M. Zuberi scite author profile

M. Zuberi

4Publications

50Citation Statements Received

91Citation Statements Given

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Affiliations

Tata Institute of Fundamental Research, National Research Centre for Grapes, Aligarh Muslim University

Publications

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Measurement of the Electrical Properties of a Thundercloud Through Muon Imaging by the GRAPES-3 Experiment

et al. 2019

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The GRAPES-3 muon telescope located in Ooty, India records rapid (∼10 min) variations in the muon intensity during major thunderstorms. Out of a total of 184 thunderstorms recorded during the interval April 2011-December 2014, the one on 1 December 2014 produced a massive potential of 1.3 GV. The electric field measured by four well-separated (up to 6 km) monitors on the ground was used to help estimate some of the properties of this thundercloud including its altitude and area that were found to be 11.4 km above mean sea level (amsl) and ≥380 km 2 , respectively. A charging time of 6 min to reach 1.3 GV implied the delivery of a power of ≥2 GW by this thundercloud that was moving at a speed of ∼60 km h −1 . This work possibly provides the first direct evidence for the generation of GV potentials in thunderclouds that could also possibly explain the production of highest energy (100 MeV) γ-rays in the terrestrial γ-ray flashes.

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Measurement of the electrical properties of a thundercloud through muon imaging by the GRAPES-3 experiment.

Hariharan¹,

Ahmad²,

Chandra³

et al. 2019

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Dependence of the muon intensity on the atmospheric temperature measured by the GRAPES-3 experiment

Arunbabu

Ahmad

Chandra

et al. 2017

Astroparticle Physics

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The angular resolution of GRAPES-3 EAS array after improved timing and shower front curvature correction based on age and size

Jhansi

Ahmad

Chakraborty

et al. 2020

J. Cosmol. Astropart. Phys.

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The angular resolution of an extensive air shower (EAS) array plays a critical role in determining its sensitivity for the detection of point γ-ray sources in the multi-TeV energy range. The GRAPES-3, an EAS array located at Ooty in India (11.4̂N, 76.7̂E, 2200 m altitude) is designed to study γ-rays in the TeV-PeV energy range. It comprises of a dense array of 400 plastic scintillators deployed over an area of 25000 m2 and a large area (560 m2) muon telescope. The development of a new statistical method has allowed the real time determination of propagation delay of each detector in the GRAPES-3 array. The shape of the shower front is known to be curved and here the details of a new method developed for accurate measurement of the shower front curvature is presented. These two developments have led to a sizable improvement in the angular resolution of the GRAPES-3 array. It is shown that the curvature depends on the size and the age of an EAS. By employing two different techniques, namely, the odd-even and the left-right methods, independent estimates of the angular resolution are obtained. The odd-even method estimates the best achievable resolution of the array. For obtaining the angular resolution, the left-right method is used after implementing the size and age dependent curvature correction. A comparison of the angular resolution as a function of EAS energy by these two methods shows them be virtually indistinguishable. The angular resolution of the GRAPES-3 array is 47′ for energies E>5 TeV and improves to 17′ at E>100 TeV, eventually approaching 10′ at E>500 TeV.

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M. Zuberi

Measurement of the Electrical Properties of a Thundercloud Through Muon Imaging by the GRAPES-3 Experiment

Measurement of the electrical properties of a thundercloud through muon imaging by the GRAPES-3 experiment.

Dependence of the muon intensity on the atmospheric temperature measured by the GRAPES-3 experiment

The angular resolution of GRAPES-3 EAS array after improved timing and shower front curvature correction based on age and size

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