PHOTOSPHERIC EMISSION FROM STRATIFIED JETS

We explore photospheric emissions from stratified two-component jets, wherein a highly relativistic spine outflow is surrounded by a wider and less relativistic sheath outflow. Thermal photons are injected in regions of high optical depth and propagated until the photons escape at the photosphere. Because of the presence of shear in velocity (Lorentz factor) at the boundary of the spine and sheath region, a fraction of the injected photons are accelerated using a Fermi-like acceleration mechanism such that a high-energy power-law tail is formed in the resultant spectrum. We show, in particular, that if a velocity shear with a considerable variance in the bulk Lorentz factor is present, the high-energy part of observed gamma-ray bursts (GRBs) photon spectrum can be explained by this photon acceleration mechanism. We also show that the accelerated photons might also account for the origin of the extra-hard power-law component above the bump of the thermal-like peak seen in some peculiar bursts (e.g., GRB 090510, 090902B, 090926A). We demonstrate that time-integrated spectra can also reproduce the low-energy spectrum of GRBs consistently using a multi-temperature effect when time evolution of the outflow is considered. Last, we show that the empirical E p-L p relation can be explained by differences in the outflow properties of individual sources.

[1]  J. Goodman,et al.  Are gamma-ray bursts optically thick? , 1986 .

[2]  B. Dingus,et al.  Broadband Spectral Properties of Bright High-Energy Gamma-Ray Bursts Observed with BATSE and EGRET , 2008, 0801.1869.

[3]  W. S. Paciesas,et al.  The Synchrotron Shock Model Confronts a "Line of Death" in the BATSE Gamma-Ray Burst Data , 1998 .

[4]  Pawan Kumar,et al.  On the generation of high-energy photons detected by the Fermi Satellite from gamma-ray bursts , 2009, 0905.2417.

[5]  J. Poutanen,et al.  GAMMA-RAY BURSTS FROM MAGNETIZED COLLISIONALLY HEATED JETS , 2011, 1104.0394.

[6]  R. Preece,et al.  Evolution of the Low-Energy Photon Spectra in Gamma-Ray Bursts , 1996, astro-ph/9612118.

[7]  D. Giannios Prompt emission spectra from the photosphere of a GRB , 2006, astro-ph/0602397.

[8]  E. Waxman,et al.  FAST RADIATION MEDIATED SHOCKS AND SUPERNOVA SHOCK BREAKOUTS , 2009, 0902.4708.

[9]  D. Yonetoku,et al.  Gamma-Ray Burst Formation Rate Inferred from the Spectral Peak Energy-Peak Luminosity Relation , 2003, astro-ph/0309217.

[10]  M. J. Rees,et al.  Dissipative photosphere models of gamma-ray bursts and X-ray flashes , 2005 .

[11]  T. Piran,et al.  Can Internal Shocks Produce the Variability in Gamma-Ray Bursts? , 1997, astro-ph/9705013.

[12]  J. Chiang,et al.  GeV OBSERVATIONS OF STAR-FORMING GALAXIES WITH THE FERMI LARGE AREA TELESCOPE , 2012, The Astrophysical Journal.

[13]  Tsvi Piran,et al.  Gamma‐ray burst efficiency and possible physical processes shaping the early afterglow , 2006, astro-ph/0601054.

[14]  Dimitrios Giannios,et al.  Prompt GRB emission from gradual energy dissipation , 2007, 0711.2632.

[15]  General relativistic magnetohydrodynamic simulations of the jet formation and large-scale propagation from black hole accretion systems , 2006, astro-ph/0603045.

[16]  N. Arav,et al.  Radiation-viscous boundary layer , 1992 .

[17]  Gregory V. Vereshchagin,et al.  A THEORY OF PHOTOSPHERIC EMISSION FROM RELATIVISTIC OUTFLOWS , 2011, 1110.0407.

[18]  Akira Mizuta,et al.  Numerical Study of Gamma-Ray Burst Jet Formation in Collapsars , 2006, astro-ph/0608233.

[19]  P. N. Bhat,et al.  FERMI OBSERVATIONS OF GRB 090510: A SHORT–HARD GAMMA-RAY BURST WITH AN ADDITIONAL, HARD POWER-LAW COMPONENT FROM 10 keV TO GeV ENERGIES , 2010, 1005.2141.

[20]  A. Pe’er,et al.  A theory of photospheric emission from relativistic, collimated outflows , 2012, 1208.2965.

[21]  G. Vereshchagin,et al.  MONTE CARLO SIMULATIONS OF THE PHOTOSPHERIC EMISSION IN GAMMA-RAY BURSTS , 2013, 1302.4456.

[22]  S. Nagataki DEVELOPMENT OF A GENERAL RELATIVISTIC MAGNETOHYDRODYNAMIC CODE AND ITS APPLICATION TO THE CENTRAL ENGINE OF LONG GAMMA-RAY BURSTS , 2009, 0902.1908.

[23]  M. Kino,et al.  Hydrodynamic Effects in Internal Shock of Relativistic Outflows , 2004, astro-ph/0404555.

[24]  S. Nagataki Rotating Black Holes as Central Engines of Long Gamma-Ray Bursts : Faster is Better , 2010, 1010.4964.

[25]  T. Piran,et al.  Variability in GRBs - A Clue , 1997, astro-ph/9701002.

[26]  Yuki Kaneko,et al.  The Complete Spectral Catalog of Bright BATSE Gamma-Ray Bursts , 2006, astro-ph/0601188.

[27]  R. Margutti,et al.  PHOTOSPHERIC EMISSION AS THE DOMINANT RADIATION MECHANISM IN LONG-DURATION GAMMA-RAY BURSTS , 2012, 1301.3920.

[28]  D. Eichler Particle acceleration in high-energy gamma-ray sources , 1994 .

[29]  J. Chiang,et al.  SEARCH FOR DARK MATTER SATELLITES USING FERMI-LAT , 2012, 1201.2691.

[30]  J. Chiang,et al.  Observational evidence of dissipative photospheres in gamma‐ray bursts , 2011, 1103.0708.

[31]  G. Ghisellini,et al.  GeV emission from gamma‐ray bursts: a radiative fireball? , 2009, 0910.2459.

[32]  E. Waxman,et al.  Efficiency and Spectrum of Internal Gamma-Ray Burst Shocks , 2000, astro-ph/0011170.

[33]  M. Rees,et al.  Unsteady outflow models for cosmological gamma-ray bursts , 1994, astro-ph/9404038.

[34]  D. Wei,et al.  THE PHOTOSPHERIC RADIATION MODEL FOR THE PROMPT EMISSION OF GAMMA-RAY BURSTS: INTERPRETING FOUR OBSERVED CORRELATIONS , 2012, 1204.4881.

[35]  S. Nagataki,et al.  FAILED GAMMA-RAY BURSTS: THERMAL ULTRAVIOLET/SOFT X-RAY EMISSION ACCOMPANIED BY PECULIAR AFTERGLOWS , 2011, 1111.7084.

[36]  D. Wei,et al.  Are there cosmological evolution trends on gamma-ray burst features? , 2002, astro-ph/0212513.

[37]  Martin J. Rees,et al.  Peak Energy Clustering and Efficiency in Compact Objects , 2005 .

[38]  B. Paczyński Gamma-ray bursters at cosmological distances , 1986 .

[39]  R. Blandford,et al.  Stability of relativistic jets from rotating, accreting black holes via fully three-dimensional magnetohydrodynamic simulations , 2008, 0812.1060.

[40]  Peter W. A. Roming,et al.  GRB radiative efficiencies derived from the swift data: GRBs versus XRFs, long versus short , 2006 .

[41]  Davide Lazzati,et al.  VERY HIGH EFFICIENCY PHOTOSPHERIC EMISSION IN LONG-DURATION γ-RAY BURSTS , 2009, 0904.2779.

[42]  Martin J. Rees,et al.  The Observable Effects of a Photospheric Component on GRB and XRF Prompt Emission Spectrum , 2006 .

[43]  A. Levinson,et al.  SUB-PHOTOSPHERIC EMISSION FROM RELATIVISTIC RADIATION MEDIATED SHOCKS IN GRBs , 2011, 1101.4232.

[44]  Dimitrios Giannios,et al.  Spectral and timing properties of a dissipative γ-ray burst photosphere , 2006 .

[45]  T. Piran,et al.  ON THERMALIZATION IN GAMMA-RAY BURST JETS AND THE PEAK ENERGIES OF PHOTOSPHERIC SPECTRA , 2012, 1209.0763.

[46]  D. Giannios The peak energy of dissipative GRB photospheres , 2011, 1111.4258.

[47]  C. Kouveliotou,et al.  The connection between thermal and non-thermal emission in gamma-ray bursts: general considerations and GRB 090902B as a case study , 2010, 1007.2228.

[48]  E. Waxman,et al.  RELATIVISTIC RADIATION MEDIATED SHOCKS , 2010, 1005.0141.

[49]  A. Levinson,et al.  ULTRA-RELATIVISTIC, NEUTRINO-DRIVEN FLOWS IN GAMMA-RAY BURSTS: A DOUBLE TRANSONIC FLOW SOLUTION IN A SCHWARZSCHILD SPACETIME , 2013, 1303.4261.

[50]  M. Rees,et al.  Steep Slopes and Preferred Breaks in Gamma-Ray Burst Spectra: The Role of Photospheres and Comptonization , 1999 .

[51]  P. N. Bhat,et al.  Detection of a Spectral Break in the Extra Hard Component of GRB 090926A , 2011, 1101.2082.

[52]  D. Eichler,et al.  A Compact Fireball Model of Gamma-Ray Bursts , 1999, astro-ph/9903103.

[53]  Bing Zhang,et al.  A COMPREHENSIVE ANALYSIS OF FERMI GAMMA-RAY BURST DATA. I. SPECTRAL COMPONENTS AND THE POSSIBLE PHYSICAL ORIGINS OF LAT/GBM GRBs , 2010, 1009.3338.

[54]  P. N. Bhat,et al.  EVIDENCE FOR A PHOTOSPHERIC COMPONENT IN THE PROMPT EMISSION OF THE SHORT GRB 120323A AND ITS EFFECTS ON THE GRB HARDNESS–LUMINOSITY RELATION , 2012, 1210.7252.

[55]  A. Beloborodov,et al.  RADIATIVE TRANSFER IN ULTRARELATIVISTIC OUTFLOWS , 2010, 1011.6005.

[56]  Caltech,et al.  Relativistic Jets in Collapsars , 2002, astro-ph/0207436.

[57]  P. N. Bhat,et al.  CONSTRAINING THE HIGH-ENERGY EMISSION FROM GAMMA-RAY BURSTS WITH FERMI , 2012 .

[58]  Akira Mizuta,et al.  Collimated Jet or Expanding Outflow: Possible Origins of Gamma-Ray Bursts and X-Ray Flashes , 2006, astro-ph/0607544.

[59]  Giancarlo Ghirlanda,et al.  Extremely hard GRB spectra prune down the forest of emission models , 2002 .

[60]  Giancarlo Ghirlanda,et al.  Fermi/GBM and BATSE gamma-ray bursts: comparison of the spectral properties , 2010, 1012.3968.

[61]  Felix Ryde,et al.  A THEORY OF MULTICOLOR BLACKBODY EMISSION FROM RELATIVISTICALLY EXPANDING PLASMAS , 2010, 1008.4590.

[62]  G. Morfill,et al.  Cosmic Rays at Fluid Discontinuities , 1989 .

[63]  A. Levinson OBSERVATIONAL SIGNATURES OF SUB-PHOTOSPHERIC RADIATION-MEDIATED SHOCKS IN THE PROMPT PHASE OF GAMMA-RAY BURSTS , 2012, 1205.3227.

[64]  D. Palmer,et al.  BATSE observations of gamma-ray burst spectra. I: Spectral diversity , 1993 .

[65]  A. Pe’er Temporal Evolution of Thermal Emission from Relativistically Expanding Plasma , 2008, 0802.0725.

[66]  P. Scheuer,et al.  Instabilities of Kelvin–Helmholtz type for Relativistic streaming , 1976 .

[67]  Shoichi Yamada,et al.  JET PROPAGATIONS, BREAKOUTS, AND PHOTOSPHERIC EMISSIONS IN COLLAPSING MASSIVE PROGENITORS OF LONG-DURATION GAMMA-RAY BURSTS , 2010, 1009.2326.

[68]  A. J. van der Horst,et al.  IDENTIFICATION AND PROPERTIES OF THE PHOTOSPHERIC EMISSION IN GRB090902B , 2009, 0911.2025.

[69]  M. Feroci,et al.  Intrinsic spectra and energetics of BeppoSAX Gamma-Ray Bursts with known redshifts , 2002, astro-ph/0205230.

[70]  Akira Mizuta,et al.  THERMAL RADIATION FROM GAMMA-RAY BURST JETS , 2010, 1006.2440.

[71]  T. Piran,et al.  Variability in Gamma-Ray Bursts: A Clue , 1997 .

[72]  C. Thompson A Model of gamma-ray bursts , 1994 .

[73]  W. S. Paciesas,et al.  The BATSE Gamma-Ray Burst Spectral Catalog. I. High Time Resolution Spectroscopy of Bright Bursts Using High Energy Resolution Data , 2000 .

[74]  TEMPORAL AND ANGULAR PROPERTIES OF GAMMA-RAY BURST JETS EMERGING FROM MASSIVE STARS , 2006, astro-ph/0609254.

[75]  D. Lazzati,et al.  NON-THERMAL EMISSION FROM THE PHOTOSPHERES OF GAMMA-RAY BURST OUTFLOWS. I. HIGH-FREQUENCY TAILS , 2010, 1005.4704.