Quantum technologist, NASA-trained Commercial Astronaut Christopher Altman

Quantum Interferometric Sensors LSU Quantum entanglement garners a number of advantages to metrology and remote sensing applications. Dowling, Kapale et al. have issued a recent summary of progress in quantum interferometric sensors, which harness quantum entanglement for improved measurement sensitivity approaching the Heisenberg limit.

Phase-Slip Flux Qubits TU Delft In a recent paper submitted to the New Journal of Physics special issue on solid-state quantum information processing, Mooij and Harmans introduce phase-slip flux qubits, which harness quantum tunnelling to realize a superconducting qubit without the use of Josephson junctions. Phase-slip qubits potentially hold two distinct advantages over traditional flux qubits: lower sensitivity to charge noise-based sources of decoherence, and well-defined separation of energy levels of more than 500 GHz, allowing for extremely rapid excitation of the qubit.



Energy Level Separation Energy levels as a function of applied flux for different fluxoid numbers. A phase-slip event changes the fluxoid number n. The arrow indicates the operating point at f= ½.

Macroscopic EPR Pairs in Superconducting Circuits RIKEN In quant-ph/0508027, Nori et al. propose an efficient approach for deterministic generation of entangled EPR pairs in coupled Josephson nanocicruits. Realization of the experiment would provide an effective means of testing Bell inequality violations, demonstrating nonlocality of quantum entanglement in macroscopic systems.