Presentation is loading. Please wait.

Presentation is loading. Please wait.

Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/0505406)

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/0505406)"— Presentation transcript:

1 Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/0505406)

2 Popov, Prokhorov astro-ph/0505406 2 Abstract We present population synthesis calculations of binary systems. Our goal is to estimate the number of neutron stars originated from progenitors with enhanced rotation, as such compact objects can be expected to have large magnetic fields, i.e. they can be magnetars. The fraction of such neutron stars in our calculations is about 13-16 %. Most of these objects are isolated due to coalescences of components prior to a neutron star formation, or due to a system disruption after a supernova explosion. The fraction of such neutron stars in survived binaries is about 1% or lower, i.e. magnetars are expected to be isolated objects. Their most numerous companions are black holes.

3 Popov, Prokhorov astro-ph/0505406 3 Magnetars in the Galaxy 4 SGRs, 8 AXPs, plus candidates, plus radio pulsars with high magnetic fields … Young objects (about 10 4 yrs). Probably about 10% of all NSs.

4 Popov, Prokhorov astro-ph/0505406 4 A question: 10 % of NSs are expected to be binary. All known magnetars (or candidates) are single objects. At the moment from the statistical point of view it is not a miracle, however, it’s time to ask this question. Why do all magnetars are isolated? Two possible explanations Large kick velocities Particular evolutionary path

5 Popov, Prokhorov astro-ph/0505406 5 Magnetars origin Probably, magnetars are isolated due to their origin Fast rotation is necessary (Thompson, Duncan) Two possibilities to spin-up during evolution in a binary 1) Spin-up of a progenitor star in a binary via accretion or synchronization 2) Coalescence

6 Popov, Prokhorov astro-ph/0505406 6 The code We use the “Scenario Machine” code. Developed in SAI (Moscow) since 1983 by Lipunov, Postnov, Prokhorov et al. (http://xray.sai.msu.ru/~mystery/articles/review/ ) We run the population synthesis of binaries to estimate the fraction of NS progenitors with enhanced rotation.

7 Popov, Prokhorov astro-ph/0505406 7 The model Among all possible evolutionary paths that result in formation of NSs we select those that lead to angular momentum increase of progenitors. Coalescence prior to a NS formation. Roche lobe overflow by a primary. Roche lobe overflow by a primary with a common envelope. Roche lobe overflow by a secondary without a common envelope. Roche lobe overflow by a secondary with a common envelope.

8 Popov, Prokhorov astro-ph/0505406 8 Parameters We run the code for two values of the parameter α q which characterizes the mass ratio distribution of components, f(q), where q is the mass ratio. At first, the mass of a primary is taken from the Salpeter distribution, and then the q distribution is applied. f(q)~q α q, q=M 1 /M 2 <1 We use α q =0 (flat distribution, i.e. all variants of mass ratio are equally probable) and α q =2 (close masses are more probable, so numbers of NS and BH progenitors are increased in comparison with α q =0).

9 Popov, Prokhorov astro-ph/0505406 9 Results of calculations

10 Popov, Prokhorov astro-ph/0505406 10 Coalescence of helium stars Fryer and Heger (2005) suggested a scenario in which a GRB progenitor is formed after a coalescence of two helium stars. We estimate the rate of BH formation after a coalescence of two helium stars as 10 -6 yr -1 for α q =0 5 10 -6 yr -1 for α q =2 It is too low to explain the rate of GRB

11 Popov, Prokhorov astro-ph/0505406 11 Conclusions We made population synthesis of binary systems to derive the relative number of NSs originated from progenitors with enhanced rotation -``magnetars''. With an inclusion of single stars (with the total number equal to the total number of binaries) the fraction of ``magnetars'‘ is ~13-16%. Most of these NSs are isolated due to coalescences of components prior to NS formation, or due to a system disruption after a SN explosion. The fraction of ``magnetars'' in survived binaries is about 1% or lower. The most numerous companions of ``magnetars'' are BHs.

Download ppt "Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/0505406)"

Similar presentations

Magnetars in Supernova Remnants & Magnetar Formation Jacco Vink Isolated NSs, London, April, 2006 Magnetars in Supernova Remnants & Magnetar Formation.

Magnetars in Supernova Remnants & Magnetar Formation Jacco Vink Isolated NSs, London, April, 2006 Magnetars in Supernova Remnants & Magnetar Formation.
Neutron Stars: Insights into their Formation, Evolution & Structure from their Masses and Radii Feryal Ozel University of Arizona In collaboration with.

Neutron Stars: Insights into their Formation, Evolution & Structure from their Masses and Radii Feryal Ozel University of Arizona In collaboration with.
Compact remnant mass function: dependence on the explosion mechanism and metallicity Reporter: Chen Wang 06/03/2014 Fryer et al. 2012, ApJ, 749, 91.

Compact remnant mass function: dependence on the explosion mechanism and metallicity Reporter: Chen Wang 06/03/2014 Fryer et al. 2012, ApJ, 749, 91.
Accretion in Binaries Two paths for accretion –Roche-lobe overflow –Wind-fed accretion Classes of X-ray binaries –Low-mass (BH and NS) –High-mass (BH and.

Accretion in Binaries Two paths for accretion –Roche-lobe overflow –Wind-fed accretion Classes of X-ray binaries –Low-mass (BH and NS) –High-mass (BH and.
HOW MANY NEUTRON STARS ARE BORN RAPIDLY ROTATING? HOW MANY NEUTRON STARS ARE BORN RAPIDLY ROTATING? NIKOLAOS STERGIOULAS DEPARTMENT OF PHYSICS ARISTOTLE.

HOW MANY NEUTRON STARS ARE BORN RAPIDLY ROTATING? HOW MANY NEUTRON STARS ARE BORN RAPIDLY ROTATING? NIKOLAOS STERGIOULAS DEPARTMENT OF PHYSICS ARISTOTLE.
Vicky Kalogera Jeremy Sepinsky with Krzysztof Belczynski X-Ray Binaries and and Super-Star Clusters Super-Star Clusters.

Vicky Kalogera Jeremy Sepinsky with Krzysztof Belczynski X-Ray Binaries and and Super-Star Clusters Super-Star Clusters.
Radio-quiet Isolated Neutron Stars (RQINs) Jeng-Lwen, Chiu Institute of Astronomy, NTHU 2004/09/30.

Radio-quiet Isolated Neutron Stars (RQINs) Jeng-Lwen, Chiu Institute of Astronomy, NTHU 2004/09/30.
Neutron Star Formation and the Supernova Engine Bounce Masses Mass at Explosion Fallback.

Neutron Star Formation and the Supernova Engine Bounce Masses Mass at Explosion Fallback.
Black holes: Introduction. 2 Main general surveys astro-ph/0610657 Neven Bilic BH phenomenology astro-ph/0604304 Thomas W. Baumgarte BHs: from speculations.

Black holes: Introduction. 2 Main general surveys astro-ph/ Neven Bilic BH phenomenology astro-ph/ Thomas W. Baumgarte BHs: from speculations.
1 Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/0505406) Poster N 21.

1 Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/ ) Poster N 21.
Formation and evolution of magnetars Sergei Popov (SAI MSU) J.A. Pons, J.A. Miralles, P.A. Boldin, B. Posselt, MNRAS (2009) arXiv: 0910.2190 A.Bogomazov,

Formation and evolution of magnetars Sergei Popov (SAI MSU) J.A. Pons, J.A. Miralles, P.A. Boldin, B. Posselt, MNRAS (2009) arXiv: A.Bogomazov,
Understanding LMXBs in Elliptical Galaxies Vicky Kalogera.

Understanding LMXBs in Elliptical Galaxies Vicky Kalogera.
Making magnetars: isolated from binaries Sergei Popov Alexei Bogomazov, Mikhail Prokhorov (astro-ph/0505406; arXiv:0905.3238)

Making magnetars: isolated from binaries Sergei Popov Alexei Bogomazov, Mikhail Prokhorov (astro-ph/ ; arXiv: )
Close-by young isolated NSs: A new test for cooling curves Sergei Popov (Sternberg Astronomical Institute) Co-authors: H.Grigorian, R. Turolla, D. Blaschke.

Close-by young isolated NSs: A new test for cooling curves Sergei Popov (Sternberg Astronomical Institute) Co-authors: H.Grigorian, R. Turolla, D. Blaschke.
Close-by young isolated NSs: A new test for cooling curves Sergei Popov (Sternberg Astronomical Institute) Co-authors: H.Grigorian, R. Turolla, D. Blaschke.

Close-by young isolated NSs: A new test for cooling curves Sergei Popov (Sternberg Astronomical Institute) Co-authors: H.Grigorian, R. Turolla, D. Blaschke.
X-ray binaries. Rocket experiments. Sco X-1 Giacconi, Gursky, Hendel 1962.

X-ray binaries. Rocket experiments. Sco X-1 Giacconi, Gursky, Hendel 1962.
New adventures of Uncatchables Sergei Popov, Bettina Posselt (astro-ph/0609275 and work in progress)

New adventures of Uncatchables Sergei Popov, Bettina Posselt (astro-ph/ and work in progress)
Population synthesis with dynamics Natasha Ivanova MODEST-6 August 2005 or the problems that we face.

Population synthesis with dynamics Natasha Ivanova MODEST-6 August 2005 or the problems that we face.
Kick velocity Why do neutron stars move so rapidly?

Kick velocity Why do neutron stars move so rapidly?
Two stories from the life of binaries: getting bigger and making magnetars Sergei Popov, Mikhail Prokhorov (SAI MSU) This week SAI celebrates its 175 anniversary.

Two stories from the life of binaries: getting bigger and making magnetars Sergei Popov, Mikhail Prokhorov (SAI MSU) This week SAI celebrates its 175 anniversary.

Similar presentations

Ads by Google