Nicholas Peters Section Head & Distinguished Research and Development Staff in The Quantum Information Science Section Contact PETERSNA@ORNL.GOV All Publications Procrustean entanglement concentration in quantum-classical networking Entanglement-based quantum digital signatures over a deployed campus network Field test of continuous-variable quantum key distribution with a true local oscillator... Generation and characterization of ultrabroadband polarization–frequency hyperentangled photons... Two-mode squeezing over deployed fiber coexisting with conventional communications Coexistent Quantum Channel Characterization Using Spectrally Resolved Bayesian Quantum Process Tomography Paving the Way for Satellite Quantum Communications Authentication of smart grid communications using quantum key distribution Reconfigurable Quantum Local Area Network Over Deployed Fiber Trusted Node QKD at an Electrical Utility... Polarization-agnostic continuous-variable quantum key distribution... Quantum nonlocal modulation cancelation with distributed clocks Procrustean entanglement concentration for quantum-classical coexistence Building a controlled-NOT gate between polarization and frequency... Modeling and Validation of Offset Cancellation for Hybrid Photonic-Electronic Transimpedance Amplifier Using All-Electronic C... Polarization–frequency hyperentangled photons: generation, characterization, and manipulation Quantum digital signatures over entanglement-based deployed campus network Quantum Key Distribution for Critical Infrastructures: Towards Cyber-Physical Security for Hydropower and Dams Procrustean entanglement concentration in dense wavelength-division multiplexing Characterization of Quantum Frequency Processors Tomography of ultrabroadband polarization-frequency hyperentangled photons Two-mode squeezing over deployed fiber coexisting with conventional communications Continuous-variable quantum key distribution with true local oscillator Space-based quantum networking in the presence of a nuclear disturbed environment Polarization-entangled source for flex-grid C+L-band quantum networks Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links Google Scholar ORCID LinkedIn IMPACT@ORNL Organizations Computing and Computational Sciences Directorate Computational Sciences and Engineering Division Quantum Information Science Section
