Mamta Jangra scite author profile

Mamta Jangra

4Publications

51Citation Statements Received

33Citation Statements Given

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Affiliations

Homi Bhabha National Institute, Tata Institute of Fundamental Research, Guru Jambheshwar University of Science and Technology

Publications

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Characterization of Silicon-Photomultipliers for a Cosmic Muon Veto detector

Jangra¹,

Majumder²,

Saraf³

et al. 2021

J. Inst.

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A Cosmic Muon Veto (CMV) detector using extruded scintillators is being designed around the mini-Iron Calorimeter detector at the transit campus of the India-based Neutrino Observatory, Madurai for measuring its efficiency at shallow depth underground experiments. The scintillation signal is transmitted through a Wavelength Shifting (WLS) fibre and readout by Hamamatsu Silicon-Photomultipliers (SiPMs). A Light Emitting Diode (LED) system is included on the front-end readout for in-situ calibration of the gain of each SiPM. A characterization system was developed for the measurement of gain and choice of the overvoltage (V ov) of SiPMs using the LED as well as a cosmic muon telescope. The V ov is obtained by studying the noise rate, the gain of the SiPM, and the muon detection efficiency. In case of any malfunction of the LED system during the operation, the SiPM can also be calibrated with the noise data as well as using radioactive sources. This paper describes the basic characteristics of the SiPM and the comparison of the calibration results using all three methods, as well as the V ov of the SiPMs and muon selection criteria for the veto detector.

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Carbon nanotubes: Amino functionalization and its application in the fabrication of Al-matrix composites

et al. 2012

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Qualification study of SiPMs on a large scale for the CMVD Experiment

Jangra¹,

Bhupen²,

Majumder³

et al. 2022

J. Inst.

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A Cosmic Muon Veto (CMV) detector using extruded plastic scintillators is being designed around the mini-Iron Calorimeter (mini-ICAL) detector at the transit campus of the India based Neutrino Observatory, Madurai for the feasibility study of shallow depth underground experiments. The scintillation signals that are produced in the plastic due to muon trajectories are absorbed by wavelength shifting (WLS) fibres. The WLS fibres re-emit photons of longer wavelengths and propagate those to silicon photo-multipliers (SiPMs). The SiPMs detect these photons, producing electronic signals. The CMV detector will use more than 700 scintillators to cover the mini-ICAL detector and will require around 3000 SiPMs. The design goal for the cosmic muon veto efficiency of the CMV is >99.99%. Hence, every SiPM used in the detector needs to be tested and characterised to satisfy the design goal of CMV. A mass testing system was developed for the measurement of gain and choice of the overvoltage (V ov) of each SiPMs using an LED driver. The V ov is obtained by studying the noise rate, the gain of the SiPM. This paper describes the experimental setup used to test the SiPMs characteristics along with detailed studies of those characteristics as a function of temperature.

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Characterization of Hamamatsu SiPM for Cosmic Muon Veto Detector at IICHEP

Jangra

Saraf

Datar

et al. 2022

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Mamta Jangra

Characterization of Silicon-Photomultipliers for a Cosmic Muon Veto detector

Carbon nanotubes: Amino functionalization and its application in the fabrication of Al-matrix composites

Qualification study of SiPMs on a large scale for the CMVD Experiment

Characterization of Hamamatsu SiPM for Cosmic Muon Veto Detector at IICHEP

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