NAPLIFE - Publications

[2023]

• Shireen Zangana, Tomás Lednický, and Attila Bonyár,
  Three Generations of Surface Nanocomposites Based on Hexagonally Ordered Gold Nanoparticle Layers and Their Application for Surface-Enhanced Raman Spectroscopy,
  Chemosensors, (4), 235 (2023}.
  https://doi.org/10.3390/chemosensors11040235

• Tamás Sándor Biró, Norbert Kroó, László Pál Csernai, Miklós Veres, Márk Aladi, István Papp, Miklós Ákos Kedves, Judit Kámán, Ágnes Nagyné Szokol, Roman Holomb, István Rigó, Attila Bonyár, Alexandra Borók, Shireen Zangana, Rebeka Kovács, Nóra Tarpataki, Mária Csete, András Szenes, Dávid Vass, Emese Tóth, Gábor Galbács, and Melinda Szalóki,
  With Nanoplasmonics towards Fusion
  Universe, 9, 233 (2023).
  https://doi.org/10.3390/universe9050233

• D. Vass, A. Szenes, E. Tóth, B. Bánhelyi, I. Papp, T. Bíró, L. P. Csernai, N. Kroó, and M. Csete,
  Plasmonic nanoresonator distributions for uniform energy deposition in active targets,
  Opt. Mater. Express 13(1), 9-27 (2023).
  https://doi.org/10.1364/OME.471980

• Tamás Sándor Biró,
  Naplife: Nanotechnology with a perspective on nuclear fusion, Article
  Open Access Government, First Published: 24th February (2023),
  https://doi.org/10.56367/OAG-038-10730

• István Papp, Larissa Bravina, Mária Csete, Archana Kumari, Igor N. Mishustin, Anton Motornenko, Péter Rácz, Leonid M. Satarov, Horst Stöcker, Daniel D. Strottman, András Szenes, Dávid Vass, Ágnes Nagyné Szokol, Judit Kámán, Attila Bonyár, Tamás S. Biró, László P. Csernai, Norbert Kroó (NAPLIFE Collaboration),
  Kinetic model of resonant nanoantennas in polymer for laser induced fusion,
  Front. Phys. 11, 1116023 (2023)
  https://doi.org/10.3389/fphy.2023.1116023

  [2022]

• Géza Szántó, Attila Bonyár, István Csarnovics,
  Dimers of gold-silver core-shell nanospheres: The effect of interparticle gap on the refractive index sensitivity and extinction spectrum, Photonics and Nanostructures, 50, 101023 (2022)
  https://doi.org/10.1016/j.photonics.2022.101023

• István Papp, Larissa Bravina, Mária Csete, Archana Kumari, Igor N. Mishustin, Anton Motornenko, Péter Rácz, Leonid M. Satarov, Horst Stöcker, Daniel D. Strottman, András Szenes, Dávid Vass, Ágnes Nagyné Szokol, Judit Kámán, Attila Bonyár, Tamás S. Biró, László P. Csernai, Norbert Kroó (NAPLIFE Collaboration),
  Kinetic Model Evaluation of Dynamical Properties of Nanaorod Antennas Embedded in a Polymer Carrying the Nuclei of Fusion Fuel,
  arXiv: 2211.14031v1 [physics.plasm-ph], https://arxiv.org/abs/2212.03638
  https://doi.org/10.48550/arXiv.2212.03638

• László P. Csernai, Igor N. Mishustin, Leonid M. Satarov, Horst Stoecker, Larissa Bravina, Mária Csete, Judit Kámán, Archana Kumari, Anton Motornenko, István Papp, Peter Rácz, Daniel D. Strottman, András Szenes, Ágnes Szokol, Dávid Vass, Miklós Veres, Tamás S. Biró, Norbert Kroó (NAPLIFE Collaboration),
  Crater Formation and Deuterium Production in Laser Irradiation of Polymers with Implanted Nano-antennas,
  arXiv: 2211.14031v1 [physics.plasm-ph], https://arxiv.org/abs/2211.14031
  https://doi.org/10.48550/arXiv.2211.14031

• Attila Bonyár, Melinda Szalóki, Alexandra Borók, István Rigó, Judit Kámán, Shereen Zangana, Miklós Veres, Péter Rácz, Márk Aladi, Miklós Ákos Kedves, Ágnes Szokol, Péter Petrik, Zsolt Fogarassy, Kolos Molnár, Mária Csete, András Szenes, Emese Tóth, Dávid Vas, István Papp, Gábor Galbács, László P. Csernai, Tamás S. Biró, Norbert Kroó, (NAPLIFE Collaboration),
  The Effect of Femtosecond Laser Irradiation and Plasmon Field on the Degree of Conversion of a UDMA-TEGDMA Copolymer Nanocomposite Doped with Gold Nanorods,
  Int. J. Mol. Sci. 23(21), 13575 (2022).
  https://doi.org/10.3390/ijms232113575

• Dávid Vass, András Szenes, Balázs Bánhelyi, and Mária Csete,
  Plasmonically Enhanced Superradiance of Broken-Symmetry Diamond Color Center Arrays Inside Core-Shell Nanoresonators,
  Nanomaterials , 12 (3), 352 (2022).
  https://doi.org/10.3390/nano12030352

• István Rigó, Judit Kámán, Ágnes Nagyné Szokol, Attila Bonyár, Melinda Szalóki, Alexandra Borók,
  Shereen Zangana, Péter Rácz, Márk Aladi, Miklós Ákos Kedves, Gábor Galbács,
  László P. Csernai, Tamás S. Biró, Norbert Kroó, Miklós Veres, (NAPLIFE Collaboration)
  Raman spectroscopic characterization of crater walls formed upon single-shot high energy
  femtosecond laser irradiation of dimethacrylate polymer doped with plasmonic gold nanorods
  arXiv: 2210.00619 [physics.plasm-ph], https://arxiv.org/abs/2210.00619
  https://doi.org/10.48550/arXiv.2210.00619

• Hernádi, Zsuzsa: A jelen és a jövő legjobb kilátása a nukleáris energia
  (The best future choice is nuclear energy), "Fejlődni, de hogyan?" (Evolve but how? - in Hungarian),
  Interview with László Csernai, Demokrata, weekly 39 p.52-54 (2022.09.28)

• Dr Tamás Biró for the NAPLIFE Collaboration:
  NAPLIFE: Advancing nuclear fusion with nanotechnology,
  Research Outreach, Stonehouse, UK; July 21, (2022).
  https://doi.org/10.32907/RO-131-2963358774. Soundtrack of the interview.

• István Papp, Larissa Bravina, Mária Csete, Archana Kumari, Igor N. Mishustin, Dénes Molnár,
  Anton Motornenko, Péter Rácz, Leonid M. Satarov, Horst Stöcker, Daniel D. Strottman, András Szenes,
  Dávid Vass, Tamás S. Biró, László P. Csernai, and Norbert Kroó, (NAPLIFE Collaboration)
  Kinetic Model Evaluation of the Resilience of Plasmonic Nanoantennas for Laser-Induced Fusion;
  PRX Energy 1, 023001 (2022).
  https://doi.org/10.1103/PRXEnergy.1.023001

• Szegedi Imre: Nanofúzió Csillebércen, Interjú Biró Tamás Sándor fizikussal.
  Innotéka, 2022. június, p.16-17

• G. Kasza, L.P. Csernai, T. Csörgő,
  New, spherical solutions of non-relativistic, dissipative hydrodynamics;
  Entropy, [Feature paper], 24, 514 (2022),
  https://doi.org/10.3390/e24040514
  arXiv: 2203.05859v2 [hep-th].
  https://arxiv.org/pdf/2203.05859.pdf

• M. Csete, A. Szenes, E. Tóth, D. Vass, O. Fekete, B. Bánhelyi, I. Papp, T. Bíró, L. P. Csernai, N. Kroó, (NAPLIFE Collaboration),
  Comparative study on the uniform energy deposition achievable via optimized plasmonic nanoresonator distributions;
  Plasmonics 17 (2), 775-787 (2022).
  https://doi.org/10.1007/s11468-021-01571-x

  [2021]

• Paulik Katalin: Energiatermelés inerciális fúzióval
  (Energiproduction with inertial fusion - in Hungarian),
  interjú (interview with) Biró Tamás Sándor-ral.
  Innoteka (2021) julius-augusztus, 16-17.
  https://www.innoteka.hu/cikk/energiatermeles_inercialis_fuzioval.2308.html

• M. Csete, A. Szenes, E. Toth, D. Vass, O. Fekete, B. Bánhelyi, I. Papp,
  T. Bíró, L. P. Csernai, N. Kroó, (NAPLIFE Collaboration),
  Comparative study on the uniform energy deposition achievable
  via optimized plasmonic nanoresonator distributions;
  arXiv:2104.02027 (2021),
  https://arxiv.org/pdf/2104.02027.pdf

• István Papp, Larissa Bravina, Mária Csete, Igor N. Mishustin, Dénes Molnár, Anton
  Motornenko,Leonid M. Satarov, Horst Stöcker, Daniel D. Strottman, András Szenes, Dávid Vass,
  Tamás S. Biró, László P. Csernai, Norbert Kroó, (NAPLIFE Collaboration),
  Laser Wake Field Collider;
  Phys. Lett. A 396, 12724 (2021).
  https://doi.org/10.1016/j.physleta.2021.127245,
  arXiv:2009.0368v4 (2021),
  https://arxiv.org/pdf/2009.03686v4.pdf

• András Szenes, Dávid Vass, Balázs Bánhelyi, Mária Csete;
  Active individual nanoresonators optimized for lasing and spasing operation:
  Nanomaterials 11 (5) 1322, (2021),
  https://doi.org/10.3390/nano11051322

• JA Burunkova, D Alkhalil, DS Svjazhina, A Bonyár, I Csarnovics, S Kökényesi;
  Influence of gold nanoparticles in polymer nanocomposite on
  space-temporal-irradiation dependent diffraction grating recording:
  Polymers 214, 123240, (2021),
  https://doi.org/10.1016/j.polymer.2020.123240

  [2020]

• L. P. Csernai, M. Csete, I. N. Mishustin, A. Motornenko, I. Papp, L. M. Satarov, H. Stöcker, N. Kroo (NAPLIFE Collaboration),
  Radiation dominated implosion with flat target,
  arXiv:1903.10896,
  Physics of Wave Phenomena, 28 (3), 187-199 (2020).
  https://doi.org/10.3103/S1541308X20030048

• Lednický, Tomás; Bonyár, Attila;
  Large Scale Fabrication of Ordered Gold Nanoparticle–Epoxy Surface Nanocomposites and Their Application as Label-Free Plasmonic DNA Biosensors;
  ACS Applied Materials and Interfaces, 12 (4), 4804-4814 (2020).
  https://doi.org/10.1021/acsami.9b20907

• L. P. Csernai, N. Kroó, I. Papp and D. D. Strottman,
  Nanoplasmonic laser fusion response to Földes and Pokol,
  Laser and Particle Beams, 38 (4), 285-286 (2020),
  arXiv: 2008.09847
  https://doi.org/10.1017/S0263034620000348
  This publication is referring to the comment of Földes and Pokol,
  Laser and Particle Beams, 38 (3), 211-213 (2020),
  https://doi.org/10.1017/S0263034620000269.

• István Papp, Larissa Bravina, Mária Csete, Igor N. Mishustin, Dénes Molnár, Anton Motornenko, Leonid M. Satarov, Horst Stöcker, Daniel D. Strottman, András Szenes, Dávid Vass, Tamás S. Biró, László P. Csernai, Norbert Kroó, (NAPLIFE Collaboration),
  Laser Wake Field Collider;
  arXiv:2009.0368 (2020),
  https://arxiv.org/pdf/2009.03686.pdf

• Petra Pál, István Csarnovics, Miklós Veres, Attila Bonyár; Effect of different analyte solutions on the SERS process examined on gold nanoisland samples:
  2020 IEEE 26th International Symposium for Design and Technology in Electronic Packaging (SIITME), pp 335-337, (2020),
  https://doi.org/10.1109/SIITME50350.2020.9292172

• P Pál, A Bonyár, M Veres, L Himics, L Balázs, L Juhász, I Csarnovics; A generalized exponential relationship between the surface-enhanced Raman scattering (SERS) efficiency of gold/silver nanoisland arrangements and their non-dimensional interparticle distance/particle diameter ratio:
  Sensors and Actuators A: Physical 314, 112225, (2020),
  https://doi.org/10.1016/j.sna.2020.112225

• Denes Molnar; "Final Technical Report for Research Project “Transition from dissipative fluid dynamics to particles in heavy ion collisions”
  Period: 08/15/2016 - 09/30/2020 (originally 3 years: 08/15/2016 - 08/14/2019 + no-cost extension until 06/30/2020, + 3-month delay due to COVID-19 pandemic)
  DOE Award: DE-SC0016524, Principal Investigator (PI): Denes Molnar, Purdue University,
  https://doi.org/10.2172/1763650

  [2019]

• D Vass, A Szenes, B Bánhelyi, T Csendes, G Szabó, M Csete,
  Superradiant diamond color center arrays coupled to concave plasmonic nanoresonators,
  Optics express 27 (22), 31176-31192 (2019).,
  https://doi.org/10.1364/OE.27.031176

• P. Rácz and N. Kroó,
  Surface-Plasmon-Assisted Cooper Pair Formation in Ordered Gold Films at Room Temperature,
  Physics of Wave Phenomena, 27 (3), 192–196 (2019).
  https://doi.org/10.3103/S1541308X1903004X

  [2018]

• Bonyár, A ; Csarnovics, I ; Veres, M ; Himics, L ; Csik, A ; Kámán, J ; Balázs, L ; Kökényesi, S;
  Investigation of the performance of thermally generated gold nanoislands for LSPR and SERS applications,
  Sensors and Actuators B-Chemical, 255, 433-439 (2018).
  https://doi.org/10.1016/j.snb.2017.08.063

• L.P. Csernai, N. Kroo, and I. Papp,
  Radiation dominated implosion with nano-plasmonics,
  Laser and Particle Beams, 36 (2), 171-178 (2018).
  arXiv:1710.10954,
  https://doi.org/10.1017/S0263034618000149

  [2017]

• Csernai, L.P., Kroó and Papp, I. (2017).
  Procedure to improve the stability and efficiency of laser-fusion by nano-plasmonics method.
  Patent Note # P1700278/3 at the Hungarian Intellectual Property Office.

  [2016]

• N. Kroó and P. Rácz,
  Plasmonics - The Interaction of Light with Metal Surface Electrons,
  Laser Physics, 26, 084011 (2016).
  https://doi.org/10.1088/1054-660X/26/8/084011

  [2015]

• L.P. Csernai and D.D. Strottman,
  Volume ignition via time-like detonation in pellet fusion,
  Laser and Particle Beams, 33, 279-282 (2015).
  arXiv: 1503.03299 [physics.plasm-ph],
  https://doi.org/10.1017/S0263034615000397

  [1987]

• L.P. Csernai,
  Detonation on a time-like front for relativistic systems,
  Zh. Eksp. Teor. Fiz. 92, 379- 386 (1987).
  Russian and English version