The Downside of EF Eridani Frederick M. Walter Stony Brook University There’ve been strange things done to this former sun by the nearby white dwarf star.

Slides:

Advertisements

Similar presentations

Star Properties!!.

Advertisements

Cygnus X1 – The First. Cygnus X1 In the early Seventies scientists found an intensive X-Ray source in the Cygnus Constellation. They believe that this.

X-ray pulsars in wind-fed accretion systems 王伟 (NAOC) July 2009, Pulsar Summer School Beijing.

Big Questions If astronomers measure an object’s apparent brightness (flux), what do they need to know to figure out how far away that object is? Why are.

EF Eri: Onset of Chromospheric Activity in the Sub-Stellar Secondary

Small is Beautiful: Cataclysmic Variables from the SDSS John Southworth Boris Gänsicke Tom Marsh + many others.

RXTE Observations of Cataclysmic Variables and Symbiotic Stars Koji Mukai NASA/GSFC/CRESST and UMBC.

Dr Matt Burleigh The Sun and the Stars. Dr Matt Burleigh The Sun and the Stars Binary stars: Most stars are found in binary or multiple systems. Binary.

Chapter 8 The Sun – Our Star.

GALEX UV Light-curves of M-Dwarf Flare Stars: “ THE FLARING UV SKY” Barry Welsh, Jonathan Wheatley & Stanley Browne (UC Berkeley) Richard Robinson (Catholic.

Andrea Dupree SAO/CfA New England Space Science Consortium (NESSC) March 1, 2006 Some Stellar Problems of Interest to Solar Physics  Global properties.

Supernovae Historically: “new stars” in sky Seen in 1006, 1054, 1181, 1572, 1604, 1680 SN 1054 visible in daytime sky for many months (Chinese records)

What is the Dark Matter? What about “ordinary” non-luminous matter (basically, made from proton, neutrons and electrons)? “Dead stars” (White Dwarfs,

Black Hole in M83 Topic: Black holes Concepts: multi-wavelength observations, black hole evolution Missions: Hubble, Chandra, Swift Coordinated by the.

Part 2: Formation of the Universe STARS AND GALAXIES 1.

Quasars and Other Active Galaxies

Mass Determinations of Short Period CV Donors Authors: Christopher D.J. Savoury*, S.P Littlefair*, V.S. Dhillion*, T.R. Marsh #, B.T. Gänsicke #, *The.

September 18, 2007Hydrogen-Deficient Stars, Tuebingen Transient Mass-Loss Events in the PG 1159  [WCE] Central Star of Longmore 4 Howard E. Bond Space.

Variability & Rotation in Magnetic White Dwarfs Matt Burleigh, Carolyn Brinkworth (Spitzer Science Center) & Tom Marsh (Warwick) Katherine Lawrie 17 th.

(University of Texas at El Paso) (New Mexico State University at Doña Ana) Radio Observations of Cataclysmic Variables Paul A. Mason (University of Texas.

200 MG 500 MG TheoryObservation Authors Institutes RE J is a hydrogen rich strongly magnetic white dwarf discovered as an EUV source by the ROSAT.

 Galaxies with extremely violent energy release in their nuclei  Active Galactic Nuclei (AGN)  Up to many thousand times more luminous than the entire.

Basics of Cataclysmic Variables iPTF Summer School August 28, 2014 Paula Szkody U of Washington.

BY: Nathan Schmidt Period: 5 Astronomy. A brief history of black holes About 2 centuries ago John Michel was the first person to suggest that it was possible.

Star Properties. Where do stars come from? Stars form in a cloud of dust and gas in space called a nebula.

STARS By Bodin Lay. Types of Stars Main Sequence Stars - The main sequence is the point in a star's evolution during which it maintains a stable nuclear.

Interacting Binary Stars Algol-Type Binaries Geary E. Albright SMP March 2, 2013.

Black Hole Chaos The Environments of the most supermassive black holes in the Universe Belinda Wilkes, Chandra X-ray Center, CfA Francesca Civano, CfA.

IAS, June 2008 Caty Pilachowski. Visible in the Southern Sky Listed in Ptolemy's catalog Discovered by Edmond Halley in 1677 –non-stellar –"luminous spot.

Lecture 9 Stellar Spectra

High energy Astrophysics Mat Page Mullard Space Science Lab, UCL 6. Jets and radio emission.

Ladislav Hric Astronomical Institute Slovak Academy of Sciences Our team: V. Breus P. Dubovský R. Gális N. A. Katysheva E. Kundra S. Yu. Shugarov KOLOS.

New Close Binary Systems (WD + MS) from SDSS (DR 5) And the Search for Magnetic White Dwarfs in Cataclysmic Variable Progenitor Systems Nicole Silvestri.

Goal: To understand binary stars Objectives: 1)To review why we get binary star systems 2)To learn about the 2 different binary star types and how we find.

Detection of the photometric period of the classical nova V2468 Cygni. D. Chochol 1, S.Y. Shugarov 1,2, I.M. Volkov 2, V.P. Goranskij 3 1) Astronomical.

Chandra X-Ray Spectroscopy of DoAr 21: The Youngest PMS Star with a High-Resolution Grating Spectrum The High Energy Grating Spectrum of DoAr 21, binned.

Chapter 27 Stars and Galaxies Section Characteristics of Stars A star is a body of gases that gives off a tremendous amount of radiant energy.

THIS PRESENTAION HAS BEEN RATED BY THE CLASSIFICATION AND RATING ADMINISTRATION TG-13 TEACHERS’ GUIDANCE STRONGLY ADVISED Some Material May Be Unintelligible.

Introduction Star itself Ejecta, Great Eruption in 1840 formed the Homunculus The 5.52 yr periodicity Binary vs shell D = 2.3 kpc.

Peculiar Helium Nova V445 Puppis Vitaly Goranskij, Sternberg Astronomical Institute, Moscow University, Russia also participated or presented their observations.

Astronomy Big Idea: The sun is one of billions of stars in one of billions of galaxies in the universe.

The Radio Millisecond Pulsar PSR J : A Link to Low-Mass X-Ray Binaries Slavko Bogdanov.

(University of Texas at El Paso) (New Mexico State University at Doña Ana) Radio Observations of Cataclysmic Variables Paul A. Mason (University of Texas.

Orbital evolution of compact Black-hole binaries and white dwarf binaries Wencong Chen Astro-ph/ Astro-ph/

Star Life Cycle Review. Transports energy from the radiative zone to the surface of the sun. Sunspot Corona Photosphere Convective zone.

Cataclysmic Variables: A Perfect Testbed for Variability Brokering Paula Szkody University of Washington Santa Barbara May 13, 2015.

Galaxies with Active Nuclei Chapter 14:. Active Galaxies Galaxies with extremely violent energy release in their nuclei (pl. of nucleus).  “active galactic.

Binary Orbits. Orbits Binary Stellar Systems 1/3 to 2/3 of stars in binary systems Rotate around center of mass (barycenter) Period - days to years for.

Active Galaxies and Supermassive Black Holes Chapter 17.

Quasars and Other Active Galaxies

（ 1: Kobe University, 2: Nagoya University, 3: NAOJ) ☆ Abstract ☆ We obtained a high spatial resolution (FWHM ~ 0.1”) near-infrared image of XZ Tau, a.

Jérôme Chenevez INTEGRAL monitoring of unusually Long X-ray bursts Maurizio Falanga Erik Kuulkers Søren Brandt Niels Lund Andrew Cumming Duncan Galloway.

Cataclysmic Variables in K2 Paula Szkody ( U Washington ), Zhibin Dai ( Yunnan Obs ), Peter Garnavich ( Notre Dame ), Mark Kennedy ( ND+Ireland )

A black hole: The ultimate space-time warp Ch. 5.4 A black hole is an accumulation of mass so dense that nothing can escape its gravitational force, not.

Time Domain Astrophysics Stephen Potter South African Astronomical Observatory.

Transient Identification and Classification with WISE Doug Hoffman R. Cutri & T. Jarrett The Eventful Universe, 2010.

Exoplanets: Direct Search Methods 31 March 2016 © 2014 Pearson Education, Inc.

Gamma-Ray Bursts Please press “1” to test your transmitter.

FOUR NEW ECLIPSING CATACLYSMIC VARIABLES FROM THE SDSS John Southworth and Boris Gänsicke Department of Physics, University of Warwick, UK

Earth Science Ms. Cordaro San Marcos High School

Irradiated brown dwarf companions to white dwarf stars

Year 11 Cosmic Engine Terms

Multiwavelength spectroscopy of high accretion rate polars

Saturn’s Auroras from the Cassini Ultraviolet Imaging Spectrograph

Magnetic Field of a Solenoid

Stars and HR Diagrams.

Characteristics of Stars Chapter 3 Section 4 ISN p. 33

Presentation transcript:

The Downside of EF Eridani Frederick M. Walter Stony Brook University There’ve been strange things done to this former sun by the nearby white dwarf star. The twisted yield of the magnetic field draws in matter from afar. The CV crowd would gasp aloud if they could ever see The very queer magnetosphere of EF Eridani.

The SMARTS EF Eri Team Tom Harrison (UNM) Steve Howell (NOAO) Stella Kafka (CalTech) Koji Mukai (GSFC) Axel Schwope (AIP) Paula Szkody (UW)

The Faces of EF Eridani 2 April August 2008

EF Eridani - a History Counterpart of 2A First detected in 1974 by Ariel V Identified as a polar in 1978 Bright soft X-ray source First reported low state: 1990 Extended low state Brief high states in 2006, 2008 (2), 2009

EF Eridani: Characteristics A polar Orbital period: 81 minutes Non-eclipsing Primary: cool WD, T~ 9500K Magnetic field ~ 12 MG Secondary: unseen, M<0.05M  Image: P. Marenfeld/NOAO

EF Eridani - Low State Harrison et al “It’s dead, Jim”

EF Eridani - Low State Howell et al SMARTS 1.5m, 19 October 2004

EF Eridani - Light Curve SMARTS 1.3m/ANDICAM (plus some 0.9m)

EF Eridani - Phased Light Curve 21 August March 2009

Low State Ephemeris Based on the low state B light curve through August 2008  min = JD (heliocentric) P = days (adopted)  min = phase 0.41 in the Bailey et al. (1982) ephemeris

Light Curve Stability Colors represent different observing seasons

Light Curve Instability Mini-accretion event - December 2006  B~0.2  dm/dt ~1.e-14 M  /yr

EF Eridani - Phased Light Curve December 2006

21 August March 2009 Sinusoidal Fits I: 0.07  0.01  min : 0.73  0.02 V:   min : 0.05  0.01 B:   min :  U:   min : 0.01  0.01 EF Eridani - Phased Light Curves

21 August March 2009 Sinusoidal Fits K: 0.57  0.02  min : 0.48  0.02 H: 0.70  0.03  min : 0.60  0.01 J: 0.35  0.06  min : 0.55  0.03

EF Eridani - Phased Light Curves Hot Spot Cyclotron

Wavelength Dependence Low state light curve UV points from Szkody et al. 2006

H  from the Secondary? It’s not quite dead, the spectra said, though the Hydrogen lines are weak But they swerve and they bend and the velocity tends to imply a binary beat. The near-infrared leads one instead to see that the donor is small And the hydrogen plumes ought to consume the secondary in no time at all.

5 years of low state H  SMARTS 1.5m RC spectrograph

H  on Small Telescopes. II CTIO 4.0m Feb Red: H  Blue: H 

H  on a Big Telescope Gemini South/ GMOS 16 Feb 2009

Low State H-  Trailed Spectrum GMOS-S 16 February x 60 seconds

Low State H  Doppler Tomogram GMOS-S 16 February x 60 seconds Caveats: Relation of photometric phase to binary phase unknown System  velocity unknown

The Last High State B mag; duration about 75 days It continues today to perplex ’bout the way that the wind interacts with such passion. Still it brightens some nights, at least at first sight, in a transient and tremulous fashion. When it increases its light and the X-rays get bright you may think that it’s gonna stay high, So you contact the team and push on with your scheme but in 2 months its gone from the sky.

H  in the high state SMARTS/CTIO 1.5m RC

All Velocities +: high o: low (GMOS) -: low (4m)

High/Low State Comparison

Summary. I. EF Eri has a stable low state. The hot spot dominates at UBV There are occasional mini-accretion episodes, with  B up to 0.2 mag Cyclotron emission dominates at JHK No intermediate state has been seen. The high state and low state H  velocities and tomograms show similarities … and differences. H  is not from the secondary, but is from the far side of the center of mass.

Summary. II. The secondary remains unseen. Even in the low state, accretion (including cyclotron) dominates. EF Eri: all accretion, all the time!

There’ve been strange things done to this former sun by the nearby white dwarf star. The twisted yield of the magnetic field draws in matter from afar. The CV crowd would gasp aloud if they could ever see The very queer magnetosphere of EF Eridani. It’s not quite dead, the spectra said, though the Hydrogen lines are weak But they swerve and they bend and the velocity tends to imply a binary beat. The near-infrared leads one instead to see that the donor is small And the hydrogen plumes ought to consume the secondary in no time at all It continues today to perplex ‘bout the way that the wind interacts with such passion. Still it brightens some nights, at least at first sight, in a transient and tremulous fashion. When it increases its light and the X-rays get bright you may think that it’s gonna stay high, So you contact the team and push on with your scheme but in 2 months its gone from the sky. There’ve been strange things done to this former sun by the nearby white dwarf star. The twisted yield of the magnetic field draws in matter from afar. The CV crowd would gasp aloud if they could ever see The very queer magnetosphere of EF Eridani.

High/Low State Comparison