Presentation is loading. Please wait.

Presentation is loading. Please wait.

Pre-supernova mass-loss predictions for massive stars

Published byBùi Lý Modified over 5 years ago

Similar presentations

Presentation on theme: "Pre-supernova mass-loss predictions for massive stars"— Presentation transcript:

1 Pre-supernova mass-loss predictions for massive stars
Jorick Vink (Keele University)

2 Outline Introduction Mass loss predictions OB & WR - f(Z)
Mass loss predictions OB & LBV - f(T) Radio SNe with variable CSM Summary

3 Evolution of a Massive Star

4 Radiation-driven wind by Lines
Lucy & Solomon (1970) Castor, Abbott & Klein (1975) = CAK Wind STAR Fe dM/dt = f (Z, L, M, Teff)

5 Radiation-driven wind by Lines
Abbott & Lucy (1985) dM/dt = f (Z, L, M, Teff)

6 OB Mass loss parameter study

7 Wind momenta for Galactic O stars
Models Vink, de Koter & Lamers (2000)

8 Vink et al. (2001) Mokiem et al. (2007)
Wind momenta at low Z Data (Mokiem) Models (Vink) Vink et al. (2001) Mokiem et al. (2007)

9 Which element drives WR winds?
- Fe  WR mass loss depends on Z host - C  it does NOT depend on Z host

10 Z-dependence of WR winds
WN WC Vink & de Koter (2005, A&A 442, 587)

11 This is a gif file Lamers et al. (1995), Crowther et al. (2006) Vink et al. (1999): Fe IV III

12 Stars should pass the bistable limit
During evolution from O  B LBVs on timescales of years

13 LBVs in the HRD Smith, Vink & de Koter (2004)

14 The mass loss of LBVs Stahl et al. (2001) Vink & de Koter (2002)
Models Data Stahl et al. (2001) Vink & de Koter (2002)

15 Stars should pass the bistable limit
During evolution from O  B LBVs on timescales of years Implications for circumstellar medium (CSM) Mass-loss rate up ~ 2 wind velocity down ~ 2 CSM density variations ~ 4

16 Radio Supernovae S=Flux SN Ic 1990B Weiler et al. (2000) Time

17 SN-CSM interaction  radio
Weiler et al. (2002)

18 Mass Loss Results from Radio SNe
OB star? WR?

19 CSM: a constant mass-loss rate
Wind Density Radius

20 CSM: a varying LBV mass-loss rate
Wind Density Radius

21 The Radio SN 2001ig Ryder et al. (2004)

22 The Radio SN 2001ig Ryder et al. (2004)  t = 150 days

23 Predicted period AGB star  w = 10 km/s  Period = 50 years
Ryder et al. (2004) AGB star  w = 10 km/s  Period = 50 years

24 Predicted period AGB star  w = 10 km/s  Period = 50 years
Ryder et al. (2004) AGB star  w = 10 km/s  Period = 50 years LBV  w = 100 km/s  Period = 5 years ! Kotak & Vink (2006)

25 WR Binary Pinwheel nebulae?
Tuthill et al. (1999) But……

26 2003bg: the twin of 2001ig 2003bg , 2001ig Soderberg et al. (2006)

27 Progenitors AGB star Binary WR system WR star LBV b

28 Progenitors AGB star Binary WR system WR star LBV Kotak & Vink (2006)

29 Speculation on Radio SNe that show sinusoidal variations
H-rich H-poor OB/RSG  LBV  WR SN II  ?  Ibc

30 Summary Monte Carlo mass loss predictions successful:
 OB & WR stars as a function of Z  The bistability jump between O and B  LBV mass loss variability Radio SNe with (quasi)-sinusoidal modulations may have LBV progenitors

31

32 The bi-stability Jump HOT Fe IV low dM/dt high V(inf) Low density COOL
Fe III dM/dt = 5 dM/dt HOT V(inf) = ½ vinf HOT High density = 10 HOT

Download ppt "Pre-supernova mass-loss predictions for massive stars"

Similar presentations

Observations with MOST Pulsations in Wolf-Rayet stars : André-Nicolas Chené (NRC/HIA/CGO) Anthony F. J. Moffat (Université de Montréal) André-Nicolas Chené.

Observations with MOST Pulsations in Wolf-Rayet stars : André-Nicolas Chené (NRC/HIA/CGO) Anthony F. J. Moffat (Université de Montréal) André-Nicolas Chené.
Insights from Radio Wavelengths into Supernova Progenitors Laura Chomiuk Jansky Fellow, Michigan State University.

Insights from Radio Wavelengths into Supernova Progenitors Laura Chomiuk Jansky Fellow, Michigan State University.
14 May 2004ALMA Workshop UMD Margaret Meixner (STScI) Stars and Their Evolution: as viewed by ALMA Margaret Meixner STScI.

14 May 2004ALMA Workshop UMD Margaret Meixner (STScI) Stars and Their Evolution: as viewed by ALMA Margaret Meixner STScI.
The Flavours of SN II Light Curves Iair (“ya-eer”) Arcavi Advisor: Avishay Gal-Yam.

The Flavours of SN II Light Curves Iair (“ya-eer”) Arcavi Advisor: Avishay Gal-Yam.
Possible contributions of the Groupe d’Astrophysique des Hautes Energies (GAPHE) to the GAIA data processing Eric Gosset, Gregor Rauw, Yaël Nazé & Hugues.

Possible contributions of the Groupe d’Astrophysique des Hautes Energies (GAPHE) to the GAIA data processing Eric Gosset, Gregor Rauw, Yaël Nazé & Hugues.
From Progenitor to Afterlife Roger Chevalier SN 1987AHST/SINS.

From Progenitor to Afterlife Roger Chevalier SN 1987AHST/SINS.
Metallicity Dependent Wolf-Rayet winds Metallicity Dependent Wolf-Rayet winds PAUL CROWTHER.

Metallicity Dependent Wolf-Rayet winds Metallicity Dependent Wolf-Rayet winds PAUL CROWTHER.
LOCATions of WR stars, SNE IB/c and GRBs Giorgos Leloudas Oskar Klein Centre, Stockholm University IAU 279, Nikko, 8 March 2012.

LOCATions of WR stars, SNE IB/c and GRBs Giorgos Leloudas Oskar Klein Centre, Stockholm University IAU 279, Nikko, 8 March 2012.
 Wolf-Rayet Stars & the Luminous Blue Variables 2014/11/12 Wednesday Luqian Wang.

 Wolf-Rayet Stars & the Luminous Blue Variables 2014/11/12 Wednesday Luqian Wang.
2005-10-16 Bing Jiang, Astronomy Department, NJU 1 Progenitors of SN Ia : Circumstellar Interaction, Rotation, and Steady Interaction, Rotation, and Steady.

Bing Jiang, Astronomy Department, NJU 1 Progenitors of SN Ia : Circumstellar Interaction, Rotation, and Steady Interaction, Rotation, and Steady.
Engine-Driven Supernovae Alicia M. Soderberg Caltech Astronomy Dept. Zwicky Supernova Workshop January 17 2004.

Engine-Driven Supernovae Alicia M. Soderberg Caltech Astronomy Dept. Zwicky Supernova Workshop January
NASA's Chandra Sees Brightest Supernova Ever N. Smith et al. 2007, astro-ph/0612617v2.

NASA's Chandra Sees Brightest Supernova Ever N. Smith et al. 2007, astro-ph/ v2.
Hot Gas in Planetary Nebulae You-Hua Chu Robert A. Gruendl Martín A. Guerrero Univ. of Illinois.

Hot Gas in Planetary Nebulae You-Hua Chu Robert A. Gruendl Martín A. Guerrero Univ. of Illinois.
I.1 ii.2 iii.3 iv.4 1+1=. i.1 ii.2 iii.3 iv.4 1+1=

I.1 ii.2 iii.3 iv.4 1+1=. i.1 ii.2 iii.3 iv.4 1+1=
A Broader Perspective on the GRB-SN Connection Alicia M. Soderberg Caltech Schramm Symposium, Dec 11 2005.

A Broader Perspective on the GRB-SN Connection Alicia M. Soderberg Caltech Schramm Symposium, Dec
Radio studies of mysterious Type IIn supernovae Poonam Chandra National Centre for Radio Astrophysics Tata Institute of Fundamental Research Collaborators:

Radio studies of mysterious Type IIn supernovae Poonam Chandra National Centre for Radio Astrophysics Tata Institute of Fundamental Research Collaborators:
Stellar Winds and Mass Loss Brian Baptista. Summary Observations of mass loss Mass loss parameters for different types of stars Winds colliding with the.

Stellar Winds and Mass Loss Brian Baptista. Summary Observations of mass loss Mass loss parameters for different types of stars Winds colliding with the.
Lots of Dust from Massive Galactic WR Stars Tony Moffat – Univ. de Montréal Sergey Marchenko – Science Systems and Applications Inc., Lanham, MD M1-67/WR124.

Lots of Dust from Massive Galactic WR Stars Tony Moffat – Univ. de Montréal Sergey Marchenko – Science Systems and Applications Inc., Lanham, MD M1-67/WR124.
1 GRB, SN and identification of the hosts GRB, SN and identification of the hosts Valentina Grieco by means of evolution models chemical Trieste, 28 nov.

1 GRB, SN and identification of the hosts GRB, SN and identification of the hosts Valentina Grieco by means of evolution models chemical Trieste, 28 nov.
STUDYING NEBULAE EJECTED FROM MASSIVE STARS WITH HERSCHEL Chloi Vamvatira-Nakou ARC meeting - 11 February 2010 Centre Spatiale de Liège (CSL) (PhD student.

STUDYING NEBULAE EJECTED FROM MASSIVE STARS WITH HERSCHEL Chloi Vamvatira-Nakou ARC meeting - 11 February 2010 Centre Spatiale de Liège (CSL) (PhD student.

Similar presentations

Ads by Google