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27/03/2020

H2020 ETN project MEFISTA - Multi-scale fibre-based optical frequency combs: science, technology and applications

Categories: News

Tags: ESR | MSCA | H2020


The European Training Network MEFISTA – Multi-scale fibre-based optical frequency combs: science, technology and applications - announces 6 positions for Early-Stage Researchers

with the option of being awarded a doctoral degree. MEFISTA ESRs will

acquire unique knowledge and research skills on optical frequency comb

(OFC) technology from the theory to implementation: development of novel

mode-lockingg techniques and speciality fibres and waveguides for

mode-locked lasers (MLLs), mid-infrared (mid-IR) tunable dual combs

sources for molecular fingerprinting, design and characterisation of

dual-comb MLLs, and MLLs manufacturing. Positions will be available at

Aston University (Birmingham, UK); Universitat Politecnica de Catalunya

(Barcelona, Spain); Universite de Lille (Lille, France); Ecole

Polytechnique Federale de Lausanne (Lausanne, Switzerland); Richmond

Design & Marketing Limited (Coventry, UK); NKT Photonics A/S

(Birkerod, Denmark).

 

MEFISTA Partner Organisations are: Technical University of Denmark (Denmark), Nexeya (France) and Alpha RLH (France).

Summary:

 

MEFISTA is a doctoral-level training network funded by the European

Commission under Horizon2020 Marie Sklodowska-Curie ITN Action. MEFISTA

will provide a world-class advanced training programme to 6 early-stage

researchers (ESRs) to the level of the next generation of leaders in the

fields MLLs-based OFCs technologies, by exploiting challenging

interaction between academy (Aston, UPC, ULille, EPFL and DTU) and

industry (NKT and RDM).

 

MEFISTA ESRs will acquire the scientific and technical skills to push

OCF technologies into wider technological use for autonomous driving

systems.

Project description:

 

The key photonic technology that enables a cluster of applications

and so is a driving force for an expanding photonics market in the

context of addressing the global challenges is an optical frequency comb

(OFC) technology based on mode-locked femtosecond lasers (MLFLs). To

respond to the huge demand for qualified experts on OFC technologies,

MEFISTA will deliver research and training collaborations that will help

ESRs to acquire unique knowledge and research skills on OFC technology

from the theory to implementation: development of novel mode-locking

techniques and speciality fibres and waveguides for MLFLs, mid-infrared

(mid-IR) tunable dual combs sources for molecular fingerprinting, design

and characterisation of dual-comb MLFLs, and MLFLs manufacturing. A

special focus will be the industrial applications related to development

and trial tests of MLFLs in the context of autonomous driving

(car-object distance ranging, object recognition, moving objects speed

tracing: Doppler LIDAR). The requirement of a new generation of LIDAR

with object recognition ability is driven by the demand of high safety

standards that autonomous driving vehicles will have to satisfy to

guarantee an efficient service to society, by minimising the risk of

accidents, especially in harsh and unpredictable environments.

 

The Training Programme (TP) will be implemented through the unique

combination of the “hands-on” research training, non-academic placements

and advanced inter/multidisciplinary/ inter-sectoral training on

nonlinear science, laser physics, fibre optics, and autonomous driving

technologies and transferable skills including Research Integrity,

Gender Dimension in Research, and Open Science. The TP will also be

supported by synergistic merging the expertise of 4 academic, two

non-academic beneficiaries and 1 academic partner from 5 countries.

 

The positions are for 36 months and expected to begin in early spring 2020 (subject to negotiation).

 

The ETN MEFISTA programme offers 6 Individual Research Projects:

 

List of open positions:

ESR1 Project

  • Title: New physical concepts for dual-frequency comb generation in passive fibre cavities
  • Host institution and PhD enrolment: Universite de Lille (Lille, France) https://www.univ-lille.fr/
  • Main supervisor: Prof. A. Mussot Arnaud mussot@univ-lille.fr
  • Secondments: 3 months at Aston, 3 months at RDM

 

ESR2 Project

  • Title: Novel mode-locking techniques based on unconventional (non-Hermitian) fibre structuring
  • Host institution and PhD enrolment: Universitat Politecnica de Catalunya (Barcelona, Spain) www.upc.edu/ca
  • Main supervisor: Prof. K. Staliunas Kestutis staliunas@icrea.cat
  • Secondments: 3 months at NKT, 3 months at Aston

 

ESR3 Project

  • Title: Design and experimental characterisation of comb sources in the short-wave infrared
  • Host institution and PhD enrolment: Ecole Polytechnique Federale de Lausanne (Lausanne, Switzerland) https://www.epfl.ch/en/
  • Main supervisor: Prof. C. S. Brès camille.bres@epfl.ch
  • Secondments: 3 months at Ulille, 3 Months at RDM

 

ESR4 Project

  • Title: Design, theoretical and experimental characterisation of ellipsometric LIDAR (ELIDAR)
  • Host institution and PhD enrolment: Aston University www.aston.ac.uk
  • Main supervisor: Assoc Prof. Sergey Sergeyev s.sergeyev@aston.ac.uk
  • Secondments: 3 months at NKT, 3 months at RDM

 

ESR5 Project

  • Title: Distance ranging and target recognition in harsh weather conditions based Ellipsometric LIDAR (ELIDAR)
  • Host institution: Richmond Design & Marketing Limited (Coventry, UK) http://rdmgroup.co.uk/
  • PhD enrolment: Aston University www.aston.ac.uk
  • Main supervisor: Prof. D. M. Keene dkeene@rdmgroup.co.uk
  • Secondments: 3 months at Aston, 3 months at EPFL

 

ESR6 Project

  • Title: Fibre coupled microresonator frequency comb mode-locking and stabilisation
  • Host institution: NKT Photonics A/S (Birkerod, Denmark) https://www.nktphotonics.com/
  • PhD enrolment: Technical University of Denmark https://www.dtu.dk/
  • Main supervisor: Prof. P. M. Moselund pmm@nktphotonics.com
  • Secondments: 3 months at UPC, 3 months at EPFL