Position Description
We are seeking one Scientist (Physics, Maths, Computer Sciences) or Engineer, MSc holder or higher, in spectral imaging, data acquisition and processing, with background in RTD projects. The candidate will participate in the R&D activities of FORTH-IESL in the context of PERCEIVE project “Perceptive Enhanced Realities of Colored collEctions through artificial Intelligence and Virtual Experiences” funded under HORIZON-CL2-2021-HERITAGE-01-04, and will work on Hyperspectral imaging data acquisition and processing related aspects.
Role and Responsibilities
Responsibly carrying out activities related to the PERCEIVE collaborative research project. Namely:
- Research into VIS/NIR hyperspectral imaging data processing.
- Instrumental setup, data acquisition, processing, analysis and interpretation.
- Design and management of a digital services platform.
- Optimisation of data workflows in the entire data life cycle from capturing, processing, analyzing (including semantics), interlinking data to assure the quality of services.
- Dissemination of achievements in international journals and conferences.
In parallel, to be involved in research and service activities related to the application of Hyperspectral imaging to the documentation and characterization of artworks and archaeological objects.
Required Qualifications
- M.Sc. (or higher) in Physics, Maths or Computer Sciences or in Engineering, with a focus on imaging, spectroscopy, optics, optical sensing. PhD or willingness to do a PhD is a plus
- Good understanding of spectroscopy and photonic principles
- Previous experience with handling and practical implementation of imaging / spectroscopic systems (e.g. detectors, light sources, data acquisition and control, data analysis)
- Software development for spectral data processing
- Skills in optics / optomechanics / optoelectronics design and implementation are a plus
- Previous work in RTD projects
- Innovative, autonomous, well-organised and result-oriented thinking
- Keen on bringing scientific findings into application, creating tangible innovation.
- Prompt to cooperate with interdisciplinary and international teams.
- Fluent oral and written communication skills in English
Application Procedure
Prospective candidates should send their expression of interest and their CV via email to Dr. Sophia Sotiropoulou (sophiaso@iesl.forth.gr)
Appointment Duration
9-12 months (with possibility of extension)Metamaterials provide control over the material properties though engineering of their subwavelength elementary units, the meta-atoms. An electromagnetic wave impinging on a metamaterial induces the excitation of local currents whose distribution is defined by the meta-atoms architecture and the details of the electromagnetic wave, i.e., frequency, incidence angle and polarization, producing a far-field response that can be perceived much like a material property. Metamaterials have opened up the path to novel electromagnetic features, providing the most known, negative effective permeability and negative refractive index (usually achievable by combining negative effective permittivity and permeability) and the more recently investigated, sustaining toroidal excitations and topological photonic states. The enhanced electromagnetic wave manipulation enabled by metamaterial–based structures has led to fascinating applications which among else include ultrathin electromagnetic sheets for wavefront shaping, shielding and polarization control, software-defined wave control, graphene-based ultrafast modulators, topologically protected unidirectional propagation, energy harvesting. In this talk we will review basic principles of emerging metamaterial induced exotic phenomena and discuss interesting implementations in technologically relevant spectral areas, i.e., microwaves, THz and the near-IR / mid-IR.
HellasQCI project aims to deploy advanced National QCI systems and networks. Its architecture comprises of three metropolitan test- sites located at major cities of Greece namely: ΗellasQCI-Central(Athens), HellasQCI-North(Thessaloniki) and HellasQCI-South (Heraklion-Crete). Each test-site is divided into Governmental and Industrial testbeds, which allow the project to investigate the field- deployment of QKD technologies in a plethora of realistic scenarios and use cases addressing National Security, Public Health, Critical Infrastructure and ICT sector. An additional Educational testbed will allow the development of new quantum technologies, provide a sandpit for SME innovation, and offer Greece a futureproof extension towards Quantum Internet. It will also serve as a comprehensive training environment for technical, research staff and end users. For inter-test-site links and international connection with other EuroQCI members, HellasQCI will exploit three Greek observatories, which constitute a national asset and have been selected by ESA to be upgraded as Optical Ground Stations with QKD capabilities. The aim of HellasQCI is also to create a community from all interested national stakeholders, gather expertise and share knowhow on the application of quantum technologies. The HellasQCI consortium involves key research institutes and universities of Greece, which with unique expertise that are able to address the needs for an operational HellasQCI infrastructure. Governmental authorities including the Ministry of Digital Governance, the Hellenic Police, the Army and the National Intelligence Agency together with industrial partners, and SMEs can ensure the sustainability of HellasQCI. HellasQCI plans to cooperate with other EU Member States in order to boost Europe's scientific and technological capabilities in cybersecurity and quantum technologies, and to this end, it has already made partnerships with AT, LU, IE, ML, BG, PL, CY.
Principal Investigator
Position Description
O/H υποψήφιος αναμένεται να δουλέψει σε ορισμένα θέματα κβαντικής οπτικής και κβαντικής πληροφορίας, όπως είναι η δημιουργία και ο έλεγχος συστημάτων αλληλεπιδρώντων ατόμων, τα οποία προορίζονται ως κβαντικές μνήμες, καθώς και η σύμφωνη μεταφορά κβαντικών καταστάσεων από άτομα σε φωτόνια, και αντιστρόφως.
Για το πλήρες κείμενο της πρόσκλησης ακολουθήστε τον σύνδεσμο 'Related Documents'
Related Project
PACE-IN -Required Qualifications
- Πτυχίο Φυσικών Επιστημών (π.χ. Φυσικής, Οπτικής ή Ηλεκτρολόγων Μηχανικών κ.α.)
- Μεταπτυχιακό (MSc) σε σχετικό πεδίο
- Άριστη γνώση της Αγγλικής γλώσσας
Desirable Qualifications
- Καλό θεωρητικό υπόβαθρο σε θέματα κβαντικής θεωρίας
- Γνώσεις Η/Υ και προγραμματισμού
Application Procedure
Στο φάκελο υποβολής της πρότασης κάθε ενδιαφερόμενου θα πρέπει να εμπεριέχονται τα ακόλουθα:
- Αίτηση (Form Greek στην αριστερή στήλη) με αναφορά όνομα του προγράμματος και στον κωδικό της θέσης
- Αναλυτικό Βιογραφικό Σημείωμα
- Ευκρινή φωτοαντίγραφα τίτλων σπουδών
- Πρόσφατη βεβαίωση σπουδών υποψήφιου διδάκτορα
ΥΠΟΒΟΛΗ ΠΡΟΤΑΣΕΩΝ
Οι ενδιαφερόμενοι καλούνται να υποβάλουν τις αιτήσεις τους και όλα τα απαραίτητα δικαιολογητικά, ηλεκτρονικά στη διεύθυνση hr@iesl.forth.gr με κοινοποίηση (cc): στον Δρ D. Petrosyan (dap@iesl.forth.gr) . Οι αιτήσεις θα πρέπει να αποσταλούν με την ένδειξη: «Αίτηση στο πλαίσιο του προγράμματος PACE-IN και της πρόσκλησης εκδήλωσης ενδιαφέροντος με Α.Π. … και κωδικό θέσης … » (όπως αυτός αναφέρεται στον Πίνακα του Παραρτήματος).
Appointment Duration
10 μήνεςFunding
