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Boosting the scientific excellence and innovation capacity in digital holographic microscopy of the Institute of Applied Physics of the Academy of Sciences of Moldova

Total Cost €


EC-Contrib. €






Project "HOLO" data sheet

The following table provides information about the project.

Institute of Applied Physics of the Academy of Sciences of Moldova 

Organization address
address: Academiei 5
city: Chisinau
postcode: MD2028

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country Moldova, Republic of [MD]
 Project website
 Total cost 999˙926 €
 EC max contribution 999˙926 € (100%)
 Programme 1. H2020-EU.4.b. (Twinning of research institutions)
 Code Call H2020-TWINN-2015
 Funding Scheme CSA
 Starting year 2016
 Duration (year-month-day) from 2016-01-01   to  2018-12-31


Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    Institute of Applied Physics of the Academy of Sciences of Moldova MD (Chisinau) coordinator 506˙981.00
3    UNIVERSITAET STUTTGART DE (STUTTGART) participant 195˙032.00
5    TTY-SAATIO FI (TAMPERE) participant 0.00


 Project objective

The overall aim of the HOLO project is to boost the scientific excellence and innovation capacity in digital holographic microscopy of the Institute of Applied Physics of the Academy of Sciences of Moldova (IAP-ASM) by creating a network with the high-quality Twinning partners: Universität Stuttgart (USTUTT), Tampere University of Technology (TUT) and Intelligentsia Consultants (Intelligentsia). To achieve this aim, the 3 year project will build upon the existing strong research and innovation base of IAP-ASM and its Twinning partners.

To boost their scientific excellence and innovation capacity in digital holographic microscopy, the partners will implement a science and innovation strategy focused on two sub-topics:

1. Design and optimization of diffractive optical elements (DOE) to improve digital holographic microscopy (DHM), and 2. Development of advanced image processing algorithms for digital holographic microscopy (DHM) using diffractive optical elements (DOE)

The science and innovation strategy takes into account the recent SWOT analysis of IAP-ASM and has the following objectives:

• Objective 1: Strengthen IAP-ASM’s research excellence in DHM • Objective 2: Enhance the research and innovation capacity of IAP-ASM and the Twinning partners • Objective 3: Raise the research profile of IAP-ASM and the Twinning Partners • Objective 4: Contribute to the research and innovation priorities of Moldova • Objective 5: Support research and innovation on a European level

In order to achieve these objectives, the consortium partners will implement a comprehensive set of measures via the project’s work packages:

• Short term staff exchanges (WP1); • Training workshops, conferences and summer schools (WP2); • Dissemination and outreach (WP3).


List of deliverables.
Project newsletters Websites, patent fillings, videos etc. 2019-05-27 19:57:04
Promotion guide about IAP-ASM Websites, patent fillings, videos etc. 2019-05-27 19:57:24
Project website Websites, patent fillings, videos etc. 2019-05-30 13:19:24
Project leaflet and poster Websites, patent fillings, videos etc. 2019-05-30 13:19:15

Take a look to the deliverables list in detail:  detailed list of HOLO deliverables.


year authors and title journal last update
List of publications.
2018 E Achimova
Polarization holography for direct surface grating patterning on chalcogenide nanomultilayers
published pages: 12133, ISSN: 1742-6588, DOI: 10.1088/1742-6596/1096/1/012133
Journal of Physics: Conference Series 1096 2019-04-30
2017 A. Stronski, E. Achimova, O. Paiuk, A. Meshalkin, A. Prisacar, G. Triduh, P. Oleksenko and P. Lytvyn
Direct Magnetic Relief Recording Using As40S60: Mn–Se Nanocomposite Multilayer Structures
published pages: , ISSN: 1556-276X, DOI:
Nanoscale Research Letters 2019-04-30
2018 A. Yu. Meshalkin
Reversible Polarization Recording in As2S3–Se Multilayer Nanostructures
published pages: 407-414, ISSN: 1068-3755, DOI: 10.3103/s1068375518040129
Surface Engineering and Applied Electrochemistry 54/4 2019-04-30
2017 E. Achimova, V. Abaskin, A. Meshalkin, A. Prisacar, G. Triduh
Phase grating patterning by direct laser recording on As 2 S 3 -Se nanomultilayers
published pages: 2-6, ISSN: 1877-7058, DOI: 10.1016/j.proeng.2017.09.629
Procedia Engineering 201 2019-04-30
2017 Achimova E., Stronski A.
Functional structures based on chalcogenide glasses obtained via nanocomposite techniques and their applications
published pages: 2-24, ISSN: 2314-5234, DOI: 10.11131/oajost
Open Access House of Science and Technology (OAHOST) v. 3, no. 28 2019-04-30
2018 E. Achimova, V. Abaskin, D. Claus, G. Pedrini, I. Shevkunov, V. Katkovnik
Noise minimised high resolution digital holographic microscopy applied to surface topography
published pages: 267-272, ISSN: 0134-2452, DOI: 10.18287/2412-6179-2018-42-2-267-272
Computer Optics 42/2 2019-04-30
2016 A Meshalkin, S Robu, E Achimova, A Prisacar, D Shepel, V Abaskin, G Triduh
Direct photoinduced surface relief formation in carbazole-based azopolymer using polarization holographic recording
published pages: , ISSN: 1454-4164, DOI:
2018 V. Cazac, A. Meshalkin, V. Abashkin, A. Achimova, V. Katkovnik, I. Shevkunov, D. Claus, and G. Pedrini.
Surface relief and refractive index gratings patterned in chalcogenide glasses and studied by off-axis digital holography
published pages: 507-513, ISSN: 2155-3165, DOI:
Applied Optics v.57, Iss.5 2019-04-30
2016 V. Abaskin, E.Achimova, A.Meshalkin, A. Prisacar, G. Triduh, M. Vlcek, L. Loghina, I. Voynarovich
Investigation of Structural Features of As2S3-Se Multilayer Nanostructure by Raman Spectroscopy
published pages: , ISSN: 1815-7459, DOI:
Surface Engineering and Applied Electrochemistry 2019-04-30
2017 Achimova E.
Development of digital holographic microscopy in Moldova
published pages: 27-31, ISSN: 1857-0461, DOI:
Academos 4(47) 2019-04-30
2018 Podlipnov V.V., Ivliev N.A., Khonina S.N., Nesterenko D.V., Vasilev V.S., Achimova E.A.
Investigation of photoinduced formation of microstructures on the surface of a carbasole-containing azopolymer depending on the power density of incident beams
published pages: 779-785, ISSN: 2412-6179, DOI:
Computer Optics v. 42(5) 2019-04-30
2019 E. Achimova
published pages: , ISSN: , DOI:
2016 E. Achimova
Direct surface relief formation in nanomultilayers based on chalcogenide glasses: A review
published pages: 456-468, ISSN: 1068-3755, DOI: 10.3103/s1068375516050021
Surface Engineering and Applied Electrochemistry 52/5 2019-04-30

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