Forveille1;2, F. Bouchy3;4, M. Gillon5, C. Lovis3, M. Mayor3, V. Neves6, F. Pepe3, C. Perrier1;2, D. Queloz3;7, P. Rojo8, N. C. Santos9;10, S. Udry3 1 Univ. Grenoble Alpes, IPAG, F-38000 Grenoble, France 2 CNRS, IPAG, F-38000 Grenoble, France 3 Observatoire de Geneve,` Universite´ de Geneve,` 51 ch. des Maillettes, 1290 Sauverny, Switzerland 4 Laboratoire d’Astrophysique de Marseille, UMR 6110 CNRS, Universite´ de Provence, 38 rue Fred´ eric´ Joliot-Curie, 13388 Marseille Cedex 13, France 5 Institut d’Astrophysique et de Geophysique,´ Universite´ de Liege,` Allee´ du 6 Aoutˆ 17, Bat. B5C, 4000 Liege,` Belgium 6 Departamento de F´ısica, Universidade Federal do Rio Grande do Norte, 59072-970 Natal, RN, Brazil 7 Cavendish Laboratory, J J Thomson Avenue, Cambridge, CB3 0HE, UK 8 Departamento de Astronom´ıa, Universidad de Chile, Camino El Observatorio 1515, Las Condes, Santiago, Chile 9 Centro de Astrofsica,´ Universidade do Porto, Rua das Estrelas, 4150-762 Porto, Portugal 10 Departamento de F´ısica e Astronomia, Faculdade de Ciencias,ˆ Universidade do Porto, Portugal ABSTRACT Context. Planetary companions of a fixed mass induce larger amplitude reflex motions around lower-mass stars, which helps make M dwarfs excellent targets for extra-solar planet searches. State of the art velocimeters with ∼1m/s stability can detect very low-mass planets out to the habitable zone of these stars.
[Show full text]
19830002729.Pdf
General Disclaimer One or more of the Following Statements may affect this Document This document has been reproduced from the best copy furnished by the organizational source. It is being released in the interest of making available as much information as possible. This document may contain data, which exceeds the sheet parameters. It was furnished in this condition by the organizational source and is the best copy available. This document may contain tone-on-tone or color graphs, charts and/or pictures, which have been reproduced in black and white. This document is paginated as submitted by the original source. Portions of this document are not fully legible due to the historical nature of some of the material. However, it is the best reproduction available from the original submission. Produced by the NASA Center for Aerospace Information (CASI) I (NASA -2!!-dyUJ1) kAh WhAh1;u SUPPLEdW: Adi-10999 k-AYALUG OF 1NFhAhr.0 U LJSthYA110NS (NASA) 1uU P AU5/At A01 CSLL U!A Uaclas G3/d 9 .1572 7 NAM Technical Memorandum 84001 1* Far Infrared Supplement: Catalog of Infrared Observations .14 D. Y. Gezari, M. Schmitz, and J. M. Mead OCTOBER 1982 f ^ 1^^Q2 s ^C^ National Aeronautics and Space Administration EQ H 0 Goddard Space V Aght Center Greenbelt Maryland 20771 FAR INFRARED SUPPLEMENT: CATALOG OF INFRARED OBSERVATIONS Daniel Y. Gezari Infrared and Radio Astronomy Branch Laboratory for Extraterrestrial Physics C:)ddard Space Flight Center Marion Schmitz System Sciences Division Computer Sciences Corporation Jaylee M. Mead Laboratory for Astronomy and Solar Physics Goddard Space Flight Center National Aeronautics and Space Administration Goddard Space Flight Center Greenbelt, MD 20771 Preview Edition October 1982 NASA TM 84001 SPECIAL INSTRUCTIONS: FAR INFRARED SUPPLEMENT This preview edition of the Far Infrared Supplement contains a subset of the data summarized in the Catalog of Infrared Observations (TM 83819).
[Show full text]