[Legacy Report] Electronic Transport in Quantized Low Dimensional Semiconductor Systems and Metal Nanoparticles
#Mobility
#transport
#parameter
#nanoparticles
#zero
#dimensionalquantized
#semiconductor
#etc
In the presence of external perturbation, such as electric, magnetic fields or temperature gradient electrons move in a definite path either along the field or in the direction perpendicular to the direction of the applied field. The degree of freedom of such electrons can be quantized form 3, 2, 1 to zero dimension by either spatial quantization or quantization due to such fields describe above. In such quantized low dimensional system, the dimension of the semiconductor system is of the order of deBroglie wave length it is very interesting to study the transport parameters such as mobility, seebeck coefficient, figure of merit due to their application not only in the present technology but also to know the physics behind them. Furthermore, the study of such parameters in metal nanoparticle, the physical and chemical properties of which depends significantly on the surface area also is equally important and interesting.
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Sanju Shrestha of Central Dept. of Physics, Tribhuvan University
Topic:
Electronic Transport in Quantized Low Dimensional Semiconductor Systems and Metal Nanoparticles
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Address:Kathmandu, Nepal