Epsilon-near-zero waveguides for quantum information applications: a theoretical approach for n-qubits

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Epsilon_near_zero_waveguides_for_quantum_information_a_theoretical_approach_for_n_qubits.pdf (2.97 MB)

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2018

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Abstract

We study the cases of two-, three-, and N-qubits placed inside an epsilon-near-zero (ENZ) waveguide (WG) and present a formalism for the steady-state solution that applies for each case. For equal qubit parameters, we calculate the probability amplitudes of qubits to absorb a photon and make a transition to their excited states. Our results for the Nqubit case can pave the way for multi-qubit entanglement and quantum error correction schemes as well as superradiance studies.

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Journal of the Physical Society of Japan

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Physical Society of Japan

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http://hdl.handle.net/11693/50463

Published Version (Please cite this version)

https://doi.org/10.7566/JPSJ.87.114402

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Scholarly Publications - NANOTAM
Scholarly Publications - Electrical and Electronics Engineering
Scholarly Publications - Physics
Scholarly Publications - UNAM

Language

English

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Article