The rich field of two spatial nanostructures has surpassed to hopeful applications in many research extents in the current decades. Theoretical in addition to experimental investigation and reasoning of their tangible, synthetic, warm and electronic possessions has confirmed expected of huge importance and has developed in many potential uses in sensors, batteries, photodetectors and differing added optoelectronic tools. Exploiting thermodynamic properties has requests in fields had connection with strength and surroundings. The present study handles the thermodynamic properties of a circularly limited GaAs/AlGaAs quantity plate accompanying an on-centre hydrogenic impurity. The reliance of aforementioned possessions on azimuthal deformity depicted by a non-central potential is examined. The influence of outside limits, namely., temperature and outside magnetic field of currents, in addition to the effect of restriction radius, on the thermodynamic characteristics, is still investigated. The importance of deformity is found to have a deep effect on specific characteristics of bureaucracy, the knowledge of that is important to accept the behaviour of useful quantity systems. The results concerning this study be necessary to specify a guide for bringing into harmony the thermal features of a quantity disc and therefore aid the development of proficient nanodevices.
Author(s) Details:
Sonia Lumb,
Department
of Physics and Electronics, Rajdhani College, University of Delhi, New Delhi,
India.
Shalini
Lumb Talwar,
Department
of Physics, Maitreyi College, University of Delhi, New Delhi, India.
Vinod Prasad,
Department of Physics, Swami Shraddhanand College, University of
Delhi, Delhi, India.
Please see the link here: https://stm.bookpi.org/RPST-V3/article/view/9327
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