Basic research projects

Code: N1-0148

Project name: Stabilization and destabilization of spin liquids by perturbations

Period: 1.6.2020 – 31.5.2023

Provider of funds logo:
 

Project head:Andrej Zorko, PhD

Research organisation:

‘Jožef Stefan’ Institute

Researchers:

• Martin Klanjšek, PhD
• Matej Pregelj, PhD
• Andrej Zorko, PhD

Young researchers:

• Nejc Janša, MSc

Project description:

Background and rationale: Quantum spin liquids (QSLs) represent an intriguing state of matter, where quantum entanglement plays a decisive role. These states that are typically born out of geometrical frustration, remain magnetically disordered even at zero temperatures. In the majority of cases, the stabilization and destabilization mechanisms of QSLs remain vague. According to theory, perturbations to the simplest nearest-neighbor isotropic (Heisenberg) exchange Hamiltonian, like structural disorder, interactions with further neighbors, and magnetic anisotropy, are of key importance. As these effects are usually intertwined in real materials and since QSL realizations are scarce, the experimental confirmation of these predictions is eagerly anticipated.

Objectives and specific aims: The main objective of the proposed project is to provide a new experimental insight into the problem of perturbation by studying several novel representatives of the two most common frustrated spin lattices in two dimensions, the triangular lattice (TL) and the kagome lattice (KL). In the TL case we will focus on the predicted randomness-induced QSL-like states in the newly synthesized family of materials Ba2MnTe1-xWxO6, for which preliminary bulk characterizations hint at this intriguing effect. The same effect will be systematically investigated also in two representatives of KL, Zn-brochantite and Zn-barlowite, which feature different QSL ground states. Our specific aim is to find how impurities interact with various QSL states in a Kondo-like effect, which has been very recently observed for the first time in a magnetic insulator. Secondly, we will thoroughly investigate the influence of further-neighbor couplings and magnetic anisotropy on the ground state in the above-mentioned materials and in another KL representative YCu3(OH)6Cl3, where impurities are absent.

Methods to be used: To reach the goals of the project, complementary expertise is necessary, which is provided by our bilateral approach. We will employ a combination of highly sensitive local-probe techniques, each providing indispensable insight. The Swiss team are experts in muon spin relaxation (μSR), with the leader Dr. Hubertus Luetkens being the head of the Bulk μSR Group at the Paul Scherrer Institute (PSI) and in charge of the new μSR instrument FLAME that will start operation in 2020. The high magnetic fields and low temperatures that this instrument can reach perfectly fit the needs of this project. The Slovenian team lead by Prof. Dr. Andrej Zorko are experts in magnetic resonance techniques, including nuclear magnetic resonance (NMR) and electron spin resonance (ESR). The instruments at the Jožef Stefan Institute (JSI) cover a broad range of magnetic fields, while experiments under extreme conditions will be performed in specialized facilities. To complement the experiments numerical calculations will also be performed at JSI.

Expected results and impact for the field: Our holistic approach will provide missing information about the effects of various perturbations on the ground states of the TL and the KL models. The results will allow us to assess the theories of the randomness-induced QSL-like states and the predicted perturbation-dependent phase diagrams of both lattices. This is an important step towards understanding these enigmatic ground states. Moreover, the QSL concept may be related to other intriguing quantum phenomena, such as high-Tc superconductivity, and possesses a high application potential in quantum technologies. We plan to employ a PhD student on the Swiss side and to co-finance several researchers on the Slovenian side, including PhD students and postdocs. Young scientists involved in the project will thus have access to top-level facilities, expertise, and knowledge, as the project will foster frequent exchange of researchers between two leading laboratories in their respective fields.

Project phases and their realization:

Phase 1

• Characterization of the ground states and randomness induced QSL state in TL Ba2MnTe1-xWxO6

Phase 2

• Determination of the spin Hamiltonian and defect interactions in Zn-brochantite

Phase 3

• Determination of the doping effect on the magnetic ground state of kagome antiferromagnets

Phase 4

• Characterization of the magnetic ground states of YCu3(OH)6Cl3 and Y3Cu9(OH)19Cl8

References:

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Code: N1-0116

Project name:  Liquid-crystal microdroplet lasers for sensing inside live cells

Period: 1.4.2020 – 31.3.2022  Provider of funds logo:

Project head:Zuhail Kottoli Poyil, PhD

Research organisation:

‘Jožef Stefan’ Institute

Researchers:

• Zuhail Kottoli Poyil, PhD

Project description:

Project phases and their realization:

References:

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Code: N1-0104 (D)

Project name:  Biointegrated lasers for resarch of living organisms

Period:1.7.2019 – 30.06.2021Provider of funds logo:

Project head:dr. Matjaž Humar

Project head at F5: dr. Matjaž Humar

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• dr. Maja Garvas
• Matevž Marinčič

Code: J3-1758

Project name: Adverse outcome pathway leading to atherosclerosis

Period:1. 7. 2019 – 30. 6. 2022Provider of funds logo:

Project head:Tilen Koklič, PhD

Project head at F5: Tilen Koklič, PhD

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Zoran Arsov, PhD
• Stane Pajk, PhD
• Rok Podlipec, PhD
• Janez Štrancar, PhD
• Iztok Urbančič, PhD

Technical associates:

• Boštjan Kokot

Young researchers:

• Hana Kokot
• Aleksandar Sebastijanović

Participating research organisation: University Medical Centre Ljubljana

Researchers:

• Aleš Blinc, PhD
• Mojca Božič Mijovski, PhD

Project description:

Atherosclerosis is a chronic inflammatory disease causally linked to pro-inflammatory cytokine interleukin 6 (IL 6) expression locally by different cells and tissues. Inhalation of nanoparticles in polluted air induces expression of the IL-6 by pulmonary macrophages, epithelial cells, and vascular endothelial cells. However, possible molecular events linking inhaled nanoparticles and IL 6 to inflammation of vascular endothelium and subsequent fibrin clot formation remain unknown. Here we propose to test a hypothetical pathway. We propose that IL-6 expression is induced by coagulation factor Xa activated on membrane-wrapped nanoparticles, eventually leading to fibrin clot formation around the cell membrane-wrapped nanoparticles. For this purpose, we will employ a newly proposed series of connected cell mono-culture in vitro models and super-resolution imaging techniques.

References:

[1] H. Kokot et al., “Prediction of Chronic Inflammation for Inhaled Particles: the Impact of Material Cycling and Quarantining in the Lung Epithelium,” Adv. Mater., vol. 32, no. 47, p. 2003913, 2020, doi: 10.1002/adma.202003913.

[2] T. Sengupta, T. Koklic, B. R. Lentz, and R. Majumder, “Phosphatidylserine and phosphatidylethanolamine regulate the structure and function of FVIIa and its interaction with soluble tissue factor,” Biosci. Rep., vol. 41, no. 2, p. BSR20204077, Feb. 2021, doi: 10.1042/BSR20204077.

[3] Detekcija TiO₂ nanodelcev v fibrinskem strdku z uporabo fluorescenčne mikroskopije : magistrsko delo. Golmajer Zima, Neža ; Osterman, Natan (mentor); Štrancar, Janez (comentor). Type of work: 2.09 master’s thesis. Year: 2020. COBISS.SI-ID 27414275

[4] P. H. Danielsen et al., “Effects of physicochemical properties of TiO₂ nanomaterials for pulmonary inflammation, acute phase response and alveolar proteinosis in intratracheally exposed mice,” Toxicol. Appl. Pharmacol., vol. 386, p. 114830, Jan. 2020, doi: 10.1016/j.taap.2019.114830.

Code: J1-9145

Project name: Study of intracellular forces by deformable photonic droplets

Period:1.7.2019 – 30.06.2022Provider of funds logo:

Project head:doc. dr. Matjaž Humar

Project head at F5: doc. dr. Matjaž Humar

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Gregor Pirnat

Participating research organisation: University of Ljubljana, Faculty of Mathematics and Physics

Researchers:

• Matevž Marinčič
• dr. Igor Muševič
• dr. Miha Ravnik

Young researchers:

• Anja Pusovnik

Code: J2-1740

Project name: Advanced inorganic and organic thin films with enhanced electrically-induced response

Period:1.7.2019 – 30.06.2022Provider of funds logo:

Project head: prof. dr. Vid Bobnar

Project head at F5: prof. dr. Vid Bobnar

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• dr. Andreja Benčan Golob
• dr. Zdravko Kutnjak
• dr. Marta Lavrič
• dr. Barbara Malič
• dr. Nikola Novak
• dr. Tadej Rojac
• dr. Brigita Rožič
• dr. Hana Uršič Nevemšek

Young researchers:

• Andraž Bradeško
• Dejvid Črešnar
• Aleksander Matavž
• Uroš Prah

Code: J1-9145

Project name: Probing spin states near the surface of quantum spin materials

Period: 1.7.2018 – 30.06.2021 Provider of funds logo:

Project head: prof. Denis Arčon

Project head at F5: prof. Denis Arčon

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Dr. Alan Gregorovič
• Dr. Martin Klanjšek
• Dr. Matej Pregelj
• Dr. Andrej Zorko

Technical associates:

• Petra Šuštar 

Participating research organisation: Faculty of Mathematics and Physics of the University of Ljubljana

Researchers:

• Dr. Igor Muševič 

Code: J1-9147

Project name: Advanced soft nematicaloric materials

Period: 1.7.2018 – 30.06.2021  Provider of funds logo:

Project head: dr. Brigita Rožič

Project head at F5: dr. Brigita Rožič

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Dr. Zdravko Kutnjak
• Dr. Andraž Rešetič
• Dr. Brigita Rožič
• Dr. Boštjan Zalar
• Dr. Marta Lavrič

Young researchers:

• Nikita Derets
• Dejvid Črešnar

Participating research organisation:

Faculty of Mathematics and Physics of the University of Ljubljana

Researchers:

• Dr. Gregor Skačej

Description of the research project:

The project aims to develop advanced soft materials with a giant mechanocaloric effect based on liquid crystal elastomers and to build a first prototype of mechanocaloric device. Specifically, we propose research on soft liquid-crystal-elastomer (LCE) based mechanocaloric materials, to initiate the development of novel mechanocaloric cooling elements for environmentally friendlier cooling technologies with superior energy efficiency. We will synthesize liquid crystal elastomers with optimized elastocaloric and barocaloric effect. These materials will be used as cooling elements in a prototype of mechanocaloric cooling device that will be developed and tested within the proposed project.

Description of the work programme:

STEP 1

The project will start with the search for physical and structural parameters such as the elastomer network architecture (main/side chain architecture, degree of mechanical anisotropy imprinted upon synthesis, crosslinker density), mesogenic unit properties (length, nematic-isotropic transition temperature), and the degree of sample swelling that can have significant impact on the magnitude of the elastocaloric and barocaloric response in different groups of the LCE materials. The LCE materials will be chosen to serve as cooling material in the prototype of the elastocaloric cooling device.

STEP 2

In this step the most optimal mechanocaloric materials chosen in the first step will be synthesized and characterized. These materials will be used later in the third step for the building of the prototype of the elastocaloric cooling device. In addition, in this step the planning of the technical implementation of the prototype elastocaloric device supported by modelling will be carried out.

STEP 3

In this final step the technical realization of the elastocaloric cooling device prototype based on the LCE together with characterization and optimization of its operation will be done. This step also includes the dissemination of the final results.

Code: J2-6779-1

Project name: New advanced electrocaloric materials for novel environmentally-friendly dielectric refrigeration technology
Period: 1.7.2014 – 30.06.2017

Provider of funds logo:

Project head: dr. Zdravko Kutnjak 

Project head st F5: dr. Zdravko Kutnjak 

 Applicant organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Andreja Benčan Golob
• Dr. Vid Bobnar
• Dr. Goran Casar
• Dr. Georgios Kordogiannis
• Dr. Barbara Malič
• Dr. Tadej Rojac
• Dr. Brigita Rožič
• Dr. Maja Trček
• Dr. Katarina Vojisavljević
• Dr. Boštjan Zalar
• Dr. Blaž Zupančič

Young researchers:

• Marta Lavrič

Technical associates:

• Silvo Drnovšek

Participating research organisation: University of Ljubljana, Faculty of Mechanical Engineering

Researchers:

• Dr. Blaž Jelenc
• Dr. Andrej Kitanovski
• Dr. Uroš Plaznik
• Dr. Primož Poredoš

Participating research organisation: University of Maribor, Faculty of natural sciences and mathematics

Researchers:

• Dr. Milan Ambrožič
• Dr. Samo Kralj

Code: J2-7526-2

Project name: Multifunctional materials for actuator and cooling devices
Period: 1.1.2016 – 31.12.2018   Provider of funds logo:

Project head: dr. Tadej Rojac

Project head st F5: dr. Zdravko Kutnjak

 Applicant organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Andreja Benčan Golob
• Dr. Vid Bobnar
• Dr. Zdravko Kutnjak
• Dr. Barbara Malič
• Dr. Mojca Otoničar
• Dr. Maja Trček
• Dr. Hana Uršič Nemevšek
• Dr. Marko Vrabelj

Young researchers:

• Lovro Fulanović
• Maja Makarovič

Technical associates:

• Silvo Drnovšek
• Brigita Kmet

Participating research organisation: National Institute of Chemistry

Researchers:

• Dr. Marjan Bele
• Dr. Elena Chernyshova
• Dr. Goran Dražić
• Dr. Manca Logar

Code: J2-8191

Project name: High-resolution optical magnetometry with cold cesium atoms

Period: 1.5.2017 – 30.04.2020     Provider of funds logo:

Project head: dr. Peter Jeglič

Project head st F5: dr. Peter Jeglič

 Applicant organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Tomaž Apih
• Dr. Alan Gregorovič
• Dr. Erik Zupanič
• Dr. Rok Žitko

Young researchers:

• Tadej Mežnaršič

Technical associates:

• Ivan Kvasić

Participating research organisation: University of Ljubljana, Faculty of Electrical Engineering

Researchers:

• Dr. Samo Beguš
• Dr. Vincencij Žužek

Technical associates:

• Slaven Ranogajec

Code: J2-9227

Project name: Sensor technologies in diagnostics and monitoring of cultural heritage buildings

Period: 1.5.2017 – 30.04.2020      Provider of funds logo:

Project head: dr. Zvonko Jagličić

Project head st F5: dr. Janez Dolinšek

 Applicant organisation: Institute of Mathematics, Physics and Mechanics

Researchers:

• Dr. Vojko Jazbinšek

Participating research organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Janez Dolinšek
• Dr. Stanislav Vrtnik

Participating research organisation: Jožef Stefan International Postgraduate School

Researchers:

• Dr. Andreja Abina
• Dr. Uroš Puc
• Dr. Aleksander Zidanšek

Participating research organisation: University of Ljubljana, Faculty of Electrical Engineering

Researchers:

• Dr. Samo Beguš
• Dr. Vincencij Žužek

Technical associates:

• Slaven Ranogajec

Participating research organisation: University of Ljubljana, Faculty of Civil and Geodetic Engineering

Researchers:

• Dr. Violeta Bokan-Bosiljkov
• Dr. Patricia Cotič
• Dr. Marjeta Kramar Fijavž
• Dr. Andreja Padovnik
• Dr. Petra Štukovnik
• Dr. Vlatko Bosiljkov

Technical associates:

• Franci Čepon

Code: J2-9227 

Project name: Electroporation-based treatments with new high-frequency electroporation pulses

Period: 1.7.2018 – 30.06.2021     Provider of funds logo:

Project head: dr. Matej Reberšek

Project head st F5: dr. Igor Serša

 Applicant organisation: University of Ljubljana, Faculty of Electrical Engineering

Researchers:

• Dr. Janja Dermol-Černe
• Dr. Bor Kos
• Dr. Matej Kranjc
• Dr. Damijan Miklavčič

Young researchers:

• Eva Pirc

Technical associates:

•  Duša Hodžić 

Participating research organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Mojca Urška Mikac
• Dr. Igor Serša
• Dr. Jernej Vidmar

Technical associates:

• Ana Sepe

Code: J2-9253 (C)

Project name: Multicaloric cooling

Period: 1.7.2018 – 30.06.2021  Provider of funds logo:

Project head: dr. Hana Uršič Nemevšek

Project head st F5: dr. Zdravko Kutnjak

 Applicant organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Zdravko Kutnjak
• Dr. Barbara Malič
• Dr. Tadej Rojac
• Dr. Brigita Rožič

Young researchers:

• Andraž Bradeško
• Uroš Prah

Technical associates:

•  Silvo Drnovšek   

Participating research organisation: University of Ljubljana, Faculty of Mechanical Engineering

Researchers:

• Dr. Andrej Kitanovski
• Dr. Uroš Plaznik
• Dr. Jaka Tušek

Code: J3-6803

Project name: Role of Calcium and lipid membranes in survival of critically ill patients

Period: 1.7.2014 – 30.06.2017 Provider of funds logo:

Project head:  dr. Tilen Koklič

Project head st F5: dr. Tilen Koklič

 Applicant organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Zoran Arsov
• Dr. Maja Garvas
• Dr. Mojca Urška Mikac
• Dr. Janez Štrancar
• Dr. Iztok Urbančič
• Dr. Igor Serša

Technical associates:

•  Alma Mehle   

Participating research organisation: University of Ljubljana, Faculty of Medicine

Researchers:

• Dr. Andrej Fabjan
• Dr. Jernej Vidmar
• Dr. Vito Starc

Participating research organisation: University Medical Centre Ljubljana

Researchers:

• Dr. Aleš Blinc
• Dr. Mirza Šabovič
• Dr. Gregor Tratar

Code: J3-9288

Project name: Optimization of MRI techniques for assessment of thrombolytic treatment outcome

Period: 1.7.2018 – 30.06.2021 Provider of funds logo:

Applicant organisation: ‘Jožef Stefan’ Institute 

Project head: prof. Igor Serša

Project head at F5: prof. Igor Serša

Researchers:

• Dr. Tilen Koklič
• Dr. Mojca Urška Mikac
• Dr. Janez Štrancar
• Dr. Jernej Vidmar

Technical associates:

•  Ana Sepe

Participating research organisation: University Medical Centre Ljubljana

Researchers:

• Dr. Aleš Blinc
• Igor Kocijančič
• Mag. Zoran Miloševič
• Dr. Peter Popović

Technical associates:   

• Carmen  Hladnik Prosenc  
• Mitja Brlan
• Daniele Bertocchi

Participating research organisation: University of Ljubljana, Faculty of Medicine

Researchers:

• Dr. Andrej Fabjan
• Dr. Dušan Šuput
• Dr. Andrej Vovk
• Dr. Fajko Bajrović

Code: J7-8272

Project name: Integrated multi-channel artificial nose for vapor trace detection (Integrirani večkanalni umetni nos za zaznavanje sledov molekul v parni fazi)

Period:Provider of funds logo:

Applicant organisation:

‘Jožef Stefan’ Institute  

Project head: dr. Igor  Muševič,  home page

Project head at F5: dr. Igor  Muševič,  home page

Researchers:

• dr. Erik  Zupanič
• dr. Miha Škarabot
• dr. Anton  Gradišek

Technical associates:

•  Ivan Kvasić 

Participating research organisation:

Faculty of Electrical Engineering of the University of Ljubljana

Researchers:

• dr. Drago  Strle
• dr. Marijan  Maček
• dr. Janez  Trontelj ml.
• dr. Aleksander  Sešek
• Uroš  Nahtigal

Technical associates:   

• Carmen  Hladnik Prosenc  
• Mitja Brlan
• Daniele Bertocchi

Participating research organisation:

Faculty of Chemistry and Chemical Technology of the University of Ljubljana

Researchers:

• dr. Bogdan Štefane
• Helena  Brodnik

Project description:

This project will form the basis for a completely new branch of scientific research and development, applying innovative AI methods to newly developed 64-channel sensor array for detection of trace vapors of dangerous molecules in the atmosphere. Lately, there has been a lot of activities the field of development of new e-nose methods and platforms for the obvious reason of terrorist attack prevention. Many different sensors and concepts were developed in the last decade with the aim of detecting very low concentrations of trace vapors of explosives such as TNT, PETN and RDX in the atmosphere in order to protect urban areas from terrorist threats. The current sensitivity of the state-of-the-art sensor systems allows us to detect very low concentrations of target molecules, of the order of 1 target molecule in 10¹² to 10¹⁴ molecules of atmosphere. The successful realisation of numerous research projects (Strle et al., IEEE Sens. J., 2012) showed that micro-capacitive sensor arrays based on COMS micro-capacitors and low-noise detection chips are able to detect such low concentrations of dangerous vapors. The sensitivity we have achieved has pushed the boundaries of the existing sensor technology. Its greatest limitation is the chemical selectivity of the sensor array which, up until now, has consisted of at most 16 chemically selective functionalised micro-capacitors. The aim of this project is to improve signal processing and pattern recognition methods by developing a new, 64-channel senor system. This will be a small yet important step towards the realisation of an e-nose with a high density of sensors, which we expect to be made from thousands of olfactory cells, mimicking the efficiency of a dog’s nose. Based on the proposed research actvities, we want to introduce the concept of application of AI methods to improve the chemical selectivity of the 64-sensor array. As the first of its kind, this project will bring together an interdisciplinary team of physicists, chemists specialised in organic chemistry, microelectronic engineers, mathematicians and AI specialists.

Code: N1-0052

Project name: Correlated electrons in confined molecular systems

Period: 1.6.2016 – 31.05.2019

Provider of funds logo:
 

Project head: dr. Denis Arčon

Project head at F5: dr. Denis Arčon

Applicant organisation: ‘Jožef Stefan’ Institute

Researchers:

• Dr. Martin Klanjšek
• Dr. Matej Pregelj
• Dr. Andrej Zorko

Young researchers:

• Tilen Knaflič 

Code: J1-6723

Project name: Topology and Photonics of Liquid Crystal Colloids and DispersionsProvider of funds logo:

Project head: dr. Muševič Igor,  domača stran

Project head at F5: dr. Muševič Igor,  domača stran

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• dr. Matjaž Humar
• dr. Škarabot Miha
• dr. Gradišek Anton
• dr. Mirri Giorgio
• dr. Nikkhou Maryam    
• dr. Posnjak Gregor 
• dr. Pregelj Matej
• dr. Rožič Brigita   
• dr. Seč David 
• dr. Tkalec Uroš

Technical associates:

• Kvasić Ivan

Young researchers:

• Mur Maruša

Participating research organisation: Faculty of Mathematics and Physics of the University of Ljubljana

Researchers:

• dr. Čančula Miha
• dr. Ravnik Miha

Young researchers:

• Aplinc Jure

Code: J1-7300

Project name: Thermophoretic guidance, accumulation and sorting of biomolecules in microfluidic devicesPeriod: 1.7.2014 – 30.06.2017  Provider of funds logo:

Project head: dr.  Natan Osterman

Project head at F5: dr. Andrej Vilfan

Applicant organisation: Faculty of Mathematics and Physics of the University of Ljubljana

Researchers:

• Dr. Dušan Babič
• Dr. Martin Čopič
• Dr. Igor Poberaj

Participating research organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Dr. Igor Križaj
• Dr. Miha Škarabot
• Dr. Andrej Vilfan
• Dr. Mojca Vilfan

Participating research organisation: University of Ljubljana, Faculty of Medicine

Researchers:

• Dr. Jure Derganc

Code: J1-7032

Project name: High-Entropy AlloysPeriod: 1.1.2016 – 31.12.2018   

Provider of funds logo:

Project head: Dr. Janez Dolinšek

Project head at F5: Dr. Vrtnik Stanislav

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Dr. Vid Bobnar
• Dr. Anton Gradišek
• Dr. Andreja Jelen
• Dr. Primož Koželj
• Dr. Mitja Krnel
• Dr. Andraž Rešetič
• Dr. Stanislav Vrtnik

Young researchers:

• Janez Lužnik

Technical associates:

• Jože Luzar

Participating research organisation: Faculty of Mathematics and Physics of the University of Ljubljana

Technical associates:

• Dr. Andraž Kocjan

Participating research organisation: Institute of Mathematics, Physics and Mechanics

Researchers:

• Dr. Zvonko Jagličić
• Dr. Marko Jagodič
• Dr. Vojko Jazbinšek

Code: J1-7300

Project name: Metamaterials from liquid crystal colloidsPeriod: 1.1.2016 – 31.12.2018 Provider of funds logo:

Project head: dr. Miha Ravnik

Project head at F5: dr. Miha Ravnik

Applicant organisation: ‘Jožef Stefan’ Institute 

Researchers:

• Dr. Anna Ryzhkova
• Dr. Miha Škarabot
• Dr. Slobodan Žumer
• Dr. Nikkhou Maryam
• Dr. Matjaž Humar
• Dr. Igor Muševič

Technical associates:

• Ivan Kvasić
• Janja Milivojević

Participating research organisation: Faculty of Mathematics and Physics of the University of Ljubljana

Researchers:

• Mag. Shun Wang
• Jure Alpinc