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This book is based upon theoretical, numerical and simulation studies of electrostatic potential in quantum complex plasmas. Such research have gained considerable attention due to their applications in solid state physics, microelectronics, semiconductor systems, nanotechnologies, metallic nanostructures, nano tubes, and high intense laser-produced plasmas. On the other hand, recently developed quantum plasma models have successfully predicted some new aspects of plasmas in microelectronic devices with nano-electronic components, dense astrophysical systems and also in the laser produced…mehr

Produktbeschreibung
This book is based upon theoretical, numerical and simulation studies of electrostatic potential in quantum complex plasmas. Such research have gained considerable attention due to their applications in solid state physics, microelectronics, semiconductor systems, nanotechnologies, metallic nanostructures, nano tubes, and high intense laser-produced plasmas. On the other hand, recently developed quantum plasma models have successfully predicted some new aspects of plasmas in microelectronic devices with nano-electronic components, dense astrophysical systems and also in the laser produced plasmas. Using the quantum hydrodynamic (QHD) model author have investigated shielding potential of a static test charge in quantum complex plasmas with the external magnetic field effects. It would give great pleasure to the author if the content of this book can provide useful information which may be used to inspire the readers to new research directions.
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Autorenporträt
Maryam Batool - MS in Physics (2013-2015), Lahore College for Women University, Pakistan. PhD in Electronic Science and Technology (2016-2019),University of Electronic Science and Technology of China.