[1] J. Badziak, J. Domański, Acceleration of carbon ion beams by an ultraviolet laser under conditions relevant for ion fast ignition of inertial fusion. Journal of Instrumentation (2020) 15, C02001 https://doi.org/10.1088/1748-0221/15/02/C02001

[2] M. Cutroneo, L. Torrisi, J. Badziak, M. Rosiński, A. Torrisi, M. Fazio, Z. Sofer, R. Bottger, S. Akhmadaliev, Hybrid graphene-based material promising target in laser matter interaction. Journal of Instrumentation (2020) 15, C01021 https://doi.org/10.1088/1748-0221/15/01/C01021

[3] L. Giuffrida, F. Belloni, D. Margarone, G. Petringa, G. Milluzzo, V. Scuderi, A. Velyhan, M. Rosiński, A. Picciotto, M. Kucharik, J. Dostal, R. Dudzak, J. Krasa, V. Istokskaia, R. Catalano, S. Tudisco, C. Verona, K. Jungwirth, P. Bellutti, G. Korn, G. Cirrone, High-current stream of energetic α particles from laser-driven proton-boron fusion. Physical Review E (2020) 101, 013204 https://doi.org/10.1103/PhysRevE.101.013204

[4] L. Torrisi, M. Rosiński, D. Terwińska, P. Tchórz, M. Cutroneo, A. Torrisi, Ion acceleration from aluminium plasma generated by a femtosecond laser in different conditions. Contributions to Plasma Physics (2020) 187, e201900187 https://doi.org/10.1002/ctpp.201900187

[5] L. Torrisi, M. Rosinski, M. Cutroneo, A. Torrisi, J. Badziak, A. Zaraś-Szydłowska, P. Parys, Target normal sheath ion acceleration by fs laser irradiating metal/reduced graphene oxide targets. Journal of Instrumentation (2020) 15, C03056 https://doi.org/10.1088/1748-0221/15/03/C03056

[6] J. Domański, J. Badziak, Properties of heavy ion beams produced by a PW sub-picosecond laser. Journal of Instrumentation (2020) 15, C05037 https://doi.org/10.1088/1748-0221/15/05/C05037

[7] J. Krása, D. Klír, M. Krupka, J. Cikhardt, M. Pfeifer, T. Pisarczyk, J. Dostál, K. Řezáč, R. Dudžák, T. Burian, Z. Rusiniak, T. Chodukowski, M. Krůs, M. Kálal, Ion bursts and multi-electron population in expanding laser-produced plasma. Journal of Instrumentation (2020) 15, C05046 https://doi.org/10.1088/1748-0221/15/05/C05046

[8]  L. Torrisi, M. Rosiński, M. Cutroneo, A. Torrisi, Target normal sheath acceleration by fs laser and advanced carbon foils with gold films and nanoparticles. Physics of Plasmas (2020) 27, 043107 https://doi.org/10.1063/5.0004834

[9] F. Consoli, V. Tikhonchuk, M. Bardon, P. Bradford, D. Carroll, J. Cikhardt, M. Cipriani, R. Clarke, T. Cowan, C. Danson, R. De Angelis, M. De Marco, J. Dubois, B. Etchessahar, A. Garcia, D. Hillier, A. Honsa, W. Jiang, V. Kmetik, J. Krása, Y. Li, F. Lubrano, P. McKenna, J. Metzkes-Ng, A. Poyé, I. Prencipe, P. Ra̧czka, R. Smith, R. Vrana, C. Woolsey, E. Zemaityte, Y. Zhang, Z. Zhang, B. Zielbauer, D. Neely, Laser produced electromagnetic pulses: generation, detection and mitigation. High Power Laser Science and Engineering (2020) 8, e22 https://doi.org/10.1017/hpl.2020.13

[10] T. Chodukowski, S. Borodziuk, Z. Rusiniak, J. Cikhardt, K. Jach, J. Krasa, M. Rosiński, D. Terwińska, R. Dudzak, T. Pisarczyk, R. Świerczyński, T. Burian, P. Tchórz, J. Dostal, M. Szymański, M. Pfeifer, J. Skala, S. Singh, M. Krupka, M. Krus, Neutron production in cavity pressure acceleration of plasma objects. AIP Advances (2020) 10, 085206 https://doi.org/10.1063/5.0005977

[11] D. Kumar, S. Singh, H. Ahmed, R. Dudzak, J. Dostal, T. Chodukowski, L. Giuffrida, P. Hadjisolomou, T. Hodge, L. Juha, E. Krousky, M. Krus, Y. Li, P. Lutoslawski, M. DeMarco, M. Pfeifer, Z. Rusiniak, J. Skala, J. Ullschmied, T. Pisarczyk, M. Borghesi, S. Kar, Magnetic field generation using single-plate targets driven by kJ-ns class laser. Plasma Physics and Controlled Fusion (2020) 62, 125024 https://doi.org/10.1088/1361-6587/abb617

[12] T. Pisarczyk, M. Kala, S. Gus'kov, D. Batani, O. Renner, J. Santos, R. Dudzak, A. Zaras-Szydlowska, T. Chodukowski, Z. Rusiniak, J. Dostal, J. Krasa, M. Krupka, I. Kochetkov, S. Singh, J. Cikhardt, T. Burian, M. Krus, M. Pfeifer, G. Cristoforetti, L. Gizzi, F. Baffigi, L. Antonelli, N. Demchenko, M. Rosinski, D. Terwinska, S. Borodziuk, P. Kubes, M. Ehret, L. Juha, J. Skala, P. Korneev, Hot electron retention in laser plasma created under terawatt sub-nanosecond irradiation of Cu targets. Plasma Physics and Controlled Fusion (2020) 62, 115020 https://doi.org/10.1088/1361-6587/abb74b

[13] J. Domański, J. Badziak, Generation of ion beams from high-Z target irradiated by laser pulse of ultra-relativistic intensity. Acta Physica Polonica A (2020) 138, 586-592 http://doi.org/10.12693/APhysPolA.138.586

[14] P. Rączka, J. Dubois, S. Hulin, M. Rosiński, L. Ryć, P. Parys, A. Zaraś-Szydłowska, D. Terwińska, P. Tchórz, J. Badziak, J. Ribolzi, V. Tikhonchuk, J. Wołowski, Target charging, strong electromagnetic pulse emission and proton acceleration from thin foils at 10 TW IPPLM femtosecond laser facility. Acta Physica Polonica A (2020) 138, 593-600 http://doi.org/10.12693/APhysPolA.138.593

[15] J. Krasa, D. Klir, J. Cikhardt, M. Pfeifer, H. Hora, M. Krupka, K. Rezac, R. Dudzak, J. Dostal, T. Burian, M. Krus, J. Skala, K. Jungwirth, Z. Rusiniak, T. Pisarczyk, T. Chodukowski, Laser-target experiments at PALS for deuterium plasma beam fusion. Acta Physica Polonica A (2020) 138, 579-585 http://doi.org/10.12693/APhysPolA.138.579

[16] A. Zaraś-Szydłowska, T. Pisarczyk, T. Chodukowski, Z. Rusiniak, R. Dudzak, J. Dostal, M. Kalal, I. Kochetkov, M. Krupka, S. Borodziuk, P. Pisarczyk, Implementation of amplitude-phase analysis of complex interferograms for measurement of spontaneous magnetic fields in laser generated plasma. AIP Advances (2020) 10, 115201 https://doi.org/10.1063/5.0020511

[17] A. Aliverdiev, D. Batani, R. Benocci, R. Dezulian, A. Amirova, E. Krousky, M. Pfeifer, J. Skala, R. Dudzak, K. Jakubowska, Experimental results for layered targets irradiated by double focal spot. Acta Physica Polonica A (2020) 138, 608-612  http://dx.doi.org/10.12693/APhysPolA.138.608

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Research projects carried out at the IPPLM are funded by the Polish Ministry of Science and Higher Education, the National Science Centre and by the European Commission within the framework of EUROfusion Consortium under grant agreement No 633053. Financial support comes also from the International Atomic Energy Agency, European Space Agency and LaserLab Consortium as well as from the Fusion for Energy Agency.

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