Rezultaty
This is a generalization of task T11 to other Gaussian channels starting from their canonical forms Unicam We also consider nonGaussian channels whose generation is based on the techniques of photon addition or subtraction Unicam Finally we extend the results from binary to Mary discrimination York
Report on quantum radar technologyTechnical document which contains information about the developed technology on quantum radar and the potential challenges for further exploitation as a practical technology for civil applications security biomedicine etc It also discusses ethical and social implications The document will describe the potential broader implications of the developed technologies for exploitation in the wider society This includes potential pathways for developing practical medical devices or biological instrumentations It also covers implications on the use of new type of radar technology from noninvasive aspects to potential ethical problems associated with misuse
Experimental quantum pattern recognitionLab setup and basic experiment on unsupervised recognition data clustering Experiments based on spatial multimode parallel probing and reading andor quantum correlations across the cells INRIM Experiments based on singlecell addressing and entangled ancillas DTU Experiments for realtime measuring of absorption in a Petri dish DTU
Optimal quantum-enhanced data clusteringWe consider data clustering with supervisedunsupervised methods showing how quantum correlations may enhance the performance over the classical benchmark York Unicam
Room-temperature in-field test of microwave quantum illuminationUpgrade of the experiment to room temperature with the signal modes being sent through a waveguide at room temperature to probe an external target at a distance IST Aalto
Practical block-encoding in quantum readingWe study practical error correcting codes to boost the quantum readout of a spatial array of cells showing how quantum correlations may boost the data retrieval from block of cells Unicam Minimal requirements for the quantum probes are investigated too for the next experiments York
Dissemination and exploitation planThis document will describe the approaches and strategies to both dissemination and subsequent exploitation of the results. The dissemination plan will describe how the consortium is going to target different audiences in order to promote the project and its results, from academic groups to industry and wider general audience. This will be done considering different means (seminars, publications, website, press releases etc.) The exploitation plan will describe the strategies and steps to create further academic research as well as technological deployment of the results, e.g., via the potential founding of start ups/spin off and/or the interaction and involvement with the industrial sector.
Experimental realization of a microwave single-photon detectorThis device will be based on the use of dark states in a small inhomogeneous ensemble of transmons 4 or more to increase the interaction time between the photon absorbed in the ensemble and a readout resonator Aalto
Feedback assisted microwave-optical transducerThe current theoretical model based on optomechanics will be enhanced by introducing a feedback loop Evaluation of its application for microwave quantum illumination and hybrid quantum technologies Unicam
Receiver designs for microwave quantum illuminationTheoretical study of suboptimal and practical receivers which may work efficiently at the microwave regime including those based on linear optics and photodetection or homoheterodyne detection Unicam Optimization in terms of minimal requirements York
Experimental implementation of a non-invasive quantum photometerLab setup preparation of E Coli samples etc Experiment on quantum noninvasive biological probing and comparison with classical stateoftheart in photometers DTU NKT
Experimental implementation of quantum readingLab setup for basic experiments on binary quantum reading Experiment based on homodyne receivers and Belltype detections DTU NKT Experiment based on photoncounting receivers INRIM
Experimental realization of microwave quantum illuminationProofofprinciple implementation of the protocol in a dilution fridge with thermal noise artificially added to the signal modes Microwave entanglement is generated by a superconducting Josephson parametric amplifier and output detection is realized by using two different approaches postprocessed heterodyne measurement IST and single photodetection via transmon qubits Aalto The experiment will also benefit from all the previous knowhow in the optical setting INRIM
Optics and receivers for quantum reading and pattern recognitionPractical suboptimal receivers based on linear optics and photodetectors York Study of diffraction interbit interference and other optical details Unicam Tailored theoretical and optical analysis for quantum sensing of biosamples based on quantum channel discrimination and metrology York Practical receivers York comparison of performances based on different postprocessing methods Study of diffraction and other optical details Unicam
Dissemination and exploitation plan - updateThis document will describe the approaches and strategies to both dissemination and subsequent exploitation of the results The dissemination plan will describe how the consortium is going to target different audiences in order to promote the project and its results from academic groups to industry and wider general audience This will be done considering different means seminars publications website press releases etc The exploitation plan will describe the strategies and steps to create further academic research as well as technological deployment of the results eg via the potential founding of start upsspin off andor the interaction and involvement with the industrial sectorThe plan will be implemented during the entire project lifetime and updated in the second reporting period
Optimal adaptive discrimination of lossy channelsThe optimal adaptive strategies will be investigated including the use of feedback and optimal post-processing (Unicam). The work will also clarify connections with the optimal estimation of bosonic loss, bridging channel discrimination and quantum metrology (York).
Website with the information about the project, its goals, status and publications. Some of the information will be technical, some other will be accessible to a general audience. It will also include brief profiles of the partners involved in the project.
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