TL;DR
This paper introduces a fluorescence interferometer utilizing the emission of two qubits in quasi-one-dimensional modes, which can be implemented with nanowires or superconducting qubits for advanced quantum measurements.
Contribution
It proposes a novel interferometry system based on fluorescent emission from qubits in quasi-one-dimensional modes, adaptable to nanowire or superconducting qubit platforms.
Findings
Design of a fluorescence-based interferometer for qubits
Feasible implementation with nanowires or superconducting circuits
Potential for enhanced quantum measurement techniques
Abstract
We describe an interferometer based on fluorescent emission of radiation of two qubits in quasi-one-dimensional modes. Such a system can be readily realized with dipole emitters near conducting surface-plasmonic nanowires or with superconducting qubits coupled to coplanar waveguide transmission lines.
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