Authors: Niloy Ghosh, Sarang Pendharker

Published on: February 05, 2024

Impact Score: 8.22

Arxiv code: Arxiv:2402.02923

Summary

• What is new: Highlighting the enhancement of quantum mechanical interaction for digital to quantum information transduction.
• Why this is important: The difficulty in seamlessly converting digital microwave information into the quantum optical domain.
• What the research proposes: A detailed model of a wireless-to-optical converter with specified physical characteristics improving quantum interaction.
• Results: Demonstrates the feasibility of encoding quantum optical phase-space with classical microwave data while addressing quantum noise issues.

Technical Details

Technological frameworks used: Seamless wireless-to-optical conversion model

Models used: Quantum mechanical interaction and quantum optical phase-space encoding

Data used: Classical microwave domain information, quantum shot noise characteristics

Potential Impact

Telecommunications, quantum computing industries, and secure communications sectors.

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