Presentation is loading. Please wait.

Presentation is loading. Please wait.

CHARA Collaboration Year-Five Science Review Closure Phase Interferometry: Lambda Andromedae Rob Parks Georgia State University March 19 th 2009 Nice,

Published byAnissa Hubbard Modified over 8 years ago

Similar presentations

Presentation on theme: "CHARA Collaboration Year-Five Science Review Closure Phase Interferometry: Lambda Andromedae Rob Parks Georgia State University March 19 th 2009 Nice,"— Presentation transcript:

1 CHARA Collaboration Year-Five Science Review Closure Phase Interferometry: Lambda Andromedae Rob Parks Georgia State University March 19 th 2009 Nice, France

2 CHARA Collaboration Year-Five Science Review Thesis Project Interferometric modelling of active giants Study stellar spot characteristics Compare results to measure of B field Began with pilot study of Lam And

3 CHARA Collaboration Year-Five Science Review Committee and Collaborators Advisor Dr. Russel White Committee Dr. William Bagnuolo Dr. Douglas Gies Dr. Hal McAlister Collaborators Dr. Frank Fekel (TSU)‏ Dr. Greg Henry (TSU)‏ Dr. John Monnier (UM)‏ Dr. Ettore Pedretti (St. And)‏ Dr. Gail Schaefer (GSU)‏ Special Thanks Ming‏, Chris, PJ, CHARA team

4 CHARA Collaboration Year-Five Science Review Motivations Better understanding of spot characteristics –Tracer of B fields –Stellar rotation Current spot “imaging” methods problematic –Too little information (light curve inversion)‏ –High dependance on a priori information (doppler tomography)‏

5 CHARA Collaboration Year-Five Science Review Target List Instrumentation criteria –Dec > 5 ° –H mag < 4 th – Θ = 1 – 4 mas Target criterion –Single [truly or SB1] giants – Δ V mag > 0.1 Initially RS CVns E2

6 CHARA Collaboration Year-Five Science Review Auxillery Observations Hard Labor Creek Observatory (GSU) or Fairborn Observatory (TSU)‏ Simultaneous or comtemporaneous Photometry UBV(RI) c –Check to expected flux loss –Measure of effective temperature Spectroscopy R ~ 30,000 –Measure of eff. temp., log g, H α line strength –Could be used to create Doppler map –Could be used to measure B field – Zeeman splitting

7 CHARA Collaboration Year-Five Science Review Pilot Study: Lam And CHARA/MIRC beam combiner –Prefer phase information over spot contrast First epoch –November 17, 2007 Second epoch –August 18 th – 21 st, 2008 Third epoch – September 20 th, 2008

8 CHARA Collaboration Year-Five Science Review Visibility Curve 1 st Lobe: Star Size 2 nd Lobe: Limb-darkening, spot size 3 rd Lobe: Spot size, small-scale structure

9 CHARA Collaboration Year-Five Science Review Visibility Comparison

10 CHARA Collaboration Year-Five Science Review Phase Information

11 CHARA Collaboration Year-Five Science Review Closure Phase

12 CHARA Collaboration Year-Five Science Review “Lambdy Andy” Π = 38.74 ± 0.68 mas vsini = 6.5 km/s P phot = 54.33 days P orb = 20.5212 days H mag = 1.501 Δ V mag = 0.22 SB1, white dwarf companion G8 III M = 0.65 M sun R = 7.5 R sun 11 yr stellar activity cycle (Hall 1991)‏ Donati et al (1995)‏Frasca et al (2008)‏Monnier (unpub.)‏

13 CHARA Collaboration Year-Five Science Review Spot Model 8+ parameters –Star size, limb-darkening coefficient, ellipticity, spot size, spot position [x,y], flux ratio, temp. profile coefficient –Model capable of any number of spots Minimization on visibility or closure phase (Filho 2008)‏ Grey limb-darkening relation: 1-+cos

14 CHARA Collaboration Year-Five Science Review

15 Limb-darkening Disk Size: 2.750 mas Epsil: 0.462 χ 2 V : 9.818

16 CHARA Collaboration Year-Five Science Review Limb-darkening Disk Size: 2.750 mas Epsil: 0.462 χ 2 V : 9.818

17 CHARA Collaboration Year-Five Science Review Elongated Limb-darkening Disk Size: 2.819 mas Epsil: 0.467 Ellip 0.0469 χ 2 V : 8.109

18 CHARA Collaboration Year-Five Science Review Elongated Limb-darkening Disk Size: 2.819 mas Epsil: 0.467 Ellip 0.0469 χ 2 V : 8.109

19 CHARA Collaboration Year-Five Science Review Elongated Limb-darkening Disk w/ Spot Star Size: 2.819 masSpot Size: 1.13 mas Epsil: 0.467 80 pixels Ellip 0.0469x: 60 χ 2 V : 10.847 y: 60 χ 2 C : 0.016

20 CHARA Collaboration Year-Five Science Review Elongated Limb-darkening Disk w/ Spot Star Size: 2.819 masSpot Size: 1.13 mas Epsil: 0.467 80 pixels Ellip 0.0469x: 60 χ 2 V : 10.847 y: 60 χ 2 C : 0.016

21 CHARA Collaboration Year-Five Science Review The News So Far... Closure phase show assymmetries Simple models insufficient Strong signs towards spotted surface

22 CHARA Collaboration Year-Five Science Review Future Plans Improved method of minization Addition of elongation position angle More complicated spot structures Apply to multiple epochs of data Magic happens → Graduate

Download ppt "CHARA Collaboration Year-Five Science Review Closure Phase Interferometry: Lambda Andromedae Rob Parks Georgia State University March 19 th 2009 Nice,"

Similar presentations

Photometric observations of the cataclysmic variable star IP Peg Rakutou High School Kasumi Goto Ayano Terada.

Photometric observations of the cataclysmic variable star IP Peg Rakutou High School Kasumi Goto Ayano Terada.
A NEW CTE PHOTOMETRIC CORRECTION FORMULA FOR ACS Marco Chiaberge TIPS meeting 05/16/2012.

A NEW CTE PHOTOMETRIC CORRECTION FORMULA FOR ACS Marco Chiaberge TIPS meeting 05/16/2012.
X-ray pulsars in wind-fed accretion systems 王 伟 (NAOC) July 2009, Pulsar Summer School Beijing.

X-ray pulsars in wind-fed accretion systems 王 伟 (NAOC) July 2009, Pulsar Summer School Beijing.
Stellar analysis system (SAS*) WP370 T. Appourchaux Institut d’Astrophysique Spatiale, Orsay *SAS= Special Air Service or Son Altesse Sérénissime.

Stellar analysis system (SAS*) WP370 T. Appourchaux Institut d’Astrophysique Spatiale, Orsay *SAS= Special Air Service or Son Altesse Sérénissime.
CHARA Collaboration Year-Five Science Review A Survey of Stellar Families Multiplicity of Solar-type Stars Deepak Raghavan Ph.D. Dissertation Talk March.

CHARA Collaboration Year-Five Science Review A Survey of Stellar Families Multiplicity of Solar-type Stars Deepak Raghavan Ph.D. Dissertation Talk March.
LUAN OCA F.X Schmider, A. Domiciano, R. Petrov, S. Jankov G. Berthomieu, P. Mathias, J. Provost, F. Thevenin C. Catala Measurement of diameter and rotation.

LUAN OCA F.X Schmider, A. Domiciano, R. Petrov, S. Jankov G. Berthomieu, P. Mathias, J. Provost, F. Thevenin C. Catala Measurement of diameter and rotation.
Reviewing the Summer School Solar Labs Nicholas Gross.

Reviewing the Summer School Solar Labs Nicholas Gross.
CHARA/NPOI 2013 Science & Technology Review CHARACTERIZATION OF EXOPLANET HOST STARS AND IMPACT OF PERTURBATING ELEMENTS ROXANNE LIGI, D. MOURARD, K. PERRAUT,

CHARA/NPOI 2013 Science & Technology Review CHARACTERIZATION OF EXOPLANET HOST STARS AND IMPACT OF PERTURBATING ELEMENTS ROXANNE LIGI, D. MOURARD, K. PERRAUT,
The Polarization of Achernar (α Eri, B3Vpe) David McDavid Department of Astronomy University of Virginia.

The Polarization of Achernar (α Eri, B3Vpe) David McDavid Department of Astronomy University of Virginia.
Recent results with VEGA/CHARA Denis MOURARD & VEGA/CHARA groups Observatoire de la Côte d’Azur Laboratoire Lagrange.

Recent results with VEGA/CHARA Denis MOURARD & VEGA/CHARA groups Observatoire de la Côte d’Azur Laboratoire Lagrange.
Pu, Hung-Yi Institute of Astronomy, National Tsing-Hua University The Effects of Photon Path Bending on the Observed Pulse Profile and Spectra of Surface.

Pu, Hung-Yi Institute of Astronomy, National Tsing-Hua University The Effects of Photon Path Bending on the Observed Pulse Profile and Spectra of Surface.
Universe Eighth Edition Universe Roger A. Freedman William J. Kaufmann III CHAPTER 17 The Nature of Stars CHAPTER 17 The Nature of Stars.

Universe Eighth Edition Universe Roger A. Freedman William J. Kaufmann III CHAPTER 17 The Nature of Stars CHAPTER 17 The Nature of Stars.
04/03/2011ARC Meeting, CSL Long baseline interferometry applied to the study of colliding-wind massive binaries: current status and prospects for the near.

04/03/2011ARC Meeting, CSL Long baseline interferometry applied to the study of colliding-wind massive binaries: current status and prospects for the near.
19/02/09ARC Meeting, Colonster Long baseline interferometry applied to the study of massive stars: current observations and prospects for VSI Michaël De.

19/02/09ARC Meeting, Colonster Long baseline interferometry applied to the study of massive stars: current observations and prospects for VSI Michaël De.
Andrea Dupree SAO/CfA New England Space Science Consortium (NESSC) March 1, 2006 Some Stellar Problems of Interest to Solar Physics  Global properties.

Andrea Dupree SAO/CfA New England Space Science Consortium (NESSC) March 1, 2006 Some Stellar Problems of Interest to Solar Physics  Global properties.
The Family of Stars Chapter 8:. Organizing the Family of Stars: The Hertzsprung-Russell Diagram We know: Stars have different temperatures, different.

The Family of Stars Chapter 8:. Organizing the Family of Stars: The Hertzsprung-Russell Diagram We know: Stars have different temperatures, different.
A Galactic halo road map The halo stars : where, whither, whence? Chris Thom, Jyrki Hänninen, Johan Holmberg, Chris Flynn Tuorla Observatory Swinburne.

A Galactic halo road map The halo stars : where, whither, whence? Chris Thom, Jyrki Hänninen, Johan Holmberg, Chris Flynn Tuorla Observatory Swinburne.
Pulsations and magnetic activity in the IR Rafa Garrido & Pedro J. Amado Instituto de Astrofísica de Andalucía, CSIC. Granada.

Pulsations and magnetic activity in the IR Rafa Garrido & Pedro J. Amado Instituto de Astrofísica de Andalucía, CSIC. Granada.
ASTR112 The Galaxy Lecture 6 Prof. John Hearnshaw 10. Galactic spiral structure 11. The galactic nucleus and central bulge 11.1 Infrared observations Galactic.

ASTR112 The Galaxy Lecture 6 Prof. John Hearnshaw 10. Galactic spiral structure 11. The galactic nucleus and central bulge 11.1 Infrared observations Galactic.
Layers of the Solar Atmosphere Corona Chromosphere Photosphere Details of solar activity can be seen more easily in the hotter outer layers, which are.

Layers of the Solar Atmosphere Corona Chromosphere Photosphere Details of solar activity can be seen more easily in the hotter outer layers, which are.

Similar presentations

Ads by Google