Distributed quantum sensing in a network - Tenders Global

Distributed quantum sensing in a network

Université Côte d'Azur

tendersglobal.net


18 Mar 2024
Job Information

Organisation/Company
Université Côte d’Azur
Research Field
Physics » Quantum mechanics
Physics » Metrology
Physics » Optics
Researcher Profile
First Stage Researcher (R1)
Country
France
Application Deadline
3 Jun 2024 – 09:00 (Europe/Paris)
Type of Contract
Temporary
Job Status
Full-time
Is the job funded through the EU Research Framework Programme?
Not funded by an EU programme
Is the Job related to staff position within a Research Infrastructure?
No

Offer Description

Keywords: Quantum photonics, quantum metrology, quantum sensors, quantum networks

Context: Quantum metrology has yielded significant advancements in sensitivity and precision compared to traditional resources in recent years, revolutionizing specific fields.

However, most of the breakthroughs rely on the interaction of no more than two particles, consequently limiting the geographic coverage of the sensors. This PhD thesis, carried at the Institute of Physics of Nice, proposes a fundamental shift in perspective by envisioning the creation of a network of quantum sensors spread across mid-range distances, accompanied by the exploration of applications that harness the potential of such networks.

More precisely, the overall context of the PhD thesis is part of a comprehensive project with the following objectives: utilizing high-performance bipartite entangled states for secure sensor delegation; demonstrating that measuring a global parameter of a system (e.g., the sum,

difference, or average of multiple phase values) using a high-dimensional quantum state achieves greater accuracy than probing the different sensors separately, whether they are quantum or classical; leveraging multipartite entangled states to guarantee measurement security at various points within a network; harnessing well-established telecom technology to showcase the feasibility of these tasks over deployed optical fiber networks, including a case study involving simulated seismic vibration detection.

Scientific Objectives: the PhD thesis is part of a comprehensive and experimental project in collaboration with LiP6 (Laboratory of Computer Science Research at Sorbonne University), focusing on the generation, manipulation, and exploitation of multipartite entangled states. The main objective of the PhD will be to generate a qudit-type state through an appropriate experimental configuration, considering the most suitable observable (see figure for a frequency qudit). The dimension and observable of the state will be discussed, as well as the generation rate associated with realistic propagation losses within a fiber network. A laboratory experiment aimed at generating a first version of the state will also be considered. The application of this type of multimode state to quantum

metrological protocols will also need to be established from a theoretical point of view.

Requirements

Research Field
Physics » Quantum mechanics
Education Level
Master Degree or equivalent

Skills/Qualifications

We look for candidates with strong competences on both experimental and theoretical quantum optics. The candidate should be able to give inputs and contribute to the development of ongoing experiments through his/her experimental/theoretical approach.  At the same time, from the practical point of view, the project will allow the candidate develop competences in both the main domains of quantum optics, thus offering the possibility of achieving a unique and extremely vast panel of skills.

The results demonstrated in this project are therefore expected to have major impacts at the international level in quantum information technologies.

Research Field
Physics » Quantum mechanics

Additional Information
Work Location(s)

Number of offers available
1
Company/Institute
Institute of Physics of Nice
Country
France
Geofield

Where to apply

E-mail
[email protected]

Contact

City
Nice
Website
http://univ-cotedazur.fr/english
Street
28 avenue Valrose
E-Mail
[email protected]

STATUS: EXPIRED

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