NICOP - Quantum sensing technologies based on multiboson interferometry
Abstract
Multiboson quantum interference is one of the most intriguing phenomena in quantumphysics, and is at the very heart of quantum computing and metrology technologies.However, the post-classical sensing capabilities of multiboson networks are yet veryfar from being fully explored in practical experimental scenarios. This project aims todevelop scalable sensing techniques based on the use of optimal linear interferometerswith experimentally available bosonic input states. The main innovative idea is toexploit the full quantum information encoded in the interferometric evolution of theinput bosonic quantum states by employing novel measurement techniques. This willenable an enhanced quantum metrological sensitivity with scalable experimentalschemes.A completely novel versatile platform of high-precision phase-estimationinterferometers will boost Department of Defense quantum sensing technologies,enabling sensing with higher precision, with realistic bosonic sources.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Sep 04, 2018
- Source ID
- N629091812153
Entities
People
- Vincenzo Tamma
Organizations
- Office of Naval Research
- United States Navy
- University of Portsmouth