A. Shenoy scite author profile

We have investigated the time variations in the light curves from a sample of long and short Fermi/GBM Gamma ray bursts (GRBs) using an impartial wavelet analysis. The results indicate that in the source frame, that the variability time scales for long bursts differ from that for short bursts, that variabilities on the order of a few milliseconds are not uncommon, and that an intriguing relationship exists between the minimum variability time and the burst duration.

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Fast base extension using a redundant modulus in RNS

Shenoy

Kumaresan

1989

IEEE Trans. Comput.

118

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LOCATING THE ACCRETION FOOTPRINT ON A HERBIG Ae STAR: MWC 480

Grady

Hamaguchi

Schneider

et al. 2010

ApJ

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Accretion is a fundamental process which establishes the dynamics of the protoplanetary disk and the final properties of the forming star. In solar-type stars, the star-disk coupling is determined by the magnetic field structure, which is responsible for funneling material from the disk midplane to higher latitudes on the star. Here, we use pan-chromatic data for the Herbig Ae star MWC 480 to address whether similar processes occur in intermediatemass stars. MWC 480 has X-ray emission typical of actively accreting Herbig Ae stars, but with ∼10× more photoelectric absorption than expected from optical and FUV data. We consider three sources for the absorption: the disk, absorption in a wind or jet, and accretion. While we detect the disk in scattered light in a re-analysis of archival Hubble Space Telescope data, the data are consistent with grazing illumination of the dust disk. We find that MWC 480's disk is stratified, geometrically thin, and is not responsible for the observed photoelectric absorption. MWC 480 drives a bipolar jet, but with a mass-loss rate that is low compared to other Herbig Ae stars, where the outflow is more favorably oriented and enhanced photoelectric absorption is not seen. This excludes a jet or wind origin for the enhanced photoelectric absorption. We compare MWC 480's O vi emission with other Herbig Ae stars. The distribution of the emission in inclination, and lack of a correlation of profile shape and system inclination excludes equatorially confined accretion for the FUSE Herbig Ae stars. The photoelectric absorption data further suggest that the accretion footprint on MWC 480 and other Herbig Ae stars is located at high-temperate, rather than polar, latitudes. These findings support the presence of funneled accretion in MWC 480 and Herbig Ae stars, strengthening the parallel to T Tauri stars.

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Gamma-Ray Bursts: Temporal Scales and the Bulk Lorentz Factor

Сонбас

MacLachlan

Dhuga

et al. 2015

ApJ

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For a sample of Swift and Fermi GRBs, we show that the minimum variability timescale and the spectral lag of the prompt emission is related to the bulk Lorentz factor in a complex manner: For small Γ's, the variability timescale exhibits a shallow (plateau) region. For large Γ's, the variability timescale declines steeply as a function of Γ (δT ∝ Γ −4.05±0.64 ). Evidence is also presented for an intriguing correlation between the peak times, t p , of the afterglow emission and the prompt emission variability timescale.

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PROBING CURVATURE EFFECTS IN THEFERMIGRB 110920

Shenoy

Сонбас

Dermer

et al. 2013

ApJ

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Curvature effects in Gamma-ray bursts (GRBs) have long been a source of considerable interest. In a collimated relativistic GRB jet, photons that are off-axis relative to the observer arrive at later times than on-axis photons and are also expected to be spectrally softer. In this work, we invoke a relatively simple kinematic two-shell collision model for a uniform jet profile and compare its predictions to GRB prompt-emission data for observations that have been attributed to curvature effects such as the peak-flux-peak-frequency relation, i.e., the relation between the νF ν flux and the spectral peak, E pk in the decay phase of a GRB pulse, and spectral lags. In addition, we explore the behavior of pulse widths with energy. We present the case of the single-pulse Fermi GRB 110920, as a test for the predictions of the model against observations.

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A. Shenoy

Minimum variability time-scales of long and short GRBs

Fast base extension using a redundant modulus in RNS

LOCATING THE ACCRETION FOOTPRINT ON A HERBIG Ae STAR: MWC 480

Gamma-Ray Bursts: Temporal Scales and the Bulk Lorentz Factor

PROBING CURVATURE EFFECTS IN THEFERMIGRB 110920

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