The greatest flare of a Soft Gamma Repeater

Slides:

Advertisements

Similar presentations

Magnetars are magnetically powered, rotating neutron stars.

Advertisements

Isolated Neutron Stars: From the Surface to the Interiors.

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

Magnetars: SGRs and AXPs. Magnetars in the Galaxy ~7 SGRs, ~12 AXPs, plus candidates, plus radio pulsars with high magnetic fields (about them see arXiv:

The Radio Afterglow produced by the Giant Flare from the Magnetar SGR Greg Taylor (NRAO/KIPAC) with: J. Granot, B. M. Gaensler, C. Kouveliotou,

SOFT GAMMA REPEATERS Kevin Hurley UC Berkeley Space Sciences Laboratory THE SGR-SHORT BURST CONNECTION Kevin Hurley UC Berkeley Space Sciences Laboratory.

Ryo Yamazaki (Osaka University, Japan) With K. Ioka, F. Takahara, and N. Shibazaki.

A giant flare from the magnetar SGR a tsunami of gamma-rays Søren Brandt Danish National Space Center.

13 th July 2005Poonam Chandra The most violent bomb-blast in our Galaxy in 100 years SGR Poonam Chandra TIFR, Mumbai.

The Magnetar Primer Shriharsh P. Tendulkar California Institute of Technology S. R. Kulkarni P. B. Cameron.

Vicky Kaspi, McGill University, Montreal, Canada.

Relativistic Reconnection Driven Giant Flares of SGRs Cong Yu ( 余聪 ) Yunnan Observatories Collaborators : Lei Huang Zhoujian Cao.

Neutron Stars 2: Phenomenology Andreas Reisenegger Depto. de Astronomía y Astrofísica Pontificia Universidad Católica de Chile Chandra x-ray images of.

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

Radio-quiet Isolated Neutron Stars (RQINs) Jeng-Lwen, Chiu Institute of Astronomy, NTHU 2004/09/30.

Stephen C.-Y. Ng McGill University Jun 22, 2010HKU Fermi Workshop Neutron Star Zoo: radio pulsars, magnetars, RRATs, CCOs, and more Special thanks to Vicky.

Neutron stars. Lecture 1. Sergei Popov (SAI MSU).

1. White Dwarf If initial star mass < 8 M Sun or so. (and remember: Maximum WD mass is 1.4 M Sun, radius is about that of the Earth) 2. Neutron Star If.

1 Magnetars origin and progenitors with enhanced rotation S.B. Popov, M.E. Prokhorov (Sternberg Astronomical Institute) (astro-ph/ ) Poster N 21.

How many short duration Gamma Ray Bursts could be giant flares from Soft Gamma Repeaters? How many short duration Gamma Ray Bursts could be giant flares.

SLAC, May 18 th Magnetars, SGRs, and QPOs Marcus Ziegler Santa Cruz Institute for Particle Physics Gamma-ray Large Area Space Telescope.

Making magnetars: isolated from binaries Sergei Popov Alexei Bogomazov, Mikhail Prokhorov (astro-ph/ ; arXiv: )

Soft gamma repeaters outside the Local group S.B. Popov, B.E. Stern (astro-ph/ ; astro-ph/ )

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.

Short Bursts Daniel Perley Astro November 2005.

Origin of magnetars and observability of soft gamma repeaters outside the Local group S.B. Popov (Sternberg Astronomical Institute) Co-authors: M.E. Prokhorov,

1 Soft gamma repeaters outside the Local group S.B. Popov, B.E. Stern (astro-ph/ ; astro-ph/ ) Physics of Neutron Stars– June 2005.

SGR activity in time Sergei Popov (SAI MSU) (HEA-2006, December 2006 Moscow, IKI)

Magnetars. X-ray Binaries-I.. Diagram from 1994 Magnetars, High B field Pulsars unknown!

SOFT GAMMA REPEATERS Kevin Hurley UC Berkeley Space Sciences Laboratory SOFT GAMMA REPEATERS AN OBSERVATIONAL REVIEW Kevin Hurley UC Berkeley Space Sciences.

Neutron Stars 2: Phenomenology Andreas Reisenegger ESO Visiting Scientist Associate Professor, Pontificia Universidad Católica de Chile Chandra x-ray.

Plasma universe Fluctuations in the primordial plasma are observed in the cosmic microwave background ESA Planck satellite to be launched in 2007 Data.

SGR/AXP - are they magnetars? G.S.Bisnovatyi-Kogan Space Research Institute of RAS, Moscow, Russia, and National Research Nuclear University “MEPhI”, Moscow,

Magnetars are strongly magnetized neutron stars with surface magnetic fields of ~10 14 G. Based on observational and theoretical studies, 7 soft gamma.

Magnetars: SGRs and AXPs. Magnetars in the Galaxy ~11 SGRs, ~12 AXPs, plus 5 candidates, plus radio pulsars with high magnetic fields (about them see.

CEA DSM Dapnia SAp Diego Gotz - Hard X-ray tails in Magnetars 15/05/ Hard X-ray Tails in Magnetars A Case Study for Simbol-X Diego Götz CEA Saclay.

Radio Emissions of Magnetars & Observations at Nanshan Xinjiang Astronomical Observatory Yuan Jianping, Wang Na, Liu Zhiyong Outline  Introduction of.

On Young Neutron Stars as Propellers and Accretors Ma Bo, Department of Astronomy, Nju, Nanjing Citations: Alpar,M.A.,APJ554,1245,2000 Illarionov and Sunyaev.1975.

Observations of AXPs and SGRs: 1E and SGR Andrea Tiengo (IASF-MI, Univ. Milano) S. Mereghetti, G. L. Israel, L. Stella, S. Zane, A.

Neutrinos and TeV photons from Soft Gamma Repeater giant flares Neutrino telescopes can be used as TeV  detectors for short time scale events using 

INPE Advanced Course on Compact Objects Course IV: Accretion Processes in Neutron Stars & Black Holes Ron Remillard Kavli Center for Astrophysics and Space.

MAGNETARS Vicky Kaspi Montreal, Canada STScI May 10, 2006.

Cosmological Heavy Ion Collisions: Colliding Neutron Stars and Black Holes Chang-Hwan Lee

The Vigorous Afterlife of Massive Stars Kristen Menou Institut d’Astrophysique de Paris (IAP)

Origin of magnetars and observability of soft gamma repeaters outside the Local group S.B. Popov (Sternberg Astronomical Institute) Co-authors: M.E. Prokhorov,

Magnetars in the Fermi Era On behalf of the Fermi/GBM Magnetar Team C. Kouveliotou (PI, NASA/MSFC) E. Gogus, Y. Kaneko (Sabanci University, Turkey) E.

The Zoo Of Neutron Stars Sergei Popov (SAI MSU) ( JINR, Dubna, August 30, 2006.

Radio Emitting Magnetars Jason Hessels, Feb. 22, 2007 Anton Pannekoek Institute - Pizza Seminar.

Wishing you many years of happiness, health, and pulsars. Happy Birthday, Wim!

Variability of cosmic Gamma-Ray Burst (II)

Core Collapse Supernovae and Neutron Star Kicks

Isolated Neutron Stars. Intro.

The Zoo Of Neutron Stars

Gravitational Waves from Magnetars

Lecture 1 Isolated Neutron Stars. Intro.

Magnetars: SGRs and AXPs

Isolated Neutron Stars. Intro.

Millisecond extragalactic radio bursts as magnetar flares

Soft gamma repeaters outside the Local group

Isolated Neutron Stars for ART, eROSITA and LOBSTER

Magnetars Jared Filseth.

44th Rencontres de Moriond

J.A. Pons, J.A. Miralles, P.A. Boldin, B. Posselt

Lecture 4. Magnetars: SGRs and AXPs

Lecture 4. Magnetars: SGRs and AXPs

Soft gamma repeaters outside the Local group

Magnetars: SGRs and AXPs

Magnetars: SGRs and AXPs

Magnetars with Insight-HXMT

Presentation transcript:

The greatest flare of a Soft Gamma Repeater On December 27 2004 the greatest flare from SGR 1806-20 was detected by many satellites: Swift, RHESSI, Konus-Wind, Coronas-F, Integral, HEND, … 100 times brighter than ever! Palmer et al. Astro-ph/0503030

Подборку оригинальных статей можно найти здесь: http://xray. sai. msu Подборку оригинальных статей можно найти здесь: http://xray.sai.msu.ru/~polar/sci_rev/05_02_15-28.html

Magnetars in the Galaxy 4 SGRs, 8 AXPs, plus candidates, plus radio pulsars with high magnetic fields … Young objects (about 104 yrs). Probably about 10% of all NSs.

Alternative theory Fossil disk Mereghetti, Stella 1995 Van Paradijs et al.1995 Alpar 2001 Marsden et al. 2001 Problems ….. How to generate strong bursts?

Why “magnetars”? dE/dt > dErot/dt By definition: magnetically-powered NSs P-Pdot Direct field measurements (Ibrahim et al.)

Known magnetars AXPs SGRs CXOU 010043.1-72 0526-66 4U 0142+61 1627-41 1 RXS J170849-40 XTE J1810-197 1E 1841-045 AX J1844-0258 1E 2259+586 SGRs 0526-66 1627-41 1806-20 1900+14 +candidates

Magnetic field measurements Direct measurement of the magnetic field of the SGR Spin-down Long periods Ibrahim et al. 2002

Are SGRs and AXPs relatives? SGR-like bursts from AXPs Spectral properties Quiet periods of SGRs (0525-66 since 1983) Gavriil et al. 2002

Historical notes 05 March 1979. Cone experiment. Venera-11,12 (Mazets et al.) Event in LMC. SGR 0520-66. Fluence: about 10-3 erg/cm2 Mazets et al. 1979

Main types of activity of SGRs Weak burst. L<1041 erg/s Intermed. bursts.L=1041–1043 erg/s Giant bursts. L<1045 erg/s Hyperflares. L>1046 erg/s See a review in Woods, Thompson astro-ph/0406133

Common (weak) bursts from SGRS and AXPs Typical burst from SGR 1806-29, SGR 1900+14 and from AXP 1E 2259+586 observed by RXTE (from Woods, Thompson, 2004, astro-ph/0406133) (from Woods, Thompson 2004)

Intermediate SGR bursts Four intermediate bursts. However, the forth is sometimes considered as a giant one (from Woods, Thompson) (from Woods, Thompson 2004)

Giant flare from SGR 1900+14 (27 Aug 1998) Data from Ulysses (figure from Hurley et al. 1999a) Spike 0.35 sec P=5.16 sec L>3 1044 erg/s ETOTAL>1044 erg Influenced the Earth ionosphere Hurley et al. 1999

27 Dec 2004 giant outburst of SGR 1806-20 Spike 0.2 sec Fluence 1 erg/cm2 E(spike)3.5 1046 erg L(spike)1.8 1047 erg/s Long tail (400 s) P=7.65 s E(tail) 1.6 1044 erg Distance 15 kpc

Konus-Wind data om SGR 1806-20 27 Dec 2004 flare Mazets et al. 2005

SGR giant flares vs. GRBs Woods et al.

SGRs and starformation Possibility of a SGR detection outside the Local group of galaxies Starforming galaxies are the best sites for a search <5 Mpc. M82, M83, NGC 253 About 40 Mpc. Arp 299, NGC 3256 Possible candidates in the BATSE catalogue of short GRBs (Popov, Stern 2005)

Theory of magnetars Thompson, Duncan ApJ 408, 194 (1993) Entropy-driven convection in young NSs generate strong magnetic field Twist of magnetic field lines

Magnetars origin (a speculative discussion) Fast rotation is necessary (Thompson, Duncan) Spin-up of a progenitor star in a binary via accretion or synchronization Coalescence About 10% of NSs (Popov, Prokhorov 2005)