Education
- 2020, M.Sc, Physics Dpt, University of Crete, Greece
- 2018, B.Sc, Physics Dpt, University of Crete, Greece
Interests
- Experimental physics
- Solid state physics
- 2D materials
Other
Position Description
Διεξαγωγή πειραματικών μετρήσεων (π.χ. φασματοσκοπικές μελέτες δειγμάτων προϊόντων αγροδιατροφής και συναφών χημικών ουσιών, σχεδιασμός πειραματικών διατάξεων, κ.α.) - Ανάλυση πειραματικών αποτελεσμάτων (π.χ. με χρήση υφιστάμενου λογισμικού στατιστικής επεξεργασίας δεδομένων) - Διάχυση των αποτελεσμάτων μέσω δημοσιεύσεων σε επιστημονικά περιοδικά, παρουσιάσεων σε συνέδρια, αναρτήσεων σε κοινωνικά δίκτυα ή στην ιστοσελίδα του έργου, κ.α. - Συμμετοχή στη σύνταξη εκθέσεων προόδου
Για το πλήρες κείμενο της πρόσκλησης της πρόσκλησης ακολουθήστε τον σύνδεσμο "Related Documents", αριστερά
Required Qualifications
- Μεταπτυχιακός φοιτητής/τήτρια Μεταπτυχιακού Προγράμματος (MSc) σε Ανώτατο Εκπαιδευτικό Ίδρυμα της ημεδαπής ή αλλοδαπής με πτυχίο σε Φυσική, Χημεία ή Επιστήμη Υλικών
- Γνώση και εμπειρία στην εφαρμογή φασματοσκοπικών τεχνικών απορρόφησης και φθορισμού και λήψης φασμάτων σε δείγματα ελαιόλαδου
- Γνώση και εμπειρία στην ανάλυση και αξιολόγηση οπτικών φασμάτων με χρήση στατιστικών πακέτων λογισμικού statistical Toolbox σε περιβάλλον MATLAB
Application Procedure
Στο φάκελο υποβολής της πρότασης θα πρέπει να εμπεριέχονται τα ακόλουθα:
- Αίτηση (Form Greek στην αριστερή στήλη) με αναφορά στον κωδικό της θέσης 4γ με Α. Π. 16046 και στο όνομα του προγράμματος ΟΙ ΔΡΟΜΟΙ ΤΗΣ ΕΛΙΑΣ
- Αναλυτικό Βιογραφικό Σημείωμα
- Ευκρινή φωτοαντίγραφα τίτλου Σπουδών
- Πρόσφατη Βεβαίωση Σπουδών
Appointment Duration
6 μήνες
With a history spanning over more than three centuries, optical microscopy has been considered to be the most vital tool for the in vivo observation of complex biological processes. Driven by the most recent groundbreaking advances in biomedical research such as the molecular decryption of cancer formation and the elucidation of fundamental aging mechanisms, optical microscopy has evolved into numerous approaches able to fulfill a large range of diagnostic requirements including non-invasiveness, high spatial resolution, and exceptional contrast specificity. Nevertheless, pure light techniques are highly restricted to superficial investigations as a result of heavy tissue scattering. In this context, the recently developed photoacoustic imaging systems have the potential to offer optical absorption contrast at depths totally inaccessible to traditional optical microscopy, significantly complementing the capabilities of existing methods.
In this talk, I will discuss about the development of novel imaging systems exploiting various interactions between light and biomolecules (photoacoustic effect, single or two-photon excitation fluorescence and optical harmonics generation), aiming to shed light into complex biological processes such as embryogenesis, aging effects linked to lipid accumulation, as well as, vegetative pigment production and distribution. Furthermore, I will demonstrate the applications that such multimodal and multiscale systems can have in ophthalmic diagnosis and research, by focusing on the investigation of ocular anatomy and the early detection of highly aggressive malignant intraocular tumors. Finally, I will present the future perspectives of optical and photoacoustic microscopy towards deeper, faster, more detailed, label-free and totally non-invasive interrogations, paving the way for the comprehensive study of fundamental biological mechanisms and the elucidation of several pathological conditions at a molecular level.
Position Description
One master student in developing and implement novel cavity enhanced microscopy methods.
For the full announcement, follow the link "Related Documents"
Related Project
CEMIC -Required Qualifications
- Degree in Physics (10%)
- Experience in design and implementation of fiber-optical systems (20%)
- Experience in diode lasers (15%)
- Experience in optical measurements (15%)
- Excellent knowledge of the English language (15%)
Desirable Qualifications
- Programming skills for data acquisition will be beneficial, esp. LabView (10%)
- Ability to work in an interdisciplinary environment (10%)
- Experience in computing (Python and C) (5%)
Application Procedure
In order to be considered, the application must include:
- Completed application Form (Download link to the left)
- Brief CV
- Scanned copies of academic titles
- All required forms and documents as layed out in each Job opening description
Please send your application and all documents to: hr@iesl.forth.gr and cc the Scientific supervisor marked in the left column
Appointment Duration
9 monthsFunding
Position Description
One Research Assistant in the Raman and UV/VIS spectroscopy of biological materials
For the full announcement, follow the link "Related Documents"
Required Qualifications
- BSc in Materials Science, Chemistry or Biology (30%)
- MSc in Materials Science, Chemistry or Biology (30%)
- Experience in the position topic (40%)
Application Procedure
In order to be considered, the application must include:
- Completed application Form (Download link to the left)
- Brief CV
- Scanned copies of academic titles
- Reference letters (if required)
- All required forms and documents as layed out in each Job opening description
Please send your application and all documents to: hr@iesl.forth.gr and cc the Scientific supervisor marked in the left column
Appointment Duration
2 monthsPosition Description
Assistant for developing the go to market and investments strategy of the pilot line.
For the full announcement, follow the link "Related Documents"
Related Project
SMARTEC -Required Qualifications
- BSc in Economics (40%)
- MSc in Economics (non Greek, EU University) (15%)
- Excellent knowledge of English and Greek languages (15%)
- Econometric and Computer skills (10%)
Desirable Qualifications
- MSc in economic analysis (10%)
- Additional EU language(s) (10%)
Application Procedure
In order to be considered, the application must include:
- Completed application Form (Download link to the left)
- Brief CV
- Scanned copies of academic titles
- Reference letters (if required)
- All required forms and documents as layed out in each Job opening description
Please send your application and all documents to: hr@iesl.forth.gr and cc the Scientific supervisor marked in the left column
Appointment Duration
6 monthsFunding
To: 18/10/2019 14:00
Internal strains are present in practically all heterogeneous materials. Their mamagnitude depends on processing conditions, material properties, and extend of the heterogeneity as well as the mechanical and environmental loads. Their characterization, however, is not trivial and classical techniques lack sufficient resolution.
Optical fibers with Bragg Grating (FBG) sensors have attracted considerable attention over the last years due to their characteristic property to measure strains in the host structure at the location of the grating. They are particularly adapted to polymeric materials where they can be embedded during processing and provide, virtually non-invasive, internal strain or temperature measurements at selected locations in the structure. Over the past years, we have been active in research in mechanics of materials with the use of Bragg gratings to measure internal strains. Particular emphasis has been placed in metrology of embedded FBG sensors, processing, and durability, low energy impact of composite plates and fracture and fatigue of composites. Single short, or long FBGs, are used or several ones in wavelength multiplexing.
In this presentation, the essential aspects of FBG sensors as a tool for internal strain measurements are reviewed. In particular, the response of the FBG signals in non-homogeneous strain fields, non-symmetric lateral loads as well as lateral pressure is discussed in some details. This research is of paramount importance for the accurate interpretation of the FBG signals in the multitude of strain environments encountered in the sensor’s host structure response. Afterwards, examples of strain measurements with embedded FBGs in specific problems of fracture and fatigue are discussed and involve experimental characterization and numerical models to predict their response.
