01.03.2011 CURRICULUM VITAE Personal information: Name: Date and place of birth: Marital status: Citizenship: Contact address: Highest degree: Current position: Research interests: Languages: Education: Career/Employment: Łukasz Paweł Kilański September 2, 1982; Łódź, Poland Married Polish Institute of Physics, Polish Academy of Sciences al. Lotnikow 32/46, 02-668 Warsaw, Poland phone: +48 22 843 66 01 ext. 2633; +48 605 535 247 e-mail: kilan@ifpan.edu.pl Doctor of Physics, Institute of Physics, Polish Academy of Sciences, Department of Semiconductor Physics, 17.06.2010. Thesis: Magnetism of CuFeS 2 and NaCl structure semiconductors of examples of (Cd,Zn)MnGeAs 2 and GeSnMnEuTe. Research Associate, Laboratory of Semimagnetic Semiconductors, Institute of Physics, Polish Academy of Sciences. Spintronics, diluted magnetic semiconductors, disordered and nanocomposite systems, magnetism and magnetotransport studies, defects in semiconductors. Polish (native), English (fluent), German (basic), and Russian (basic). Ph.D. in Physics 17.06.2010. Institute of Physics, Polish Academy of Sciences (Warsaw, Poland). Thesis: Magnetism of CuFes 2 and NaCl structure diluted magnetic semiconductors on examples of (Cd,Zn)MnGeAs 2 and GeSnMnEuTe. Supervisor: Prof. dr. hab. W. Dobrowolski MSc. in Technical Physics 30.06.2006. Technical University of Łódź (Poland). Thesis: Determination of quadratic electrooptic coefficient g 2211 -g 1111 in RDP crystal at room temperature. Supervisor: Prof. dr. hab. P. Górski. Technician in Economy 28.06.2001. Economic Secondary School in Łódź (Poland). Specialty: finance and accountancy. Since 25.08.2011: Research Associate in Department of Science, Warsaw, Poland. 1
25.08.2010 24.08.2011: Post-doctoral Marie Curie Fellow, Department of Applied Physics, Aalto University and School of Science and Technology, Espoo, Finland. 01.07.2010 24.08.2010: Research Associate in Department of Science, Warsaw, Poland. 01.08.2007 31.10.2007: Visiting Scientist in Department of Applied Physics, Helsinki University of Technology, Finland. Positron annihilation spectroscopy in semiconductors (with Dr F. Tuomisto, Positron group). 01.10.2006 17.06.2010: Ph.D. Student in Department of Science, Warsaw, Poland. Supervisor: Prof. W. Dobrowolski. 01.07.2005 31.07.2005: Assistant in Department of Science, Warsaw, Poland. Supervisor: Prof. W. Dobrowolski. 01.05.2000 30.06.2000: Department manager, Tax Execution Department, 2 nd Tax Office in Łódź, Poland. Special appointments: Publications: Presentations: Awards: Funding and grants: 23.11.2009 27.11.2009: Visiting scientist, Laboratoire National des Champs Magnétiques Intenses, CNRS, 38042, Grenoble, France, Project: High field magnetotransport in ferromagnetic semiconductor Cd 1-x Mn x GeAs 2. Advisor: dr. D. K. Maude. 20.04.2009 24.04.2009: Visiting scientist, Laboratoire National des Champs Magnétiques Intenses, CNRS, 38042, Grenoble, France, Project: High field carrier transport studies in Mn doped II-IV-V 2 semiconductors. Advisor: dr. D. K. Maude. List of major publications in refereed journals (Appl. Phys. Lett. Phys. Rev. B, J. Appl. Phys. et al.) includes total of 29 refereed scientific articles: 25 published and 4 submitted. 9 contributed talks (1 invited) and 14 poster presentations in international scientific conferences and workshops. 9 seminar talks at several different domestic and foreign physical institutes. 01.10.2008 30.06.2009: 3500, "Mazovia Ph.D. Scholarship", award by the Mazovia Marshal for the best Ph.D. students for scientific equipment. 05.05.2011r. 04.05.2014 r.: 300 000 PLN, grant of Polish Ministry of Science and Higher Education (main contributor) titled: Nanocomposite materials based on II-IV-V 2 2
ferromagnetic semiconductors: magnetic, optical and electrical properties. 23.12.2010 r. 31.12.2011 r.: 120 000 PLN, grant of Polish Ministry of Science and Higher Education (project coordinator) titled: Nanocomposite ferromagnetic semiconductors based on II-IV-V 2 group compounds: magnetic, electrical and optical properties. 25.08.2009 17.06.2010: 7000, Ph. D. grant of Polish Ministry of Science and Higher Education titled: New materials for spintronics transition metal doped II-IV-V 2 and IV-VI semiconductors. 23.11.2009 27.11.2009: 5000, transnational access grant for high magnetic field facility user. 20.04.2009 24.04.2009: 5000, transnational access grant for high magnetic field facility user. Collaboration: Kurnakov Institute of General and Inorganic Chemistry, Russian Academy of Sciences, (Group of Prof. S. F. Marenkin). Chernovtsy Department of the Institute of Problems of Materials Science, National Academy of Sciences of Ukraine (Group of Prof. I. E. Slynko). Center for Solid State Physics & New Materials, Institute of Physics, Belgrade (Group of Dr. N. Romcevic). Department of Physics, University of Maryland (Group of Prof. J. R. Anderson). Laboratoire National des Champs Magnétiques Intenses, CNRS, Grenoble, France (Group of Dr D. K. Maude). 3
List of publications: I. Articles in international refereed JCR-listed scientific journals: 1. H. Nykänen, S. Suihkonen, Ł. Kilański, M. Sopanen, and F. Tuomisto, Low energy electron beam induced vacancy activation in GaN, Appl. Phys. Lett., in press (2012). 2. I. V. Fedorchenko, A. V. Kochura, S. F. Marenkin, A. N. Aronov, L. I. Koroleva, Ł. Kilański, R. Szymczak, W. Dobrowolski, S. Ivanenko, and E. Lahderanta, Advanced Materials for Spintronic Based on Zn(Si,Ge)As 2 Chalcopyrites, IEEE Trans. Magn. 48(4), in press (2012). 3. Ł. Kilański, I. V. Fedorchenko, M. Górska, E. Dynowska, M. Wójcik, B. J. Kowalski, J. R. Anderson, C. R. Rotundu, S. A. Varnavskiy, W. Dobrowolski, and S. F. Marenkin, Paramagnetic regime in Zn 1-x Mn x GeAs 2 diluted magnetic semiconductor, Phys. Stat. Sol. B 248, 1601 (2011). 4. Ł. Kilański, W. Dobrowolski, E. Dynowska, M. Wójcik, B. J. Kowalski, N. Nedelko, A. Ślawska-Waniewska, D. K. Maude, S. A. Varnavskiy, I. V. Fedorchenko, and S. F. Marenkin, Colossal linear magnetoresistance in CdGeAs 2 :MnAs microcomposite ferromagnet, Solid State Comm. 151, 870 (2011). 5. Ł. Kilański, M. Górska, W. Dobrowolski, M. Arciszewska, V. Domukhovski, J. R. Anderson, N. P. Butch, A. Podgórni, V. E. Slynko, and E. I. Slynko, The Role of Frustration in Magnetism of Ge 1-x Cr x Te Semimagnetic Semiconductor Acta Physica Polonica A 119, 654 (2011), ERRATUM, Acta Phys. Pol. A 119, 904 (2011). 6. Ł. Kilański, M. Górska, W. Dobrowolski, M. Arciszewska, V. Domukhovski, J. R. Anderson, N. P. Butch, A. Podgórni, V. E. Slynko, and E. I. Slynko, The Role of Frustration in Magnetism of Ge 1-x Cr x Te Semimagnetic Semiconductor, Acta Phys. Pol. A 119, 654 (2011). 7. I. Kuryliszyn-Kudelska, B. Hadžić, D. Sibera, Ł. Kilański, N. Romčević, M. Romčević, U. Narkiewicz, and W. Dobrowolski, Nanocrystalline ZnO Doped with Fe 2 O 3 Magnetic and Structural Properties, Acta Phys. Pol. A 119, 689 (2011). 8. I. V. Fedorchenko, A. Rumiantsev, T. Kuprijanova, Ł. Kilanski, R. Szymczak, W. Dobrowolski, and L. I. Koroleva, Making ferromagnetic heterostructures Si/Zn 1-x Mn x SiAs 2 and Ge/Zn 1-x Mn x GeAs 2, Solid State Phenom. 168, 313 (2011). 9. Ł. Kilański, M. Górska, W. Dobrowolski, E. Dynowska, M. Wójcik, B. J. Kowalski, J. R. Anderson, C. R. Rotundu, D. K. Maude, S. A. Varnavskiy, I. V. Fedorchenko, and S. F. Marenkin, Magnetism and magnetotransport of strongly disordered Zn 1-x Mn x GeAs 2 semiconductor: The role of nanoscale magnetic clusters, J. Appl. Phys. 108, 073925 (2010). 10. Ł. Kilański, R. Szymczak, W. Dobrowolski, K. Szałowski, V. E. Slynko, and E. I. Slynko, Magnetic interactions in spin-glasslike Ge 1-x-y Sn x Mn y Te dilute magnetic semiconductors, Phys. Rev. B 82, 094427 (2010). 4
11. Ł. Kilański, A. Zubiaga, F. Tuomisto, W. Dobrowolski, V. Domukhovski, S. A. Varnavskiy, and S. F. Marenkin, Native vacancy defects in Zn 1- x(mn,co) x GeAs 2 studied with positron annihilation spectroscopy, J. Appl. Phys. 106, 013524-1 6 (2009). 12. Ł. Kilański, M. Arciszewska, W. Dobrowolski, V. Domukhovski, V. E. Slynko, and E. I. Slynko, Spin-glasslike behavior in rhombohedral (Ge,Mn)Te (Sn,Mn)Te mixed crystal, J. Appl. Phys. 103, 103901-1 8 (2009). 13. V. M. Novotortsev, S. F. Marenkin, L. I. Koroleva, T. A. Kupriyanova, I. V. Fedorchenko, R. Szymczak, Ł. Kilański, V. Domuchovski, and A. V. Kochura, Magnetic and Electric Properties of Manganese-Doped ZnSiAs 2, Russian Journal of Inorganic Chemistry (Zhurnal Neorganicheskoi Khimii+) 54, 1420 1424 (2009). 14. Y. B. Saddeek, I. S. Yahia, W. Dobrowolski, Ł. Kilański, N. Romcević, and M. Arciszewska, Infrared, Raman spectroscopy and ac magnetic susceptibility of Gd 2 O 3 -TeO 2 -V 2 O 5 glasses, Optoelectronics and Advanced Materials - Rapid Communications 3, 559 564 (2009). 15. L. I. Koroleva, D. M. Zashchirinski, T. M. Khapaeva, S. F. Marenkin, I. V. Fedorchenko, R. Szymczak, B. Krzymanska, W. Dobrowolski, and Ł. Kilański, Manganese-Doped ZnSiAs 2 Chalcopyrite: A New Advanced Material for Spintronics, Physics of the Solid State (Fiz. Tverd. Tela+) 51, 286 291 (2009). 16. Ł. Kilański, M. Gorska, V. Domukhovski, W. Dobrowolski, J. R. Anderson, C. R. Rotundu, S. A. Varniavskii, and S. F. Marenkin, Zn 1-x (Mn,Co) x GeAs 2 Ferromagnetic Semiconductor: Magnetic and Transport Properties, Acta Phys. Pol. A 114, 1151 1157 (2008). 17. U. Narkiewicz, D. Sibera, I. Kuryliszyn-Kudelska, Ł. Kilański, W. Dobrowolski and N. Romcević, Synthesis by Wet Chemical Method and Characterization of Nanocrystalline ZnO Doped with Fe 2 O 3, Acta Phys. Pol. A 113, 1695 1700 (2008). 18. Ł. Kilański, M. Arciszewska, V. Domukhovski, W. Dobrowolski, V. E. Slynko, and I. E. Slynko, AC Magnetic Susceptibility Studies of Ge 1-x-y Sn x Mn y Te Mixed Crystals, Acta Phys. Pol. A 114, 1145 1150 (2008). 19. V. M. Novotortsev, S. F. Marenkin, S. A. Varnavskii, L. I. Koroleva, T. A. Kupriyanova, R. Szymczak, Ł. Kilański, and B. Krzymanska, Ferromagnetic semiconductor ZnGeAs 2 (Mn) with a Curie point of 367 K, Russian Journal of Inorganic Chemistry (Zhurnal Neorganicheskoi Khimii+) 53, 28 35 (2008). 20. L. I. Korolewa, B. J. Pawlow, D. M. Zaszirinskij, S. F. Marenkin, S. A. Warniavskij, R. Szymczak, W. Dobrowolski, and Ł. Kilański, Magnetic and electrical properties of ZnGeAs 2 :Mn chalcopyrite, Physics of the Solid State (Fiz. Twerd. Tela+) 49, 2122 2125 (2007). 5
II. Articles in international refereed non-jcr journals: 1. I. Kuryliszyn-Kudelska, W. D. Dobrowolski, Ł. Kilański, B. Hadžić, N. Romčević, D. Sibera, U. Narkiewicz, and P.Dziawa, Magnetic properties of nanocrystalline ZnO doped with MnO and CoO, J. Phys.: Conf. Ser. 200, 072058-1 5 (2010). 2. S. F. Marenkin, V. M. Novotortsev, I. V. Fedorchenko, S. A. Warniavskij, L. I. Koroleva, D. M. Zashchirinski, T. M. Khapaeva, R. Szymczak, B. Krzymańska, W. Dobrowolski, and Ł. Kilański, Room-Temperature Ferromagnetism in Novel Mn doped ZnSiAs 2 Chalcopyrite, J. Phys.: Conf. Ser. 153, 012058-1 4 (2009). 3. Ł. Kilański, R. Szymczak, W. Dobrowolski, V. E. Slynko, and E. I. Slynko Magnetotransport studies of spin-glass (Ge,Mn)Te-(Sn, Mn)Te mixed crystals, Acta Phys. Superf. 9, 88 89 (2009). 4. S. F. Marenkin, V. M. Novotortsev, I. V. Fedorchenko, S. A. Warniavskij, L. I. Koroleva, D. M. Zashchirinski, T. M. Khapaeva, R. Szymczak, B. Krzymańska, W. Dobrowolski, and Ł. Kilański, Novel Ferromagnetic Mn-doped ZnSiAs 2 Chalcopyrite With Curie Point Exceeded Room Temperature, Solid State Phenomena 152-153, 311 314 (2009). 5. P. Gorski, Ł. Kilański, R. Ledzion, and W. Kucharczyk, What is the true order of magnitude of the quadratic electrooptic coefficient g 1111 -g 1122 in RDP crystal, Scientific Bulletin of the Technical University of Łodź 1010, 5 8 (2007). 6