Sabyasachi Ray scite author profile

Sabyasachi Ray

5Publications

16Citation Statements Received

97Citation Statements Given

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164

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North Bengal University

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Searching for PeV neutrinos from photomeson interactions in magnetars

Dey

Ray

Dam

2016

EPL

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In this paper we estimate the flux of PeV neutrinos and gamma-rays from magnetar polar caps, assuming that ions/protons are injected, and accelerated in these regions and interact with the radiative background. The present study takes into account the effect of the photon splitting mechanisms that should modify the radiative background, and enhance the neutrino and gamma-ray fluxes at PeV energies, with a view to explain the PeV neutrino events detected in IceCube. The results indicate that in near future, possibility of any significant excess of neutrino events from a magnetar in Milky Way is extremely low. Further, we suggest that the simultaneous observation of neutrinos and gamma-rays at Earth from expanded 'Gen2' IceCube detector and/or High Altitude Water Cherenkov Observatory would provide opportunities to explore the possible origin of very high energy neutrinos and gamma-rays.

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Newly Born Extragalactic Millisecond Pulsars as Efficient Emitters of PeV Neutrinos

Dey

Basak²,

Ray³

et al. 2021

Braz J Phys

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Imprint of the atmospheric attenuation process on electron distribution in EAS

2016

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Searching for correlations of geomagnetic activities with high-energy EAS muons

Dey¹,

Ray²,

Dam³

2020

Eur. Phys. J. Plus

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Determination of the mass and energy of primary cosmic rays above 100 TeV

et al. 2018

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This analysis aims to determine the mass composition and energy of cosmic rays at energies above 100 TeV based on the lateral distribution of extensive air showers. Here, we propose quite a few air shower observables for reconstructing the mass and energy of the primary particles. The present reconstruction uses a detailed Monte Carlo simulation for cosmic ray induced air showers in KASCADE and NBU types surface arrays of particle detectors. Some of the observables obtained from this analysis of simulated data are used to infer the nature of the primary particles from a comparison with KASCADE and/or NBU data. It is expected that the determination of primary energy of a cosmic-ray shower may deliver a better accuracy compared to standalone analysis using shower size or S600 or S500 or N pe etc, owing to strong fluctuations in the EAS development. Moreover, the present study might be useful to discriminate between hadronic cosmic rays and primary gamma rays, and to measure the cosmic ray all-particle energy spectrum.

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Sabyasachi Ray

Searching for PeV neutrinos from photomeson interactions in magnetars

Newly Born Extragalactic Millisecond Pulsars as Efficient Emitters of PeV Neutrinos

Imprint of the atmospheric attenuation process on electron distribution in EAS

Searching for correlations of geomagnetic activities with high-energy EAS muons

Determination of the mass and energy of primary cosmic rays above 100 TeV

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