Presentation is loading. Please wait.

Presentation is loading. Please wait.

MAGNETARS AS COOLING NEUTRON STARS WITH MAGNETARS AS COOLING NEUTRON STARS WITH INTERNAL HEATING INTERNAL HEATING A.D. Kaminker, D.G. Yakovlev, A.Y. Potekhin,

Published byJesus Millsap Modified over 10 years ago

Similar presentations

Presentation on theme: "MAGNETARS AS COOLING NEUTRON STARS WITH MAGNETARS AS COOLING NEUTRON STARS WITH INTERNAL HEATING INTERNAL HEATING A.D. Kaminker, D.G. Yakovlev, A.Y. Potekhin,"— Presentation transcript:

1 MAGNETARS AS COOLING NEUTRON STARS WITH MAGNETARS AS COOLING NEUTRON STARS WITH INTERNAL HEATING INTERNAL HEATING A.D. Kaminker, D.G. Yakovlev, A.Y. Potekhin, N. Shibazaki*, P. Sternin, and O.Y. Gnedin** Ioffe Physical Technical Institute, St.-Petersburg, Russia *Rikkyo University, Tokyo 171-8501, Japan **Ohio State University, 760 1/2 Park Street, Columbus, OH 43215, USA Conclusions Introduction Physics input Games with cooling code

2 Thermal balance: Photon luminosity: Heat blanketing envelope: Heat content: Cooling theory with internal heating Main cooling regulators: 1. EOS 2. Neutrino emission 3. Reheating processes 4. Superfluidity 5. Magnetic fields 6. Light elements on the surface Heat transport: - effective thermal conductivity

3 1. EOS: APR III (n, p, e, µ) Gusakov et al. (2005) Akmal-Pandharipande-Ravenhall (1998) -- neutron star models Parametrization: Heiselberg & Hiorth-Jensen (1999) 2. Heat blanketing envelope: -- relation; surface temperature, -- effective temperature; -- surface element

4 1- SGR 1900+14 2- SGR 0526-66 3- AXP 1E 1841-045 4- AXP 1RXS J170849-400910 5- AXP 4U 0142+61 6- AXP 1E 2259+586

5 H H0H0 3. Model of heating: at i ii iii iv

6 No isothermal stage Core — crust decoupling 1- SGR 1900+14 2- SGR 0526-66 3- AXP 1E 1841-045 4- AXP 1RXS J170849-400910 5- AXP 4U 0142+61 6- AXP 1E 2259+586 Only outer layers of heating are appropriate for hottest NSs

7 Necessary energy input vrs. photon luminosity into the layer

8 Direct Urca process included Enchanced thermal conductivity Appearance of isothermal layers fromto

9 Conclusions 1.High thermal state of magnetars demand a powerful reheating 2. The heating should be located in a thin layer at : in the outer crust.The heat intensity should range from to Deeper heating would be extremely inefficient due to neutrino radiation 4.Pumping huge energy into deeper layers can not increase -- 5.. Temperature distributions within NS are strongly nonuniform due to thermal decoupling of the outer crust from the inner parts of the star 3. Only ~ 1% of the total energy released in the heat layer can be spent to heat the NS surface

Download ppt "MAGNETARS AS COOLING NEUTRON STARS WITH MAGNETARS AS COOLING NEUTRON STARS WITH INTERNAL HEATING INTERNAL HEATING A.D. Kaminker, D.G. Yakovlev, A.Y. Potekhin,"

Similar presentations

Isolated Neutron Stars: From the Surface to the Interiors.

Isolated Neutron Stars: From the Surface to the Interiors.
1 Degenerate stars There is not a sharp transition between relativistically degenerate and non- relativistically degenerate gas. Similarly there is no.

1 Degenerate stars There is not a sharp transition between relativistically degenerate and non- relativistically degenerate gas. Similarly there is no.
Proton Cyclotron Lines in Thermal Magnetar Spectra S. Zane, R. Turolla, L. Stella and A. Treves Mullard Space Science Laboratory UCL, University of Padova,

Proton Cyclotron Lines in Thermal Magnetar Spectra S. Zane, R. Turolla, L. Stella and A. Treves Mullard Space Science Laboratory UCL, University of Padova,
Envelopes and thermal radiation of neutron stars with strong magnetic fields Alexander Y. Potekhin 1 in collaboration with D.G.Yakovlev, 1 A.D.Kaminker,

Envelopes and thermal radiation of neutron stars with strong magnetic fields Alexander Y. Potekhin 1 in collaboration with D.G.Yakovlev, 1 A.D.Kaminker,
Catania, October 2012, THERMAL EVOLUTION OF NEUTRON STARS: Theory and observations D.G. Yakovlev Ioffe Physical Technical Institute, St.-Petersburg, Russia.

Catania, October 2012, THERMAL EVOLUTION OF NEUTRON STARS: Theory and observations D.G. Yakovlev Ioffe Physical Technical Institute, St.-Petersburg, Russia.
Compact neutron stars Theory & Observations Hovik Grigorian Yerevan State University Summer School Dubna – 2012.

Compact neutron stars Theory & Observations Hovik Grigorian Yerevan State University Summer School Dubna – 2012.
THERMAL EVOLUTION OF NEUTRON STARS: Theory and observations D.G. Yakovlev Ioffe Physical Technical Institute, St.-Petersburg, Russia Catania, October 2012,

THERMAL EVOLUTION OF NEUTRON STARS: Theory and observations D.G. Yakovlev Ioffe Physical Technical Institute, St.-Petersburg, Russia Catania, October 2012,
COOLING OF YOUNG NEUTRON STARS AND THE SUPERNOVA 1987A D.G. Yakovlev Ioffe Physical Technical Institute, St.-Petersburg, Russia Ladek Zdroj, February 2008,

COOLING OF YOUNG NEUTRON STARS AND THE SUPERNOVA 1987A D.G. Yakovlev Ioffe Physical Technical Institute, St.-Petersburg, Russia Ladek Zdroj, February 2008,
Post-burst pulsed X-ray and gamma-ray emission of magnetars (SGR & AXP) is most likely powered by non-radial torsion oscillations of neutron stars Sergey.

Post-burst pulsed X-ray and gamma-ray emission of magnetars (SGR & AXP) is most likely powered by non-radial torsion oscillations of neutron stars Sergey.
Neutron Stars 3: Thermal evolution Andreas Reisenegger Depto. de Astronomía y Astrofísica Pontificia Universidad Católica de Chile.

Neutron Stars 3: Thermal evolution Andreas Reisenegger Depto. de Astronomía y Astrofísica Pontificia Universidad Católica de Chile.
Cooling of Hybrid Neutron Stars Hovik Grigorian Yerevan State University Dubna, JINR Ladek Zdroj2008.

Cooling of Hybrid Neutron Stars Hovik Grigorian Yerevan State University Dubna, JINR Ladek Zdroj2008.
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.
Thermal Evolution of Rotating neutron Stars and Signal of Quark Deconfinement Henan University, Kaifeng, China Miao Kang.

Thermal Evolution of Rotating neutron Stars and Signal of Quark Deconfinement Henan University, Kaifeng, China Miao Kang.
Evolution with decaying magnetic field. 2 Magnetic field decay Magnetic fields of NSs are expected to decay due to decay of currents which support them.

Evolution with decaying magnetic field. 2 Magnetic field decay Magnetic fields of NSs are expected to decay due to decay of currents which support them.
Thermal evolution of neutron stars. Evolution of neutron stars. I.: rotation + magnetic field Ejector → Propeller → Accretor → Georotator See the book.

Thermal evolution of neutron stars. Evolution of neutron stars. I.: rotation + magnetic field Ejector → Propeller → Accretor → Georotator See the book.
Close-by young isolated neutron stars (and black holes) Sergey Popov (Sternberg Astronomical Institute)

Close-by young isolated neutron stars (and black holes) Sergey Popov (Sternberg Astronomical Institute)
Hovik Grigorian Dubna, JINR Yerevan 2008 International Symposium The Modern Physics of Compact Stars.

Hovik Grigorian Dubna, JINR Yerevan 2008 International Symposium The Modern Physics of Compact Stars.
Cohesive Properties of Highly Magnetized Neutron Star Surfaces Zach Medin July 19, 2006.

Cohesive Properties of Highly Magnetized Neutron Star Surfaces Zach Medin July 19, 2006.
1I Compstar meeting, Wroclaw 2008 Prospects of inferring dense matter properties from NS cooling: the magnetar masquerade the magnetar masquerade José.

1I Compstar meeting, Wroclaw 2008 Prospects of inferring dense matter properties from NS cooling: the magnetar masquerade the magnetar masquerade José.

Similar presentations

Ads by Google