J. Rakovský, P. Čermák, O. Musset, P. Veis, A review of the development of portable laser induced breakdown spectroscopy and its applications, Spectrochimica Acta Part B - Atomic Spectroscopy, Vol. 101 (2014) p. 269-287, cit: 165 (142 WoS/Scopus)

P. Macko, P. Veis, G. Cernogora: Study of oxygen atom recombination on a Pyrex surface at different wall temperatures by means of time-resolved actinometry in a double pulse discharge technique, Plasma Sources Science & Technology, Vol. 13, No. 2 (2004) p. 251-262, cit: 133 (93 WoS/Scopus)

G.S. Maurya, A. Marín Roldán, P. Veis, A.K. Pathak, P. Sen: A review of the LIBS analysis for the plasma-facing components diagnostics, Journal of Nuclear Materials. - Vol. 541 (2020), p. [1-19], art. no. 152417. - ISSN (print) 0022-3115 cit: 65 (64 WoS/Scopus)

J. Rakovský, O. Musset, J.F. Buoncristiani, V. Bichet, F, Monna, P. Neige, P. Veis, Testing a portable laser-induced breakdownspectroscopy system on geological samples, Spectrochimica Acta Part B - Atomic Spectroscopy, Vol. 74-75 (2012) p. 57-65, cit: 60 (52 WoS/Scopus)

J. Jašík, J. Heitz, J.D. Pedarnig, P. Veis: Vacuum ultraviolet laser-induced breakdown spectroscopy analysis of polymers, Spectrochimica Acta Part B - Atomic Spectroscopy, Vol. 64, No. 10, (2009) p. 1128-1134, cit: 52 (44 WoS/Scopus)

G.S. Maurya, A. Marín Roldán, P. Veis, A.K. Pathak, P. Sen: A review of the LIBS analysis for the plasma-facing components diagnostics, Journal of Nuclear Materials. - Vol. 541 (2020), p. [1-19], art. no. 152417. - ISSN (print) 0022-3115 cit: 65 (64 WoS/Scopus)

H. van der Meiden, S. Almaviva, J. Butikova, V. Dwivedi, P. Gasior, W. Gromelski, A. Hakola, X. Jiang, I. Jogi, J. Karhunen, M. Kubkowska, M. Laan, G. Maddaluno, A. Marín Roldán, P. Paris, K. Piip, M. Pisarčík, G.V. Sergienko, M. Veis, P. Veis, S. Brezinsek and EUROfusion WP PFC Team: Monitoring of tritium and impurities in the first wall of fusion devices using a LIBS based diagnostic, Nuclear Fusion. Vol. 61, No. 12 (2021) p. [1-14], art. no. 125001, ISSN (print) 0029-5515, cit: 31 (31 WoS/Scopus)

A. Marín Roldán, M. Pisarčík, M. Veis, M. Držík, P. Veis: Calibration free analysis of a tungsten-based target for diagnostics of relevant fusion materials comparing picosecond and nanosecond LIBS, Spectrochimica Acta. No. 177 (2021) p. [1-9], art. no. 106055, ISSN (print) 0584-8547. cit: 24 (24 WoS/Scopus)

P. Veis, A. Marín Roldán, V. Dwivedi, J. Karhunen, P. Paris, I. Jogi, C. Porosnicu, C.P. Lungu, V. Nemanic, A. Hakola: Quantification of H/D content in Be/W mixtures coatings by CF-LIBS, Physica Scripta T171 (2020) p. [1-7], art. no. 014073, ISSN (print) 0031-8949. cit: 14 (14 WoS/Scopus)

J. Miškovičová, M. Anguš, H. van der Meiden, P. Veis: Selection of molybdenum lines by quantitative analysis of molybdenum- zirconium-titanium alloy byCF-LIBS for future fusion applications, Fusion Engineering and Design No. 153 (2020) p. 1-9, Art. No. 111488, ISSN (print) 0920-3796. cit: 17(17 WoS/Scopus)

[o1] 2010 Janssen, C. - Tuzson, B.: Isotope evidence for ozone formation on surfaces. In: Journal of Physical Chemistry A, Vol. 114, No. 36, 2010, s. 9709-9719 - SCI ; SCOPUS

[citovaný článok/cited paper] P. Macko, P. Veis, G. Cernogora: Study of oxygen atom recombination on a Pyrex surface at different wall temperatures by means of time-resolved actinometry in a double pulse discharge technique, Plasma Sources Science & Technology, Vol. 13, No. 2 (2004) p. 251-262, cit: 128 (83 WoS/Scopus)

[o1] 2018 Motto-Ros, V. - Syvilay, D. - Bassel, L. - Negre, E. - Trichard, F. - Pelascini, F. - El Haddad, J. - Harhira, A. - Moncayo, S. - Picard, J. - Devismes, D. - Bousquet, B.: Critical aspects of data analysis for quantification inlaser-induced breakdown spectroscopy. In: Spectrochimica Acta Part B-Atomic Spectroscopy, Vol. 140, 2018, s. 54-64 - SCI ; SCOPUS

[citovaný článok/cited paper] J. Rakovský, P. Čermák, O. Musset, P. Veis, A review of the development of portable laser induced breakdown spectroscopy and its applications, Spectrochimica Acta Part B - Atomic Spectroscopy, Vol. 101 (2014) p. 269-287, cit: 165 (142 WoS/Scopus)

[n1] 2022 J. Ji, W. Song, Z. Hou, L. Li, X. Yu, Z. Wang.: Raw signal improvement using beam shaping plasma modulation for uranium detection in ore using laser-induced breakdown spectroscopy, Analytica Chimica Acta, Vol.1235, 2022, art. no. 340551 - SCI ; SCOPUS

[citovaný článok/cited paper] G.S. Maurya, A. Marín Roldán, P. Veis, A.K. Pathak, P. Sen: A review of the LIBS analysis for the plasma-facing components diagnostics, Journal of Nuclear Materials. - Vol. 541 (2020), p. [1-19], art. no. 152417. - ISSN (print) 0022-3115 cit: 65 (64 WoS/Scopus)

[o1] 2015 G. Yang, Q. Lin, Y. Ding, D. Tian, Y. Duan: Laser induced breakdown spectroscopy based on single beam splitting and geometric configuration for effective signal enhancement, Scientific Reports, Vol. 5, 2015, Art. No.7625 - SCI ; SCOPUS

[citovaný článok/cited paper] J. Rakovský, O. Musset, J.F. Buoncristiani, V. Bichet, F, Monna, P. Neige, P. Veis, Testing a portable laser-induced breakdownspectroscopy system on geological samples, Spectrochimica Acta Part B - Atomic Spectroscopy, Vol. 74-75 (2012) p. 57-65, cit: 60 (52 WoS/Scopus)

[o1] 2011 Dyar, M. D. - Tucker, J. M. - Humphries, S. - Clegg, S. M. - Wiens, R. C. - Lane, M. D.: Strategies for Mars remote Laser-Induced Breakdown Spectroscopy analysis of sulfur in geological samples. In: Spectrochimica Acta - Part BAtomic Spectroscopy, Vol. 66, No. 1, 2011, s. 39-56 - SCI ; SCOPUS

[citovaný článok/cited paper] J. Jašík, J. Heitz, J.D. Pedarnig, P. Veis: Vacuum ultraviolet laser-induced breakdown spectroscopy analysis of polymers, Spectrochimica Acta Part B - Atomic Spectroscopy, Vol. 64, No. 10, (2009) p. 1128-1134, cit: 52 (44 WoS/Scopus)

Horizont Europe Grant No 1052200 EUROfusion - Názov/Title: Implementation of activities described in the Roadmap to Fusion during Horizon Europe through a joint programme of the members of the EUROfusion consortium.

Anotácia/Annotation: EUROfusion projekt riešil experimentálne a teoreticky fyzikálne poznatky súvisiace s termojadrovou fúziou pre reaktory ITERu a DEMAa. Naša práca v projekte EUROfusion v pracovnej skupine WP PWIE súvisí so štúdiom materiálov a komponentov prvej steny fúzneho reaktora (požaduje sa odolnosť voči neutrónom, tepelným tokom, bombardovaniu rýchlymi časticami). V prvých stenách dochádza pri prevádzke k vzniku nano-trhlín a následne sa môže veľmi efektívne zachytávajú palivo D/T. Monitorovanie záchytu paliva je jeden z hlavných problémov, ktorý rieši ja naša vedecká skupina v rámci WP PWIE pracovnskupiny. / The EUROfusion project addressed experimental and theoretical physics related to thermonuclear fusion for the ITER and DEMA reactors. Our work in the EUROfusion project in the WP PWIE working group is related to the study of materials and components of the first wall of a fusion reactor (resistance to neutrons, heat flux, bombardment by fast particles is required). Nano-cracks occur in the first walls during operation and can subsequently very effectively D/T fuel retention. Monitoring fuel retention is one of the main problems that our scientific group is solving within the WP PWIE working group.

Druh činnosti / Role: zodpovedný riešiteľ projektu za SR / Head of Slovak RU

Horizont 2020 Grant No 633053 EUROfusion - Názov/Title: Euratom research and training program 2014-2020. Anotácia/Annotation: EUROfusion projekt riešil experimentálne a teoreticky fyzikálne poznatky súvisiace s experimentom ITER po spustení prevádzky. Naša práca v projekte EUROfusion v pracovnej skupine WP PFC súvisela so štúdiom PFC (komponentov prvej steny dochádyajúcej do priameho kontaktu s plazmou). Z navrhovaných experimentálnych podmienok práce reaktora ITER sa požaduje odolnosť PFC voči neutrónom, tepelným tokom,ktoré môžu sposobovať nevratnú deštrukciu PFC. Naviac počas generácie plazmy v reaktore dochádza k rozprašovania materiálu PFC, jeho migrácii a následnej redepozícii. Vytvárajú sa BeWO vrstvy , ktoré veľmi efektívne zachytávajú palivo D/T. Monitorovanie záchytu paliva bol jeden z hlavných problémov, ktorý sa riešil vrámci WP-PFC pracovnej skupiny. / The EUROfusion project addressed the experimental and theoretical physical knowledge related to the ITER post-commissioning. Our work in the EUROfusion project in the WP PFC working group was related to the study of PFC (components of the first wall coming into direct contact with plasma). The proposed experimental operating conditions of the ITER reactor require the resistance of PFCs to neutrons, heat fluxes that can cause irreversible destruction of PFCs. In addition, during the generation of plasma in the reactor, the PFC material is sputtewred, migrated and redepositied . Created BeWO layers can retein capture D/T fuel very efficiently. Fuel retention monitoring was one of the main issues addressed by the WP-PFC Working Group. Druh činnosti / Role: zodpovedný riešiteľ za podúlohu projektu na národnej úrovni / principal investigator for the task of the project at national level

APVV-22-0548 - Názov/Title:Konfigurácia viacerých laserov na doplnenie emisnej spektroskopie pre štúdie interakcií plazmy so stenou; MW zosilnenie, fluorescencia

a Raman / Multi Laser Configuration to Complement Emission Spectroscopy for Plasma Wall Interaction Studies; MW Enhancement, Fluorescence and Raman. Anotácia/Annotation: Navrhovaný projekt patrí do výskumu termojedrovej fúzie, čo je prioritná oblasť pre zásobovanie energiou v budúcnosti. Konkrétne sa zaoberá štúdiom relevantných materiálov pre steny fúzneho reaktora so zameraním na záchyt paliva, migráciu materiálu stien, tvorbu nanodefektov a rast deponovaných vrstiev, ale aj hĺbkovú profilovú elementárnu a štrukturálnu analýzu nanomateriálov/ vrstiev. V navrhovanom projekte budú použité viaceré metódy v kombinácii s LIBS, ako mikrovlnným výbojom podporovaná LIBS (MW-LIBS), rezonančná LIBS (R-LIBS), LIBS v kombinácii s laserom indukovanou fluorescenciou (LIBS-LIF), Ramanov a röntgenový rozptyl. / The proposed project belongs to thermonuclear fusion research, which is a priority area for energy supply in the future. Specifically, it deals with the study of relevant materials for fusion reactor walls with a focus on the fuel retention, wall material migration, nano-defects formation, and growth of deposited layers but also with depth profile elemental and structural analysis of nano-materials/layers. In the proposed project several methods in combination with LIBS will be

studied, such as microwave (MW)-LIBS, resonant LIBS (R-LIBS), LIBS in combination with laser induced fluorescence (LIBS-LIF), Raman and X-ray scattering. Druh činnosti / Role: zodpovedný riešiteľ / principal investigator.

APVV-16-0612 - Názov/Title: Fyzikálne aspekty laserovej diagnostiky pre termojadrovú fúziu, zodpovedný riešiteľ /The physical aspects of laser diagnostics for thermonuclear fusion. Anotácia/Annotation: Projekt patrí do tematiky materiálového výskumu a nanotechnológií. Zaoberal sa štúdiom relevantných materiálov pre steny fúznych reaktorov so zameraním sa na záchyt paliva, migráciu materiálu stien, tvorbu nanodefektov a rast vrstiev. Základnou metódou projektu bola laserom indukovana breakdown spektroskopia (LIBS) na priestorovú analýzu skúmaných povrchov (v závislosti od polohy a hĺbky). Cieľom projektu bola stratégiu na zosilnenie a analýzu signálu LIBS, pri redukcii hmotnosti ablovaného materiálu. Dosiahlo sa hĺbkové rozlíšenie na úrovni niekoľko desiatok nm pri použití ps laserovej ablácie a simultánnej Vákuovej UV LIBS spektroskopii. / The project belongs to the material and nanotechnology research. It deals with the study of relevant materials for fusion reactor walls with a focus on the fuel retention, wall material migration, nano-defects formation, and growth of deposited layers. The basic method of the project was laser-induced breakdown spectroscopy (LIBS) for spatial analysis of the studied surfaces (depending on the position and depth). The aim of the project was a strategy to amplify and analyze the LIBS signal, while reducing the weight of the ablated material. Depth resolution of several tens of nm was achieved using ps laser ablation and simultaneous Vacuum UV LIBS spectroscopy. Druh činnosti / Role: zodpovedný riešiteľ / principal investigator.

VEGA 1/0803/21 - Názov/Title: Laserom indukovaná plazmová analýza tenkých vrstiev a tekutín s cieľom zlepšenia jej citlivosti a priestorového rozlíšenia / Laser Induced Plasma Analysis of Thin Films and Liquids for the Improvement of its Sensitivity and Spatial Resolution. Anotácia/Annotation: Tento projekt má dva hlavnmé ciele, zlepšenie citlivosti a priestorového rozlíšenia v laserovej plazmovej analýze na štúdium tenkých vrstiev a vzoriek tekutín. Na zlepšenie citlivosti metódy LIBS sa budú študovať rôzne prístupy, ako sú súčasné VUV­NIR LIBS, DP­LIBS, LIBS v kombinácii s el. výbojmi, plazmové rezonančné LIBS a povrchovo podporované LIBS. Na tento účel sa použijú roztoky ťažkých kovov vysušené na vysoko reflexnom povrchu. Zlepšenie citlivosti povedie k lepším LOD a pomerom signal/šum profilometrii, rozšíreniu a separácie izotopov, ak sa pridá spektrometer s vysokým rozlíšením. Na dosiahnutie druhého cieľa budú ablátované krátery študované pomocou 3D profilometriou, AFM a SIMS v spolupráci s Medzinárodným laserovým centrom (MLC). To nám umožní nielen overiť, ale aj doplniť naše výsledky LIBS. / This project has two main goals, the improvement of the sensitivity and the spatial resolution in laser plasma analysis for the study of thin films and liquid samples. To improve the sensitivity of the method, different approaches will be studied, such as simultaneous VUV-NIR LIBS, DP-LIBS, LIBS with el. discharges, plasma-resonant LIBS, and surface-assisted LIBS. For this, heavy metal solutions dried onto a highly-reflective surface will be used. The improvement in the sensitivity will lead into a better LOD and signal/noise ratio in profilometry, extensions and isotopes separation if a high-resolution spectrometer is added. For achieving the second goal, the ablated craters will be studied by a 3D profilometry, AFM and SIMS in collaboration with the International Laser Centre (ILC). This will allow us not only to verify but also to supplement our LIBS results. Druh činnosti / Role: zodpovedný riešiteľ / principal investigator.