Authors: Pingal Pratyush Nath, Debashis Saha, Dipankar Home, Urbasi Sinha
Published on: February 06, 2024
Impact Score: 8.45
Arxiv code: Arxiv:2402.03712
Summary
- What is new: Utilizing Leggett-Garg inequality violations within a loophole-free photonic architecture for random number generation.
- Why this is important: The need for truly unpredictable and secure random numbers for cryptographic applications.
- What the research proposes: A semi-device-independent quantum random number generation scheme based on the quantumness of single systems.
- Results: Securely generated 919,118 truly unpredictable bits.
Technical Details
Technological frameworks used: Semi-device-independent quantum random number generation framework
Models used: Leggett-Garg inequality violations, loophole-free photonic architecture
Data used: Analytical and numerical approaches for randomness quantification
Potential Impact
Cryptography, secure communications industries, and companies in need of high-quality randomness for encryption or secure data operations.
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