Joseph M Lukens

Joseph Lukens

Joint Faculty Appointment (Purdue University)

Contact

LUKENSJM1@ORNL.GOV

All Publications

Bayesian quantum state reconstruction with a learning-based tuned prior...

Throughput Measurements and Capacity Estimates for Quantum Connections...

Polarization-entangled source for flex-grid C+L-band quantum networks

Coexistent Quantum Channel Characterization Using Spectrally Resolved Bayesian Quantum Process Tomography

Time-Resolved Hanbury Brown–Twiss Interferometry of On-Chip Biphoton Frequency Combs Using Vernier Phase Modulation

Modelling integrated quantum frequency processors towards robust quantum networks

Biphoton spectral quantum interference for information processing and delay metrology

Coexistent quantum channel characterization using quantum process tomography with spectrally resolved detection...

Dimension-adaptive machine learning-based quantum state reconstruction

Broadband polarization-entangled source for C+L-band flex-grid quantum networks

A Wavelength-Multiplexing Toolkit for Quantum Networks

Design Methodologies for Integrated Quantum Frequency Processors

Complete Frequency-Bin Bell Basis Synthesizer

Time-resolved HBT interferometry of an integrated pulsed biphoton frequency comb

Quantum delay metrology with complete frequency-bin Bell basis synthesizer

Investigation of Microwave Transducers for Linearity Dependence and Applications in Quantum Networking

Data-centric machine learning in quantum information science...

Bayesian Estimation of Oscillator Parameters: Toward Anomaly Detection and Cyber-Physical System Security

Bayesian tomography of high-dimensional on-chip biphoton frequency combs with randomized measurements

Optimal resource allocation for flexible-grid entanglement distribution networks

A Bayesian approach to nanoparticle characterization

Bayesian Optical Heterodyne Tomography

Quantum Networking and Communications at Oak Ridge National Laboratory

Advanced architectures for high-performance quantum networking

Bayesian homodyne and heterodyne tomography