Mahendra Kumar Pradhan scite author profile

Mahendra Kumar Pradhan

5Publications

8Citation Statements Received

43Citation Statements Given

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Affiliations

Mahaveer Academy of Technology and Science University

Publications

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Photoluminescece and Thermoluminescence Behavior of Zn2SiO4: Mn2+, Eu2+ Phosphor

Dubey¹,

Tiwari²,

Pradhan³

et al. 2014

JLA

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The present paper reports the synthesis, photoluminescence and thermoluminescence (TL) studies of Mn 2+ and Eu 2+ doped Zn2SiO4. The sample was prepared by the modified solid state reaction method, which is the most suitable for large-scale production. The prepared phosphor sample was characterized using Powder XRay Diffraction (PXRD), Field Emission Scanning Electron Microscopy (FESEM), Fourier Transform Infrared Spectroscopy (FTIR), photoluminescence (PL) and Thermoluminescence (TL) techniques. The PL emission was observed in the range 400-650 nm ranges green regions for the Mn 2+ and Eu 2+ doped Zn2SiO4. Excitation spectrum found at 267, 278 and 314nm. Sharp intense peaks found around 490, 544 and 552nm with high intensity. From the XRD data, using the Scherer's formula, the calculated average crystallite size of phosphor is around few microns. Thermoluminescence study was carried out for the phosphor with UV irradiation with linear heating rate 6.7 0 C s -1 . The kinetic parameters are calculated by (Computerized glow curve convolution technique) CGCD technique.

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“A neural network controller for high power factor in fly back converters”

Shukla

Pradhan

2016

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Enhanced Power Quality/Efficiency using Bridgeless Converter using Mo-SMPS

sahu¹,

Pradhan²

2016

IJETT

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In this thesis, the performance of single phase and three phases AC to DC converter and energy conversion to application are investigation is to identify the development of new control schemes. This type of involving low frequency in energy transfer is of great interest in energy conversion system. This application is motivated by, first a single-phase boost converter is studied and the proposed controller in providing a input resistive behavior is verified experimentally. Next, the proposed for a single phase converter is converted to a three phase bridgeless boost-type converter. To this end, the three converters are the model of average is obtained and designating in utilized a feedback control scheme to a resistive across of the converter in each phase. The single-phase system is similar is. The doe's not required proposed controller a knowledge of the wave form input characteristics and time-varying frequencies and amplitude are convert into regulating by DC power. The each phase of input resistance.

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Asymmetric Multilevel Converter with Reduced Number of Power Electronic Components

Sahu¹,

Pradhan²

2016

IJETT

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Thermoluminescence and Photoluminescence Study of Erbium Doped CaY₂O₄ Phosphor

Dubey

Tiwari

Tamrakar

et al. 2015

Indian Journal of Materials Science

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Phosphor doped with erbium ion with variable concentration (0.5-2 mol%) was synthesized by solid state reaction method. CaY 2 O 4 :Er 3+ phosphor is characterized by X-ray diffraction technique for structural analysis and crystallite size calculation. Average crystallite size was found to be nearly 58 nm. Two prominent TL glow peaks found at 163 ∘ C associated with higher temperature peak 340 ∘ C. The peak intensity of higher temperature (340 ∘ C) peak was less as compared to lower temperature peak (163 ∘ C) because the deep trapping formation is less in case of UV irradiation. Sample shows good TL glow curve and for variable UV exposure time maximum TL intensity was found at 20 min UV exposure which is optimized UV exposure time. Sample was studied by photoluminescence emission spectra excited by xenon flash lamp with nearly 360 nm and four prominent peaks found at wavelengths 445, 525, 553, and 565 nm; here the 445 and 565 nm peak were intense as compared to others. From the PL emission spectra, it is concluded that the color tenability of prepared CaY 2 O 4 :Er 3+ was blue-green and it is verified by CIE coordinate. Kinetic parameters of prepared phosphor were calculated by computerized glow curve deconvolution (CGCD) technique.

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