Amit Kumar Sharma

Malaviya National Institute of Technology Jaipur · Department of Electronics and Communication Engineering

This paper presents the analytical inquisition of photonic entanglement generation circuit (PEGC) for non-local qubits designed using quantum dot within the optical micro-cavity, considering the realistic environment. It is established that the concurrence of the PEGC is considerably contingent on the interplay between the spin of quantum dot and p...

This paper presents the analytical investigation of the Fidelity and Concurrence of Photonic Quantum teleportation Circuit (PQTC) designed using quantum dot within the optical micro-cavity, considering vacuum noise and sideband leakage. It is found that the performance of the Photonic Quantum teleportation Circuit is significantly dependent on the...

This paper presents the analytical inquisition of photonic entanglement generation circuit (PEGC) for non local Qubits designed using quantum dot within the optical micro-cavity, considering practical environment. It is established that the concurrence of the PEGC is considerably contingent on the interplay between spin of quantum dot and photon wi...

A Quantum dot implanted within a double-sided optical microcavity is considered and investigated as a critical component for all optical-based quantum internets. Due to the duality as the photonic quantum transistor and gate, the QD cavity system repsents a sturdy base for the future photonic quantum network. With the help of the analytical investi...

A Quantum dot implanted within double-sided optical microcavity is explained and established as a critical component for all optical-based quantum internets. Due to the duality as the photonic quantum transistor and gate, the QD cavity system presents a sturdy base for the future photonic quantum network. With the help of the analytical investigati...

In this paper a two Qubit deterministic compact photonic CNOT gate is analyzed under noisy conditions. Concurrence of the designed compact photonic CNOT gate has been calculated with and without noise parameter. The behavior of this gate is universal. The feasibility of the scheme by observing variation in concurrence with different system paramete...

This paper presents the analytic investigation of the effect of noise on the Fidelity of Photonic Qubit based deterministic CNOT gate (designed employing quantum dot (QD) spin within the double sided optical micro-cavity), considering vacuum noise and sideband leakage. It is found that the performance of the CNOT gate is significantly dependent on...

This paper is devoted to analyze amplification properties of silicon waveguides with an Emphasize on geometry optimization using recently derived Nonlinear Schrodinger equations. As Nonlinear Schrodinger equations are best suitable theoretical model to investigate behavior of optical wave propagating through silicon waveguides. As Raman amplificati...

Raman amplification inside Nano crystal silicon has been demonstrated recently. Here we present the theoretical study of continuous-wave Raman amplification in silicon-Nano crystal waveguides using recently derived generalized nonlinear Schrodinger equations. We observe how the peak signal intensity (output) and the optimum waveguide length depend...