Milan Banerjee scite author profile

Milan Banerjee

5Publications

15Citation Statements Received

18Citation Statements Given

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Affiliations

Armed Forces Medical College, Savitribai Phule Pune University

Publications

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A personal-computer-based thermoluminescence data acquisition and analysis system for studies on low-temperature thermoluminescence glow peaks from photosynthetic material

Thomas¹,

Banerjee²,

Vidyasagar³

et al. 1995

Meas. Sci. Technol.

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A personal-computer-based low-temperature thermoluminescence system has been developed for recording thermoluminescence from photosynthetic materials, in the temperature range from liquid nitrogen temperature (-196'C) to f60 'C. Programmable and linear temperature-time profiles are provided by a dedicated microprocessor-based PID temperature controller. The PClAT with an add-on card acquires the thermoluminescence data. This paper describes the thermoluminescence set-up, the interface to the personal computer and the software developed for acquisition, processing and analysis of the thermoluminescence data.

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Determination of peak parameters for thermoluminescence glow curves obtained from spinach thylakoid preparations, using mathematical models based on general order kinetics

Vidyasagar¹,

Thomas²,

Banerjee³

et al. 1993

Journal of Photochemistry and Photobiology B: Biology

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Deformation luminescence produced during application and release of pressure on to gamma-irradiated CaF2:RE crystals

Kher¹,

Brahme²,

Banerjee³

et al. 2006

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Calcium fluoride CaF2 is an interesting host lattice for rare earth (RE) activators. CaF2 crystals doped with different concentrations of Dy, Ce, Er and Gd have been grown by the Bridgman technique and their deformation luminescence (DL) induced by room temperature gamma irradiation has been recorded. When a uniaxial pressure is applied on to gamma-irradiated CaF2:RE crystals, initially the DL intensity increases with time, attains a maximum value and then it decreases with time. Although the DL intensity produced during the release of pressure is less, its rise and decay behaviours are similar to that obtained during the application of pressure. The DL intensity depends on dopant, concentration of dopant, irradiation doses and mass of the load or applied pressure. It is suggested that the moving dislocation produced during deformation of crystals capture holes from hole trapped centres (like perturbed Vk centre) and the subsequent radiative recombination of the dislocation holes with electrons give rise to DL.

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Response of the FBX system to a carbon beam: its potential as a dosimeter in heavy particle radiotherapy

et al. 2002

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The FBX aqueous chemical dosimeter contains 0.2 mol m(-3) ferrous ammonium sulphate, 5.0 mol m(-3) benzoic acid and 0.20 mol m(-3) xylenol orange in 40.0 mol m(-3) sulphuric acid. The dosimeter can measure photon and electron doses in the range 0.1 to 3000 cGy in radiotherapy. The response of this dosimeter was measured for a 53.2 MeV carbon beam in the present work. Our initial result indicates that the sensitivity of the FBX system to the carbon beam as compared to cobalt-60 gamma rays is 25.5%, and thus we believe that the FBX system could be a useful dosimeter for carbon beams and similar heavy ions considered useful in radiotherapy.

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Tail states in hydrogenated amorphous silicon studied by thermoluminescence

Nikum

Banerjee

Vidyasagar

et al. 1991

Solid State Communications

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Milan Banerjee

A personal-computer-based thermoluminescence data acquisition and analysis system for studies on low-temperature thermoluminescence glow peaks from photosynthetic material

Determination of peak parameters for thermoluminescence glow curves obtained from spinach thylakoid preparations, using mathematical models based on general order kinetics

Deformation luminescence produced during application and release of pressure on to gamma-irradiated CaF2:RE crystals

Response of the FBX system to a carbon beam: its potential as a dosimeter in heavy particle radiotherapy

Tail states in hydrogenated amorphous silicon studied by thermoluminescence

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