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AUTHOR(S): Roshlan Rahman Dipto, Mir Sakhawat Hossain, Md. Asifuzzaman, Abdus Sattar Mollah
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TITLE Quantum Mechanical Pulling Force Generation through Matter-Wave Impingement on Heterogeneous System |
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ABSTRACT The use of optical manipulations that changes the mechanical properties of light has been crucial across multiple fields. These techniques are being used in various optics and phonics applications. By following the same physical theory we can manipulate an atomic sized particle in the quantum domain. We have proposed an asymmetric configuration model to reverse quantum pulling force on a Xenon atom at a certain angle resulting from the interaction energy of the matter wave (Helium) near a copper substrate. Several full-wave quantum simulations and on this quantum mechanical configuration with two counter-propagating plane matter waves at different angles were performed. By utilizing a solution of time independent Schrödinger equation and stress tensor formula we calculated the force on the quantum particle. It implies physical adsorption scatterer phenomena that can be used for the development of modern quantum applications such as particle trapping and inertial confinement fusion. |
KEYWORDS Optical, Manipulation, Quantum, Schrödinger, Phonics, Fusion, Substrate |
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Cite this paper Roshlan Rahman Dipto, Mir Sakhawat Hossain, Md. Asifuzzaman, Abdus Sattar Mollah. (2025) Quantum Mechanical Pulling Force Generation through Matter-Wave Impingement on Heterogeneous System. International Journal of Applied Physics, 10, 203-209 |
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