2019 - Fellow of the African Academy of Sciences
His primary scientific interests are in Quantum mechanics, Quantum optics, Atomic physics, Quantum well and Photon. He regularly ties together related areas like Quantum electrodynamics in his Quantum mechanics studies. His Quantum optics research is multidisciplinary, incorporating elements of Cavity quantum electrodynamics and Squeezed coherent state.
His Atomic physics research includes themes of Time evolution, Spontaneous emission, Laser, Optics and Adiabatic process. His research in Quantum well intersects with topics in Field, Semiconductor, Polariton, Optical microcavity and Optical bistability. His Photon study which covers Quantum decoherence that intersects with Dissipative system and Fock state.
Hichem Eleuch mostly deals with Quantum mechanics, Quantum entanglement, Quantum, Qubit and Nonlinear system. His research in Coherent states, Quantum decoherence, Quantum well, Photon and Coherence are components of Quantum mechanics. Hichem Eleuch interconnects Quantum optics, Quantum electrodynamics, Exciton, Condensed matter physics and Semiconductor in the investigation of issues within Quantum well.
His studies deal with areas such as Squeezed coherent state and Atomic physics as well as Photon. His work on Squashed entanglement, Quantum discord and Concurrence as part of general Quantum entanglement research is often related to Sudden death, thus linking different fields of science. The Quantum study combines topics in areas such as Classical mechanics, Scattering, Wave function and Eigenfunction.
His primary areas of investigation include Quantum mechanics, Qubit, Quantum, Quantum entanglement and Nonlinear system. He frequently studies issues relating to Noise and Quantum mechanics. The concepts of his Qubit study are interwoven with issues in Quantum decoherence, Field, Master equation, Quantum information and Coherent states.
His studies in Quantum integrate themes in fields like Molecular physics, Coherence and Dissipation. His Quantum entanglement research incorporates elements of Hamiltonian, Quantum algorithm, Waveguide and Black box. His study in Nonlinear system is interdisciplinary in nature, drawing from both Phase space method, Scattering, Mathematical analysis and Applied mathematics.
His main research concerns Quantum, Qubit, Quantum mechanics, Mathematical analysis and Applied mathematics. His Quantum research is multidisciplinary, relying on both Molecular physics, Vacancy defect and Physical system. Hichem Eleuch combines subjects such as Quantum entanglement, Quantum algorithm, Black box and Anisotropy with his study of Qubit.
When carried out as part of a general Quantum entanglement research project, his work on Quantum teleportation is frequently linked to work in Balanced boolean function, therefore connecting diverse disciplines of study. In his works, Hichem Eleuch undertakes multidisciplinary study on Quantum mechanics and Hill differential equation. His Mathematical analysis research integrates issues from Flow and Soliton, Nonlinear system.
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Optical bistability in semiconductor microcavities
A. Baas;J. Ph. Karr;H. Eleuch;E. Giacobino.
Physical Review A (2004)
An adaptive model for predicting of global, direct and diffuse hourly solar irradiance
A. Mellit;H. Eleuch;M. Benghanem;C. Elaoun.
Energy Conversion and Management (2010)
Controllable nonlinear effects in an optomechanical resonator containing a quantum well
Eyob A. Sete;H. Eleuch.
Physical Review A (2012)
Strong squeezing and robust entanglement in cavity electromechanics
Eyob A. Sete;Hichem Eleuch.
Physical Review A (2014)
Light-to-matter entanglement transfer in optomechanics
Eyob A. Sete;H. Eleuch;C. H. Raymond Ooi.
Journal of The Optical Society of America B-optical Physics (2014)
Ultrafast stimulated Raman parallel adiabatic passage by shaped pulses
G. Dridi;S. Guérin;V. Hakobyan;H. R. Jauslin.
Physical Review A (2009)
Resonances in open quantum systems
Hichem Eleuch;Ingrid Rotter.
Physical Review A (2017)
Interaction of a quantum well with squeezed light: Quantum-statistical properties
Eyob A. Sete;H. Eleuch.
Physical Review A (2010)
Noise spectra of microcavity-emitting field in the linear regime
European Physical Journal D (2008)
Coherent control of atomic excitation using off-resonant strong few-cycle pulses
Pankaj K. Jha;Hichem Eleuch;Hichem Eleuch;Yuri V. Rostovtsev;Yuri V. Rostovtsev.
Physical Review A (2010)
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