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BITS Pilani Institutional Repository
Browsing by Author Sharma, Bhupendra Kumar
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Showing results 61 to 80 of 85
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Issue Date
Title
Author(s)
2018-02
Nanofluid (H 2 O-Al 2 O 3 /CuO) flow over a heated square cylinder near a wall under the incident of Couette flow
Sharma, Bhupendra Kumar
2019-07
Nanofluid flow and heat transfer from heated square cylinder in the presence of upstream rectangular cylinder under Couette-Poiseuille flow
Sharma, Bhupendra Kumar
2023-06
Numerical investigation of the entropy generation analysis for radiative MHD power-law fluid flow of blood through a curved artery with Hall effect
Sharma, Bhupendra Kumar
2023-07
Optimization of heat transfer nanofluid blood flow through a stenosed artery in the presence of Hall effect and hematocrit dependent viscosity
Sharma, Bhupendra Kumar
2023-07
Optimizing energy generation in power-law nanofluid flow through curved arteries with gold nanoparticles
Sharma, Bhupendra Kumar
2019-06
Radiation Effect on MHD Blood Flow Through a Tapered Porous Stenosed Artery with Thermal and Mass Diffusion
Sharma, Bhupendra Kumar
2022-08
Radiation effect on MHD copper suspended nanofluid flow through a stenosed artery with temperature-dependent viscosity
Sharma, Bhupendra Kumar
2007-03
Radiation effect on temperature distribution in three-dimensional Couette flow with suction or injection
Sharma, Bhupendra Kumar
2006
Radiation effect with simultaneous thermal and mass diffusion in MHD mixed convection flow from a vertical surface with ohmic heating
Sharma, Bhupendra Kumar
2023-06
Response surface optimization for the electromagnetohydrodynamic Cu-polyvinyl alcohol/water Jeffrey nanofluid flow with an exponential heat source
Sharma, Bhupendra Kumar
2017-09
Role of Slip Velocity in a Magneto-Micropolar Fluid Flow from a Radiative Surface with Variable Permeability: A Numerical Study
Sharma, Bhupendra Kumar
2023-07
Sensitivity analysis of electroosmotic magnetohydrodynamics fluid flow through the curved stenosis artery with thrombosis by response surface optimization
Sharma, Bhupendra Kumar
2019-02
Soret and Dufour Effects in Biomagnetic Fluid of Blood Flow Through a Tapered Porous Stenosed Artery
Sharma, Bhupendra Kumar
2013-04
Soret And Dufour effects on an unsteady MHD mixed convective flow past an infinite vertical plate with Ohmic dissipation and heat source
Sharma, Bhupendra Kumar
2023
Soret and Dufour effects on MHD nanofluid flow of blood through a stenosed artery with variable viscosity
Sharma, Bhupendra Kumar
2012
Soret and Dufour effects on unsteady MHD mixed convection flow past a radiative vertical porous plate embedded in a porous medium with chemical reaction
Sharma, Bhupendra Kumar
2017
Thermal and mass diffusion on hydromagnetic flow from a vertical surface with induced magnetic field
Sharma, Bhupendra Kumar
2015
Thermal radiation effect on inclined arterial blood flow through a non-Darcian porous medium with magnetic field
Sharma, Bhupendra Kumar
2014-09
This paper discusses the use of an approximated charge carrier density to model an organic thin-film transistor (OTFT) using a double exponential density of states. Traditionally, published work employs a single exponential density of states and Gaussian density of states. On the contrary, this paper employs a double exponential density of states in the Fermi integral to evaluate the charge carrier density for the OTFT. We consider two exponential density of states, one rateled to the tail region and one to a deep region, in addition to various associated parameters. The distribution of localized trap states between the highest and lowest orbital is expressed as a density of states, one for the tail states and one for the deep states. Tail states are better described by the Gaussian function, while deep states are better described by the exponential density of states. Therefore, if we require that the two regions be defined by a single function, then the function should be a sum of the two, the exponential and the Gaussian, to more accurately describe the complete region. The double exponential density of states is employed to evaluate and approximate the Fermi integral using various mathematical methods, so that the error is lower for various parameters.
Sharma, Bhupendra Kumar
2012
Three-dimensional mixed convection flow past an infinite vertical plate with constant surface heat flux
Sharma, Bhupendra Kumar