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151. All-Sky Hard X-Ray Spectral Line Survey with EXIST

Author

Fishman, G. J, Grindlay, J. E, Hong, J, Hartmann, D. H, Vadawale, S, and Wilson-Hodge, C. A

Subjects
Astrophysics
Abstract

The Energetic X-ray Imaging Survey Telescope (EXIST), under study to be the Black Hole Finder Probe in NASA's Beyond Einstein Program, would image the sky every 95 min in the energy range 10-600 keV. Although the main scientific objectives of EXIST are the systematic, all-sky survey of heavily obscured AGNs and gamma-ray bursts, there is a substantial capability of EXIST for the observation of transient and persistent hard X-ray lines from several astrophysical sources.

Published
2006
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152. Particle Acceleration, Magnetic Field Generation and Emission from Relativistic Jets

Author

Nishikawa, K.-I, Hardee, P, Hededal, C, Mizuno, Yosuke, Fishman, G. Jerry, and Hartmann, D. H

Subjects
Fluid Mechanics And Thermodynamics
Abstract

Nonthermal radiation observed from astrophysical systems containing relativistic jets and shocks, e.g., active galactic nuclei (AGNs), gamma-ray bursts (GRBs), supernova remnants, and Galactic microquasar systems usually have power-law emission spectra. Fermi acceleration is the mechanism usually assumed for the acceleration of particles in astrophysical environments. Recent PIC simulations using injected relativistic electron-ion (electro-positron) jets show that particle acceleration occurs within the downstream jet, rather than by the scattering of particles back and forth across the shock as in Fermi acceleration. Shock acceleration' is a ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., the Buneman instability, other two-streaming instability, and the Weibel instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. The simulation results show that the Weibel instability is responsible for generating and amplifying highly nonuniform, small-scale magnetic fields. These magnetic fields contribute to the electron's transverse deflection behind the jet head. The "jitter" radiation from deflected electrons has different spectral properties than synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets, and supernova remnants. We will review recent PIC simulations of relativistic jets and try to make a connection with observations.

Published
2006

153. 3-D GRMHD Simulations of Disk-Jet Coupling and Emission

Author

Nishikawa, K.-I, Mizuno, Y, Fuerst, S, zei. zl, Watson, M, Hardee, P, Koide, S, and Fishman, G. J

Subjects
Astrophysics
Abstract

We have performed a fully 3-D GRMHD simulation of jet formation from a thin accretion disk around a Schwarzschild black hole with a free-falling corona. The simulation results show that a bipolar jet is initially created. At later times, the accretion disk becomes thick and the jet fades resulting in a wind that is ejected from the surface of the thickened (torus-like) disk. This evolution of disk-jet coupling suggests that the jet fades with a thickened accretion disk. Recently we have developed two new codes: 3 -D GRMHD: RelAtivIStic magnetoHydrodynamica1 sImulatioN (RAISHIN) code constructed by modern high-resolution shock-capturing (HRSC) techniques and 3-D GRPIC code. We have calculated free-free and synchrotron emission from the disks and jet/outflows obtained from our GRMHD simulations using a fully covariant radiative transfer formulation.

Published
2006

154. Particle Acceleration, Magnetic Field Generation and Emission from Relativistic Jets and Supernova Remnants

Author

Nishikawa, K.-I, Hartmann, D. H, Hardee, P, Hededal, C, Mizunno, Y, and Fishman, G. J

Subjects
Astronomy
Abstract

We performed numerical simulations of particle acceleration, magnetic field generation, and emission from shocks in order to understand the observed emission from relativistic jets and supernova remnants. The investigation involves the study of collisionless shocks, where the Weibel instability is responsible for particle acceleration as well as magnetic field generation. A 3-D relativistic particle-in-cell (RPIC) code has been used to investigate the shock processes in electron-positron plasmas. The evolution of theWeibe1 instability and its associated magnetic field generation and particle acceleration are studied with two different jet velocities (0 = 2,5 - slow, fast) corresponding to either outflows in supernova remnants or relativistic jets, such as those found in AGNs and microquasars. Slow jets have intrinsically different structures in both the generated magnetic fields and the accelerated particle spectrum. In particular, the jet head has a very weak magnetic field and the ambient electrons are strongly accelerated and dragged by the jet particles. The simulation results exhibit jitter radiation from inhomogeneous magnetic fields, generated by the Weibel instability, which has different spectral properties than standard synchrotron emission in a homogeneous magnetic field.

Published
2006

155. GRMHD Simulations of Jet Formation with a Newly-Developed GRMHD Code

Author

Mizuno, Y, Nishikawa, K.-I, Koide, S, Hardee, P, and Fishman, G. J

Subjects
Astrophysics
Abstract

We have developed a new three-dimensional general relativistic magnetohydrodynamic code by using a conservative, high-resolution shock-capturing scheme. The numerical fluxes are calculated using the HLL approximate Riemann solver scheme. The flux-CT scheme is used to maintain a divergence-free magnetic field. Various 1-dimensional test problems show significant improvements over our previous GRMHD code. We have performed simulations of jet formations from a geometrically thin accretion disk near a non-rotating and a rotating black hole. The new simulation results show that the jet is formed by the same manner as in previous works and propagates outward. As the magnetic field strength becomes weaker, larger amount of matter launches with the jet. On the other hand when the magnetic field strength becomes stronger, the jet has less-matter and becomes poynting flux dominated. We will also discuss how the jet properties depend on the rotation of a black hole.

Published
2006

156. GRMHD Simulations of Jet Formation with a New Code

Author

Mizuno, Y, Nishikawa, K.-I, Koide, S, Hardee, P, and Fishman, G. J

Subjects
Astrophysics
Abstract

We have developed a new three-dimensional general relativistic magnetohydrodynamic (GRMHD) code by using a conservative, high-resolution shock-capturing scheme. The numerical fluxes are calculated using the HLL approximate Riemann solver scheme. The flux-interpolated, constrained transport scheme is used to maintain a divergence-free magnetic field. Various one-dimensional test problems in both special and general relativity show significant improvements over our previous model. We have performed simulations of jet formations from a geometrically thin accretion disk near both nonrotating and rotating black holes. The new simulation results show that the jet is formed in the same manner as in previous work and propagates outward. In the rotating black hole cases, jets form much closer to the black hole's ergosphere and the magnetic field is strongly twisted due the frame-dragging effect. As the magnetic field strength becomes weaker, a larger amount of matter is launched with the jet. On the other hand, when the magnetic field strength becomes stronger, the jet has less matter and becomes poynting-flux dominated. We will also discuss how the jet properties depend on the rotation of a black hole.

Published
2006

157. Newly-Developed 3D GRMHD Code and its Application to Jet Formation

Author

Mizuno, Y, Nishikawa, K.-I, Koide, S, Hardee, P, and Fishman, G. J

Subjects
Astrophysics
Abstract

We have developed a new three-dimensional general relativistic magnetohydrodynamic code by using a conservative, high-resolution shock-capturing scheme. The numerical fluxes are calculated using the HLL approximate Riemann solver scheme. The flux-interpolated constrained transport scheme is used to maintain a divergence-free magnetic field. We have performed various 1-dimensional test problems in both special and general relativity by using several reconstruction methods and found that the new 3D GRMHD code shows substantial improvements over our previous model. The . preliminary results show the jet formations from a geometrically thin accretion disk near a non-rotating and a rotating black hole. We will discuss the jet properties depended on the rotation of a black hole and the magnetic field strength.

Published
2006

158. The EXIST Mission for High-Energy Astrophysics

Author

Fishman, G. J, Grindlay, J. E, and Hong, J

Subjects
Astronomy
Abstract

The Energetic X-ray Imaging Survey Telescope (EXIST), under study to be the Black Hole Finder Probe in NASA's Beyond Einstein Program, would image the sky every 95min in the energy range 1 OkeV to 600 keV. Although the main scientific objectives of EXIST are the systematic, all-sky survey of heavily obscured AGNs and gamma-ray bursts, there is a substantial capability of EXIST for the observation of transient and persistent hard x-ray lines from several astrophysical sources.

Published
2006

159. GRMHD Simulations of Jet Formation with RAISHIN

Author

Mizuno, Y, Hartmann, D. H, Nishikawa, K.-I, Koide, S, Hardee, P, and Fishman, G. J

Subjects
Astrophysics
Abstract

We have developed a new three dimensional general relativistic magnetohydrodynamic (GRMHD) code, RAISHIN, using a conservative, high-resolution shock capturing scheme. Numerical fluxes are calculated using the Harten, Lax, & van Leer (HLL) approximate Riemann solver scheme. The flux-interpolated, constrained transport scheme is used to maintain a divergence-free magnetic field. We describe code performance on some test problems in both special and general relativity. Our new GRMHD code has proven to be accurate to second order and has successfully passed several numerical test problems including highly relativistic and magnetized tests in both special and general relativity. We have performed several simulations of non-rotating and rotating black hole systems with a geometrically thin accretion disk. The simulations show the formation of jets driven by the Lorentz force and the gas pressure. It appears that the rotating black hole creates an additional faster, and more collimated outflow inside a broader, slower outflow that is also generated by the rotating accretion disk around a non-rotating black hole. The kinematic jet structure could thus be a sensitive function of black hole rotation.

Published
2006

160. 3-D RPIC Simulations of Relativistic Jets: Particle Acceleration, Magnetic Field Generation, and Emission

Author

Nishikawa, K.-I, Mizuno, Y, Hardee, P, Hededal, C. B, and Fishman, G. J

Subjects
Physics (General)
Abstract

Recent PIC simulations using injected relativistic electron-ion (electro-positron) jets into ambient plasmas show that acceleration occurs in relativistic shocks. The Weibel instability created in shocks is responsible for particle acceleration, and generation and amplification of highly inhomogeneous, small-scale magnetic fields. These magnetic fields contribute to the electron's transverse deflection in relativistic jets. The "jitter" radiation from deflected electrons has different properties than the synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understand the complex time evolution and spectral structure in relativistic jets and gamma-ray bursts. We will present recent PIC simulations which show particle acceleration and magnetic field generation. We will also calculate associated self-consistent emission from relativistic shocks.

Published
2006

161. Relativistic MHD Simulations of Precessed Jets

Author

Mizuno, Y, Nishikawa, K.-I, Hardee, P, Koide, S, and Fishman, G. J

Subjects
Astronomy
Abstract

Relativistic jets are considered to be generated by magnetic fields in a rotating black hole with accretion disk. Consequently, resulting outflows contain magnetic fields in them and control the propagation of jets. We have performed 3D relativistic MHD simulations to investigate the stability and structure of precessed MHD jets with large Lorentz factor by using a newly developed 3D GRMHD code. We have performed simulations of supermagnetosonic jets surrounded by a fast wind. The simulation results reveal complex pressure structure inside the RMHD jet. The structure is produced by a combination of the helical surface and body modes excited by the precession as predicted theoretically. The wavelength of the body mode which occurs in an internal helical twist is much shorter than that of the helical twist surface mode. We will present some comparisons between the RMHD simulations and theoretical predictions, and potential observables and discuss the effect of wind.

Published
2006

163. General Relativistic MHD Simulations of Jet Formation

Author

Mizuno, Y, Nishikawa, K.-I, Hardee, P, Koide, S, and Fishman, G. J

Subjects
Fluid Mechanics And Thermodynamics
Abstract

We have performed 3-dimensional general relativistic magnetohydrodynamic (GRMHD) simulations of jet formation from an accretion disk with/without initial perturbation around a rotating black hole. We input a sinusoidal perturbation (m = 5 mode) in the rotation velocity of the accretion disk. The simulation results show the formation of a relativistic jet from the accretion disk. Although the initial perturbation becomes weakened by the coupling among different modes, it survives and triggers lower modes. As a result, complex non-axisymmetric density structure develops in the disk and the jet. Newtonian MHD simulations of jet formation with a non-axisymmetric mode show the growth of the m = 2 mode but GRMHD simulations cannot see the clear growth of the m = 2 mode.

Published
2005

164. Particle Acceleration, Magnetic Field Generation in Relativistic Shocks

Author

Nishikawa, Ken-Ichi, Hardee, P, Hededal, C. B, Richardson, G, Sol, H, Preece, R, and Fishman, G. J

Subjects
Astrophysics
Abstract

Shock acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., the Buneman instability, two-streaming instability, and the Weibel instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic jet front propagating through an ambient plasma with and without initial magnetic fields. We find only small differences in the results between no ambient and weak ambient parallel magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates particles perpendicular and parallel to the jet propagation direction. New simulations with an ambient perpendicular magnetic field show the strong interaction between the relativistic jet and the magnetic fields. The magnetic fields are piled up by the jet and the jet electrons are bent, which creates currents and displacement currents. At the nonlinear stage, the magnetic fields are reversed by the current and the reconnection may take place. Due to these dynamics the jet and ambient electron are strongly accelerated in both parallel and perpendicular directions.

Published
2005

165. Particle acceleration magnetic field generation, and emission in Relativistic pair jets

Author

Nishikawa, K.-I, Ramirez-Ruiz, E, Hardee, P, Hededal, C, Kouveliotou, C, and Fishman, G. J

Subjects
Nuclear Physics
Abstract

Plasma waves and their associated instabilities (e.g., the Buneman instability, two-streaming instability, and the Weibel instability) are responsible for particle acceleration in relativistic pair jets. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic pair jet propagating through a pair plasma. Simulations show that the Weibel instability created in the collisionless shock accelerates particles perpendicular and parallel to the jet propagation direction. Simulation results show that this instability generates and amplifies highly nonuniform, small-scale magnetic fields, which contribute to the electron's transverse deflection behind the jet head. The "jitter' I radiation from deflected electrons can have different properties than synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets, and supernova remnants. The growth rate of the Weibel instability and the resulting particle acceleration depend on the magnetic field strength and orientation, and on the initial particle distribution function. In this presentation we explore some of the dependencies of the Weibel instability and resulting particle acceleration on the magnetic field strength and orientation, and the particle distribution function.

Published
2005

167. Particle Acceleration, Magnetic Field Generation, and Emission in Relativistic Pair Jets

Author

Nishikawa, K. I, Hardee, P, Hededal, C. B, Richardson, G, Sol, H, Preece, R, and Fishman, G. J

Subjects
Astrophysics
Abstract

Shock acceleration is a ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., Buneman, Weibel and other two-stream instabilities) created in collisionless shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic jet front propagating into an ambient plasma. We find that the growth times depend on the Lorenz factors of jets. The jets with larger Lorenz factors grow slower. Simulations show that the Weibel instability created in the collisionless shock front accelerates jet and ambient particles both perpendicular and parallel to the jet propagation direction. The small scale magnetic field structure generated by the Weibel instability is appropriate to the generation of "jitter" radiation from deflected electrons (positrons) as opposed to synchrotron radiation. The jitter radiation resulting from small scale magnetic field structures may be important for understanding the complex time structure and spectral evolution observed in gamma-ray bursts or other astrophysical sources containing relativistic jets and relativistic collisionless shocks.

Published
2004

168. The BATSE Earth Occultation Catalog of Low Energy Gamma-Ray Sources

Author

Harmon, B. A, Wilson-Hodge, C. A, Fishman, G. J, Paciesas, W. S, Zhang, S. N, Finger, M. H, Connaughton, V, Koshut, T. M, Henze, W, and McCollough, M. L

Subjects
Space Radiation
Abstract

The Burst and Transient Source Experiment (BATSE),aboard the COmptOn Gamma Ray Observatory (CGRO), provided a record of the hard X-ray/low energy gamma ray sky between April 1991 and June 2000. During that time, a catalog of known sources was derived from existing catalogs such as HEAO A-4 (Levine et al. 19841, as well as new transient sources discovered with RATSE and other X-ray monitors operating in the CGRO era. The Earth Occultation Technique (Harmon et al. 2001, astro-ph/0109069) was used to monitor a combination of these sources, mostly galactic, totaling about 175 objects. The catalog will present the global properties of these sources and their probability of detection (>lO mCrab, 20-100 keV) with BATSE. Systematic errors due to unknown sources or background components are included. Cursory analyses to search for new transients (35-80 mCrab in the 20-100 keV band) and super-orbital periods in known binary sources are also presented. Whole mission light curves and associated data production/analysis tools are being delivered to the HEASARC for public use.

Published
2004

169. Particle Acceleration and Magnetic Field Generation in Electron-Positron Relativistic Shocks

Author

Nishikawa, K.-L, Hardee, P, Richardson, G, Preece, R, Sol, H, and Fishman, G. J

Subjects
Astrophysics
Abstract

Shock acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., Buneman, Weibel and other two-stream instabilities) created in collisionless shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic electron-positron jet front propagating into an ambient electron-positron plasma with and without initial magnetic fields. We find small differences in the results for no ambient and modest ambient magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates jet and ambient particles both perpendicular and parallel to the jet propagation direction. The non-linear fluctuation amplitudes of densities, currents, electric, and magnetic fields in the electron-positron shock are larger than those found in the electron-ion shock studied in a previous paper at the comparable simulation time. This comes from the fact that both electrons and positrons contribute to generation of the Weibel instability. Additionally, we have performed simulations with different electron skin depths. We find that growth times scale inversely with the plasma frequency, and the sizes of structures created by the Weibel instability scale proportional to the electron skin depth. This is the expected result and indicates that the simulations have sufficient grid resolution. While some Fermi acceleration may occur at the jet front, the majority of electron and positron acceleration takes place behind the jet front and cannot be characterized as Fermi acceleration. The simulation results show that the Weibel instability is responsible for generating and amplifying nonuniform: small-scale magnetic fields which contribute to the electron's (positron's) transverse deflection behind the jet head. This small scale magnetic field structure is appropriate to the generation of jitter radiation from deflected electrons (positrons) as opposed to synchrotron radiation. The jitter radiation has different properties than synchrotron radiation calculated assuming a a uniform magnetic field. The jitter radiation resulting from small scale magnetic field structures may be important for understanding the complex time structure and spectral evolution observed in gamma-ray bursts or other astrophysical sources containing relativistic jets and relativistic collisionless shocks.

Published
2004

170. Particle Acceleration and Magnetic Field Generation in Electron-Positron Relativistic Shocks

Author

Nishikawa, K.-I, Hardee, P, Richardson, G, Preece, R, Sol, H, and Fishman, G. J

Subjects
Astrophysics
Abstract

Shock acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., Buneman, Weibel and other two-stream instabilities) created in collisionless shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic electron-positron jet front propagating into an ambient electron-positron plasma with and without initial magnetic fields. We find small differences in the results for no ambient and modest ambient magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates jet and ambient particles both perpendicular and parallel to the jet propagation direction. The non-linear fluctuation amplitudes of densities, currents, electric, and magnetic fields in the electron-positron shock are larger than those found in the electron-ion shock studied in a previous paper. This comes from the fact that both electrons and positrons contribute to generation of the Weibel instability. Additionally, we have performed simulations with different electron skin depths. We find that growth times scale inversely with the plasma frequency, and the sizes of structures created by the Weibel instability scale proportional to the electron skin depth. This is the expected result and indicates that the simulations have sufficient grid resolution. While some Fermi acceleration may occur at the jet front, the majority of electron and positron acceleration takes place behind the jet front and cannot be characterized as Fermi acceleration. The simulation results show that the Weibel instability is responsible for generating and amplifying nonuniform, small-scale magnetic fields which contribute to the electron's (positron's) transverse deflection behind the jet head. This small scale magnetic field structure is appropriate to the generation of "jitter" radiation from deflected electrons (positrons) as opposed to synchrotron radiation. The jitter radiation has different properties than synchrotron radiation calculated assuming a a uniform magnetic field. The jitter radiation resulting from small scale magnetic field structures may be important for understanding the complex time structure and spectral evolution observed in gamma-ray bursts or other astrophysical sources containing relativistic jets and relativistic collisionless shocks.

Published
2004

171. Particle Acceleration, Magnetic Field Generation, and Emission in Relativistic Shocks

Author

Nishikawa, Ken-IchiI, Hededal, C, Hardee, P, Richardson, G, Preece, R, Sol, H, and Fishman, G

Subjects
Astrophysics
Abstract

Shock acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., the Buneman instability, two-streaming instability, and the Weibel instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (m) code, we have investigated particle acceleration associated with a relativistic jet front propagating through an ambient plasma with and without initial magnetic fields. We find only small differences in the results between no ambient and weak ambient parallel magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates particles perpendicular and parallel to the jet propagation direction. New simulations with an ambient perpendicular magnetic field show the strong interaction between the relativistic jet and the magnetic fields. The magnetic fields are piled up by the jet and the jet electrons are bent, which creates currents and displacement currents. At the nonlinear stage, the magnetic fields are reversed by the current and the reconnection may take place. Due to these dynamics the jet and ambient electron are strongly accelerated in both parallel and perpendicular directions.

Published
2004

172. Background Studies for EXIST

Author

Wilson, Colleen A, Pendleton, G. N, and Fishman, G. J

Subjects
Astrophysics
Abstract

We present results from a study of the trapped proton and electron background for several orbital inclinations and altitudes. This study includes time dependent effects. In addition we describe a 3 component cosmic background model developed at the University of Southampton, UK. The three components are cosmic diffuse gamma rays, atmospheric albedo gamma rays, and cosmic ray protons. We present examples of how this model was applied to BATSE and discuss its application to EXIST.

Published
2004

174. Particle Acceleration and Radiation associated with Magnetic Field Generation from Relativistic Collisionless Shocks

Author

Nishikawa, K, Hardee, P. E, Richardson, G. A, Preece, R. D, Sol, H, and Fishman, G. J

Subjects
Nuclear Physics
Abstract

Shock acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., the Buneman instability, two-streaming instability, and the Weibel instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic jet front propagating through an ambient plasma with and without initial magnetic fields. We find only small differences in the results between no ambient and weak ambient magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates particles perpendicular and parallel to the jet propagation direction. While some Fermi acceleration may occur at the jet front, the majority of electron acceleration takes place behind the jet front and cannot be characterized as Fermi acceleration. The simulation results show that this instability is responsible for generating and amplifying highly nonuniform, small-scale magnetic fields, which contribute to the electron s transverse deflection behind the jet head. The "jitter" radiation from deflected electrons has different properties than synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets, and supernova remnants.

Published
2003

175. Radiation Pressure Measurements on Micron-Size Individual Dust Grains

Author

Abbas, M. M, Craven, P. D, Spann, J. F, Witherow, W. K, West, E. A, Gallagher, D. L, Adrian, M. L, Fishman, G. J, Tankosic, D, and LeClair, A

Subjects
Physics (General)
Abstract

Measurements of electromagnetic radiation pressure have been made on individual silica (SiO2) particles levitated in an electrodynamic balance. These measurements were made by inserting single charged particles of known diameter in the 0.2- to 6.82-micron range and irradiating them from above with laser radiation focused to beam widths of approximately 175- 400 microns at ambient pressures particle due to the radiation force is balanced by the electrostatic force indicated by the compensating dc potential applied to the balance electrodes, providing a direct measure of the radiation force on the levitated particle. Theoretical calculations of the radiation pressure with a least-squares fit to the measured data yield the radiation pressure efficiencies of the particles, and comparisons with Mie scattering theory calculations provide the imaginary part of the refractive index of SiO2 and the corresponding extinction and scattering efficiencies.

Published
2003
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View/download PDF

176. The Burst and Transient Source Experiment(BATSE)Earth Occultation Catalog of Low-Energy Gamma-Ray Sources. Short title: BATSE Earth Occultation Catalog v2.0

Author

Harmon, B. A, Wilson, C. A, Fishman, G. J, Connaughton, V, Henze, W, Paciesas, W. S, Finger, M. H, McCollough, M. L, Sahi, M, and Peterson, B

Subjects
Astronomy
Abstract

The Burst and Transient Source Experiment (BATSE), aboard the Compton Gamma Ray Observatory (CGRO), provided a record of the low-energy gamma-ray sky (approx. 20-1000 keV) between 1991 April and 2000 May (9.1y). BATSE monitored the high energy sky using the Earth occultation technique (EOT) for point sources whose emission extended for times on the order of the CGRO orbital period (approx. 92m) or greater. Using the EOT to extract flux - 2 - information, a catalog of sources using data from the BATSE large area detectors has been prepared. The first part of the catalog consists of results from the all-sky monitoring of 58 sources, mostly Galactic, with intrinsic variability on timescales of hours to years. For these sources, we have included tables of flux and spectral data, and outburst times for transients. Light curves (or flux histories) covering the entire nine mission are being placed on the world wide web. We then performed a deep-sampling of these 58 objects, plus a selection of 121 more objects, combining data from the entire 9.ly BATSE dataset. Source types considered were primarily accreting binaries, but a small number of representative active galaxies, X-ray-emitting stars, and supernova remnants were also included. The sample represents a compilation of sources monitored and/or discovered with BATSE and other high energy instruments between 1991 and 2000, known sources taken from the HEAO 1 A-4 (Levine et al. 1984) and Macomb and Gehrels (1999) catalogs. The deep sample results include definite detections of 82 objects and possible detections of 36 additional objects. The definite detections spanned three classes of sources: accreting black hole and neutron star binaries, active galaxies and supernova remnants. The average fluxes measured for the fourth class, the X-ray emitting stars, were below the confidence limit for definite detection. Flux data for the deep sample are presented in four energy bands: 20-40, 40-70, 70-160, and 160-430 keV. The limiting average flux level (9.1 y) for the sample varies from 3.5 to 20 mCrab (5delta) between 20 and 430 keV, depending on systematic error, which in turn is primarily dependent on the sky location. To strengthen the credibility of detection of weaker sources (approx.5-25 mCrab), we generated Earth occultation images, searched for periodic behavior using FFT and epoch folding methods, and critically evaluated the energy-dependent emission in the four flux bands. The deep sample results are intended for guidance in performing future all-sky surveys or pointed observations in the hard X-ray and low-energy gamma-ray band, as well as more detailed studies with the BATSE EOT.

Published
2003

177. Particle Acceleration in Relativistic Jets due to Weibel Instability

Author

Nishikawa, K, Hardee, P. E, Richardson, G. A, Preece, R. D, Sol, H, and Fishman, G. J

Subjects
Astrophysics
Abstract

Shock acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., the Buneman instability, two-streaming instability, and the Weibel instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic jet front propagating through an ambient plasma with and without initial magnetic fields. We find only small differences in the results between no ambient and weak ambient magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates particles perpendicular and parallel to the jet propagation direction. The simulation results show that this instability is responsible for generating and amplifying highly nonuniform, small-scale magnetic fields, which contribute to the electron s transverse deflection behind the jet head. The jitter radiation (Medvedev 2000) from deflected electrons has different properties than synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets, and supernova remnants.

Published
2003

178. The Formation of Relativistic Jets from Kerr Black Holes

Author

Nishikawa, K.-I, Richardson, G, Preece, R, Hardee, P, Koide, S, Shibata, K, Kudoh, T, Sol, H, and Fishman, G. J

Subjects
Astronomy
Abstract

We have performed the first fully three-dimensional general relativistic magnetohydrodynamics (GRMHD) simulation for Schwarzschild and Kerr black holes with a free falling corona and thin accretion disk. The initial simulation results with a Schwarzschild metric show that a jet is created as in the previous axisymmetric simulations with mirror symmetry at the equator. However, the time to form the jet is slightly longer than in the 2-D axisymmetric simulation. We expect that the dynamics of jet formation are modified due to the additional freedom in the azimuth dimension without axisymmetry with respect to the Z axis and reflection symmetry respect to the equatorial plane. The jet which is initially formed due to the twisted magnetic fields and shocks becomes a wind at the later time. The wind flows out with a much wider angle than the initial jet. The twisted magnetic fields at the earlier time were untwisted and less pinched. The accretion disk became thicker than the initial condition. Further simulations with initial perturbations will provide insights for accretion dynamics with instabilities such as magneto-rotational instability (MRI) and accretion-eject instability (AEI). These instabilities may contribute to variabilities observed in microquasars and AGN jets.

Published
2003

179. Analysis Methods and Results for Weak Gamma-Ray Bursts in the BATSE Data

Author

Mitrofanov, I. G, Anfimov, D. S, Briggs, M. S, Fishman, G. J, Kippen, R. M, Litvak, M. L, Meegan, C. A, Paciesas, W. S, Preece, R. D, and Sanin, A. B

Subjects
Astrophysics
Abstract

We report initial results on the statistical properties of the dimmest gamma-ray bursts (GRBs) observed with the Burst and Transient Source Experiment (BATSE), using new ground-based methods to obtain a sample of GRBs from 502 days of BATSE data. Using the most sensitive ground-based detection of GRBs, the sample extends to GRBs much fainter than those detected by the on-board trigger, but because of the temporal resolution of the data, the sample is limited to GRBs of duration of at least 2(approx.)s. For each detected event, Bayesian probabilities are calculated for the event to belong to each of seven classes of differing physical origins. The sample of GRB candidates is defined by the requirement that the Bayesian probability for belonging to the GRB class is higher than 0.5. The intensity distribution of the GRB sample is corrected using a Monte Carlo simulation of the post-flight detection efficiency. The dimmest BATSE bursts of the sample continue the hardness-intensity trend seen in brighter GREs and are consistent with isotropy.

Published
2003

180. Particle Acceleration and Emission in Relativistic Jets

Author

Nishikawa, K, Hardee, P. E, Richardson, G. A, Preece, R. D, Sol, H, and Fishman, G. J

Subjects
Astrophysics
Abstract

Shock wave acceleration is an ubiquitous phenomenon in astrophysical plasmas. Plasma waves and their associated instabilities (e.g., the Buneman instability, two-streaming instability, and the Weibel instability) created in the shocks are responsible for particle (electron, positron, and ion) acceleration. Using a 3-D relativistic electromagnetic particle (REMP) code, we have investigated particle acceleration associated with a relativistic jet front propagating through an ambient plasma with and without initial magnetic fields. We find only small differences in the results between no ambient and weak ambient magnetic fields. Simulations show that the Weibel instability created in the collisionless shock front accelerates particles perpendicular and parallel to the jet propagation direction. While some Fermi acceleration may occur at the jet front, the majority of electron acceleration takes place behind the jet front and cannot be characterized as Fermi acceleration. The simulation results show that this instability is responsible for generating and amplifying highly nonuniform, small-scale magnetic fields, which contribute to the electron's transverse deflection behind the jet head. The 'jitter' radiation from deflected electrons has different properties than synchrotron radiation which is calculated in a uniform magnetic field. This jitter radiation may be important to understanding the complex time evolution and/or spectral structure in gamma-ray bursts, relativistic jets, and supernova remnants.

Published
2003

185. Gamma-Ray Burst Observations with BATSE

Author

Fishman, G. J, Briggs, M, and Six, N. Frank

Subjects
Astronomy
Abstract

The observed gamma-ray temporal, spectral, and duration distribution characteristics of GRBs (Gamma Ray Bursts) from data obtained from the BATSE/Compton Gamma-Ray Observatory will be described. The talk will concentrate on studies of burst properties, correlations of GRB parameters and other statistical properties from the unprecedented sample of over 2700 GRBs.

Published
2002

186. The BATSE Earth Occultation Catalog of Low Energy Gamma Ray Sources

Author

Harmon, B. A, WilsonHodge, C. A, Fishman, G. J, and Paciesas, W

Subjects
Space Radiation
Abstract

The Burst and Transient Source Experiment (BATSE), aboard the Compton Gamma Ray Observatory (CGRO), provided a record of the hard X-ray/low energy gamma ray sky between April 1991 and June 2000. During that time, a catalog of known sources was derived from existing catalogs such as HEAO A-4, as well as new transient sources discovered with BATSE and other X-ray monitors operating in the CGRO era. The Earth Occultation Technique was used to monitor a combination of these sources, mostly galactic, totaling to about 175 objects. The catalog will present the global properties of these sources and their probability of detection (> 10 mCrab, 20-100 keV) with BATSE. Systematic errors due to unknown sources or background components are included. Cursory analyses to search for new transients (35-80 mCrab in the 20-100 keV band) and super-orbital periods in known binary sources are also presented. Whole mission light curves and associated data production/analysis tools are being delivered to the HEASARC for public use.

Published
2002

187. Nine Years of Observations of Hard X-Rays from Relativistic Jet Objects with BATSE

Author

Fishman, G. J, Harmon, B. A, and Six, N. Frank

Subjects
Space Radiation
Abstract

The observed hard X-ray temporal and spectral characteristics will be displayed for over nine years of BATSE (Burst and Transient Source Experiment) data from the Compton Observatory. These observations were obtained using the Earth occultation technique, a technique that has become increasingly more sensitive and accurate as systematic effects are understood and corrected. The principal objects that are being presented in this study include: GRO J1655-40, GRS 1915+105, Cyg X-3, Cyg X-1, XTE J1550-564, XTE J1859+226, XTE J1748-288, and V4641 Sgr. Light curves and spectral will be presented and discussed in terms of relativistic jet production in these systems.

Published
2002

188. EXIST (Energetic X-ray Imaging Survey Telescope): The Next Large GRB Observatory

Author

Fishman, G. J and Six, N. Frank

Subjects
Astronomy
Abstract

Studies have begun on the EXIST (Energetic X-ray Imaging Survey Telescope) Mission. It is planned as a very wide-field, sensitive coded aperture telescope with a sensitive area of the order of 6-8 m^2 and having a positional accuracy for GRBs (Gamma ray bursts) better than one arc-minute. EXIST will use SWIFT as a pathfinder mission; the findings of SWIFT will refine the scientific objectives of EXIST and will help to determine many of its design parameters. It would study early star formation and early galaxy formation at very high redshifts through observations of thousands of GRBs, their afterglows and environments. It is intended that the international GRB community will play as large role in EXIST through direct participation as well as with complementary observational programs, both space-based and ground-based. Some preliminary design features and capabilities of the EXIST Mission will be presented.

Published
2002

191. Flares and flashes: The future

Author

Vanderspek, R., primary, Duerbeck, H. W., additional, Fishman, G. J., additional, Greiner, J., additional, Hudec, R., additional, Merck, M., additional, Poveda, A., additional, Samus, N. N., additional, Seitter, W. C., additional, Vanderspek, R., additional, van Paradijs, J., additional, and Zinnecker, H., additional

Published
1995
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194. Detailed Analysis of the Pulsations During and After Bursts from the Bursting Pulsar (GROJ1744-28)

Author

Woods, Peter M, Kouveliotou, Chryssa, vanParadijs, Jan, Koshut, Thomas M, Finger, Mark H, Briggs, Michael S, Fishman, G. J, and Lewin, W. H. G

Subjects
Space Radiation
Abstract

The hard X-ray bursts observed during both major outbursts of the Bursting Pulsar (GRO J1744-28) show pulsations near the neutron star spin frequency with an enhanced amplitude relative to that of the persistent emission. Consistent with previous work, we find that the pulsations within bursts lag behind their expected arrival times based upon the persistent pulsar ephemeris. For an ensemble of 1293 bursts recorded with the Burst and Transient Source Experiment, the average burst pulse time delay (DELTA t (sub FWHM)) is 61.0 plus or minus 0.8 ms in the 25 - 50 keV energy range and 72 plus or minus 5 ms in the 50 - 100 keV band. The residual time delay (DELTA t (sub resid)) from 10 to 240 s following the start of the burst is 18.1 plus or minus 0.7 ms (25 - 50 keV). A significant correlation of the average burst time delay with burst peak flux is found. Our results are consistent with the model of the pulse time lags presented by Miller (1996).

Published
2000

195. Gamma-Ray Flashes of Atmospheric Origin. The Compton Gamma-Ray Observatory Guest Investigator Program: Cycle 7

Author

Mallozzi, Robert S, Fishman, G. J, Pendleton, G. N, and Inan, U. S

Subjects
Space Radiation
Abstract

The BATSE detectors on the Compton Gamma-Ray Observatory have recorded the first observations of an unexplained terrestrial phenomenon: brief, intense flashes of MeV photons. These events, known as terrestrial gamma-ray flashes, must originate at altitudes above 30 km to be observed by the orbiting detectors. More than 70 of these events have been observed in nine years of observations. The most likely origin of these high-energy photons is bremsstrahlung from relativistic electrons from high altitude electrical discharges above thunderstorm regions. We proposed to analyze observations of temporal and spectral properties of these events, and to produce a catalog of event characteristics. Temporal correlations with radio observations made at Palmer Station, Antarctica and spatial correlations with satellite images of thunderstorm regions near GRO during these events were investigated, aiding in verification and testing of proposed theoretical models of the atmospheric processes believed to be responsible for these unique observations.

Published
2000

196. List of contributors

Author

Accomo, R., primary, Achtziger, N., additional, Adams, S.J.A., additional, Akasaki, I., additional, Albert, J.P., additional, Amano, H., additional, André, R., additional, Antonelli, A., additional, Asif Khan, M., additional, Aulombard, R.L., additional, Austin, R.F., additional, Balestrino, G., additional, Baltramiejūnas, R., additional, Bechstedt, F., additional, Bécourt, N., additional, Bergman, L., additional, Bernholc, J., additional, Bertho, D., additional, Bertoni, CM., additional, Billat, S., additional, Boćkowski, M., additional, Bodin, C., additional, Bodin-Deshayes, C., additional, Boiko, E.B., additional, Boring, P., additional, Bouhelal, A., additional, Bratina, G., additional, Brennan, K.F., additional, Briddon, P.R., additional, Briot, O., additional, Broser, I., additional, Bsiesy, A., additional, Bucher, E., additional, Burchard, A., additional, Cantwell, G., additional, Carter, C.H., additional, Castro, T., additional, Cavenett, B.C., additional, Chadi, D.J., additional, Chen, K.M., additional, Chen, X., additional, Cheng, H., additional, Choyke, W.J., additional, Christensen, N.E., additional, Cibert, J., additional, Cingolani, R., additional, Cloitre, T., additional, Cohen, P.I., additional, Collins, A.T., additional, Cotal, H.L., additional, Cricenti, A., additional, Dabbicco, M., additional, Dang, L.S., additional, Davis, R.F., additional, Deicher, M., additional, DePuydt, J.M., additional, Dischler, B., additional, Dmitriev, V.A., additional, Donegan, J.F., additional, Doran, J.P., additional, Dubowski, J.J., additional, Eckey, L., additional, Edmond, J.A., additional, Efros, A.L., additional, Egan, R.J., additional, Engelbrecht, F., additional, Evstropov, W., additional, Fanciulli, M., additional, Feldman, R.D., additional, Felici, A.C., additional, Ferrara, M., additional, Ferrari, L., additional, Ferry, D.K., additional, Feuillet, G., additional, Fiedler, M., additional, Finocchi, F., additional, Fischer, R., additional, Fishman, G., additional, Franciosi, A., additional, Fricke, Ch., additional, Frolov, S.I., additional, Fuchs, D., additional, Galli, G., additional, Gaponenko, S.V., additional, Gaspard, F., additional, Gavrilenko, V.I., additional, Gavryushin, V., additional, Gebhardt, W., additional, Germanenko, I.N., additional, Geurts, J., additional, Geyzers, K.P., additional, Gil, B., additional, Gladfelter, W., additional, Gleitsman, G., additional, Göbel, E.O., additional, Godet, C., additional, Goede, O., additional, Gorczyca, I., additional, Gribkovskii, V.P., additional, Grzegory, I., additional, Gumlich, H.-E., additional, Gunshor, R.L., additional, Gurskii, A.L., additional, Gutowski, J., additional, Gygi, F., additional, Haase, M.A., additional, Haberstroh, C, additional, Harsch, W.C., additional, Hauksson, I., additional, Hayashi, S., additional, Hegarty, J., additional, Heimbrodt, W., additional, Heime, K., additional, Heine, V., additional, Heitz, R., additional, Helbig, R., additional, Henderson, B., additional, Henneberger, F., additional, Hérino, R., additional, Hermans, J., additional, Heuken, M., additional, Hoffmann, A., additional, Hoffmann, H., additional, Hoffmann, N., additional, Hofsäss, H., additional, Humphreys, T.P., additional, Hunt, R.W., additional, Iarlori, S., additional, Iida, S., additional, Ikoma, K., additional, Itie, J.P., additional, Jacobs, K., additional, Jahn, S.G., additional, Jancu, J.M., additional, Jaussaud, C., additional, Jentzsch, T., additional, Johnson, R.L., additional, Jones, R., additional, Jouanin, C., additional, Jouneau, P.H., additional, Jun, J., additional, Jungnickel, V., additional, Juodžbalis, D., additional, Kajihara, S.A., additional, Kanicki, J., additional, Karmann, S., additional, Katayama-Yoshida, H., additional, Kawakami, Y., additional, Kazlauskas, A., additional, Kean, A., additional, Khan, M.R.H., additional, King-Smith, R.D., additional, Kinto, H., additional, Kißmann, U., additional, Klimakow, A., additional, Klyui, N.I., additional, Koide, N., additional, Koidl, P., additional, Kong, H.-S., additional, Kong, H.S., additional, König, Th., additional, Kono, J., additional, Kononenko, V.K., additional, Kotaki, M., additional, Kreß, C., additional, Krings, T., additional, Krukowski, St., additional, Kubertavicius, V., additional, Kudlek, G.H., additional, Kuhn, W., additional, Kunc, K., additional, Kuroda, Y., additional, Kuznia, J.N., additional, Kwak, K.W., additional, Labrunie, G., additional, Laks, D.B., additional, Lambrecht, W.R.L., additional, Lankes, S., additional, Lebed, V. Yu., additional, Lei, T., additional, Leibenzeder, S., additional, Lepore, M., additional, Licht, T., additional, Ligeon, M., additional, Linkov, I. Yu., additional, Litwin-Staszewska, E., additional, Logothetidis, S., additional, Luce, G., additional, Lutsenko, E.V., additional, Lux-Steiner, M. Ch., additional, Madéore, F., additional, Magerle, R., additional, Mahnke, H.-E., additional, Maier, K., additional, Malinovskii, I.E., additional, Manabe, K., additional, Marinelli, M., additional, Markey, B.G., additional, Markwitz, A., additional, Marshall, T., additional, Mathieu, H., additional, Matsunami, H., additional, McCaldin, J.O., additional, McGill, T.C., additional, McKeever, S.W.S., additional, Meier, J., additional, Mihalcescu, I., additional, Milani, E., additional, Mitcovets, A.I., additional, Mitsuyu, T., additional, Miura, N., additional, Molnar, R.J., additional, Molva, E., additional, Morohashi, M., additional, Morozenko, Ya.V., additional, Moustakas, T.D., additional, Mujica, A., additional, Mula, G., additional, Muller, F., additional, Müller-Sebert, W., additional, Muñoz, A., additional, Mura, A., additional, Naumov, A., additional, Needs, R.J., additional, Nemanich, R.J., additional, Nicolini, R., additional, Nurmikko, A.V, additional, O'Donnell, K.P., additional, Oguchi, T., additional, Ohkawa, K., additional, Okamoto, S., additional, Okazaki, N., additional, Okumura, H., additional, Osman, M.A., additional, Palmour, J.W., additional, Paloura, E.C., additional, Palummo, M., additional, Paoletti, A., additional, Papon, A.M., additional, Paroli, P., additional, Parrinello, M., additional, Pensl, G., additional, Pereira, E., additional, Perlin, P., additional, Petalas, J., additional, Pfeiffer, W., additional, Phillips, M.C., additional, Pikus, F.G, additional, Pinter, I., additional, Pirzer, M., additional, Pohl, U., additional, Pohl, U.W., additional, Polatoglou, H.M., additional, Polian, A., additional, Polini, R., additional, Ponga, B.E., additional, Ponthenier, J.L., additional, Porowski, S., additional, Prins, J.F., additional, Prior, K.A., additional, Puls, J., additional, Qiu, J., additional, Qteish, A., additional, Raciukaitis, G., additional, Reining, L., additional, Reisinger, T., additional, Restle, M., additional, Righini, M., additional, Rodríguez-Hernández, P., additional, Rolfe, S.J., additional, Romestain, R., additional, Ryzhikov, VD., additional, Sailer, B., additional, Sander, D., additional, Santos, L., additional, Sasaki, T., additional, Sawada, M., additional, Scamarcio, G., additional, Scarselli, M.A., additional, Schadt, M., additional, Schneider, A., additional, Schneider, J., additional, Schöner, A., additional, Schülzgen, A., additional, Selci, S., additional, Shinohara, M., additional, Simpson, J., additional, Sorba, L., additional, Spellmeyer, B., additional, Stanley, R.P., additional, Stanzl, H., additional, Stein, R.A., additional, Stewart, H., additional, Suemune, I., additional, Sulzer, G., additional, Suski, T., additional, Suttrop, W., additional, Swenberg, J.F., additional, Taghizadeh, M.R., additional, Takeyama, S., additional, Tansley, T.L., additional, Tebano, A., additional, Thurian, P., additional, Tosatti, E., additional, Trager-Cowan, C., additional, Troullier, N., additional, Tschentscher, I., additional, Tsuboi, N., additional, Tsujimura, A., additional, Tsukioka, K., additional, Tupenevich, P.A., additional, Turner, K.F., additional, Uchiki, H., additional, Uhrmacher, M., additional, Ullrich, B., additional, Uttamchandani, D., additional, Van de Walle, C.G., additional, van der Weide, J., additional, Van Hove, J.M., additional, Vanderbilt, D., additional, Vanzetti, L., additional, Vasileska, D., additional, Vial, J.C., additional, Wagner, H.P., additional, Wahl, U., additional, Waldmann, H., additional, Walker, CT., additional, Wang, E.G., additional, Wang, M.W., additional, Wang, S.Y., additional, Wang, Y., additional, Weinhold, V., additional, Wiehert, T., additional, Wild, C., additional, Witthuhn, W., additional, Wolf, H., additional, Wolf, K., additional, Wörz, M., additional, Yablonskii, G.P., additional, Yagi, M., additional, Yamaga, S., additional, Yamanaka, M., additional, Yang, F., additional, Yoshii, S., additional, Yoshikawa, A., additional, Yu, X., additional, Zeitz, W., additional, and Zimin, L.G., additional

Published
1993
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198. Properties of the Second Outburst of the Bursting Pulsar (GRO J1744-28) as Observed with BASTE

Author

Woods, Peter M, Kouveliotou, Chryssa, VanParadus, Jan, Briggs, Michael S, Wilson, C. A, Deal, Kim, Harmon, B. A, Fishman, G. J, Lewin, W. H. G, and Kommers, J

Subjects
Space Radiation
Abstract

One year after its discovery, the Bursting Pulsar (GRO J1744-28) went into outburst again, displaying the hard X-ray bursts and pulsations that make this source unique. We report on BATSE (Burst and Transient Source Experiment) observations of both the persistent and burst emission for this second outburst and draw comparisons with the first. The second outburst was smaller than the first in both duration and peak luminosity. The persistent flux, burst peak flux, and burst fluence were all reduced in amplitude by a factor of approximately 1.7. Despite these differences, the two outbursts were very similar with respect to the burst occurrence rate, the durations and spectra of bursts, the absence of spectral evolution during bursts, and the evolution of the ratio alpha of average persistent to burst luminosity. Although no spectral evolution was found within individual bursts, we find evidence for a small (20%) variation of the spectral temperature during the course of the second outburst.

Published
1999
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200. Preview of the BATSE Earth Occultation Catalog of Low Energy Gamma Ray Sources

Author

Harmon, B. A, Wilson, C. A, Fishman, G. J, McCollough, M. L, Robinson, C. R, Sahi, M, Paciesas, W. S, and Zhang, S. N

Subjects
Space Radiation
Abstract

The Burst and Transient Source Experiment (BATSE) aboard the Compton Gamma Ray Observatory (CGRO) has been detecting and monitoring point sources in the high energy sky since 1991. Although BATSE is best known for gamma ray bursts, it also monitors the sky for longer-lived sources of radiation. Using the Earth occultation technique to extract flux information, a catalog is being prepared of about 150 sources potential emission in the large area detectors (20-1000 keV). The catalog will contain light curves, representative spectra, and parametric data for black hole and neutron star binaries, active galaxies, and super-nova remnants. In this preview, we present light curves for persistent and transient sources, and also show examples of what type of information can be obtained from the BATSE Earth occultation database. Options for making the data easily accessible as an "on line" WWW document are being explored.

Published
1999

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