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62c2acae74c41 K Nomeika

 

 

Dr. Kazimieras Nomeika

Phone: +370 522 34467

E-mail: 

 
Institute / Center

Institute of Photonics and Nanotechnology (IPN)
Research Area

Semiconductor optoelectronics
Present position

Senior researcher
Scientific Interests, Keywords

III-nitrides; LEDs; Perovskites; Solar Cells; Detectors; Carrier Diffusion; Carrier Dynamics; Quantum Efficiency; MOCVD
Links to External Profile
Most important publications
  • K. Nomeika, M. Dmukauskas, R. Aleksiejūnas, P. Ščajev, S. Miasojedovas, A. Kadys, S. Nargelas, K. Jarašiūnas, Enhancement of quantum efficiency in InGaN quantum wells by using superlattice interlayers and pulsed growth, Lithuanian Journal of Physics 55 (2015) 255–263. https://doi.org/10.3952/physics.v55i4.3221
  • R. Aleksiejūnas, K. Nomeika, S. Miasojedovas, S. Nargelas, T. Malinauskas, K. Jarašiūnas, Ö. Tuna, M. Heuken, Carrier dynamics in blue and green emitting InGaN MQWs, Physica Status Solidi (b) 252 (2015) 977–982. https://doi.org/10.1002/pssb.201451583
  • K. Nomeika, R. Aleksiejūnas, S. Miasojedovas, R. Tomašiūnas, K. Jarašiūnas, I. Pietzonka, M. Strassburg, H.-J. Lugauer, Impact of carrier localization and diffusion on photoluminescence in highly excited cyan and green InGaN LED structures, J Lumin 188 (2017) 301–306. https://doi.org/10.1016/j.jlumin.2017.04.055
  • R. Aleksiejūnas, K. Nomeika, O. Kravcov, S. Nargelas, L. Kuritzky, C. Lynsky, S. Nakamura, C. Weisbuch, J.S. Speck, Impact of Alloy-Disorder-Induced Localization on Hole Diffusion in Highly Excited c -Plane and m -Plane ( In , Ga ) N Quantum Wells, Phys Rev Appl 14 (2020) 054043. https://doi.org/10.1103/physrevapplied.14.054043
  • J. Mickevičius, K. Nomeika, M. Dmukauskas, A. Kadys, S. Nargelas, R. Aleksiejūnas, Comparison of growth interruption and temperature variation impact on emission efficiency in blue InGaN/GaN MQWs, Vacuum 183 (2021) 109871. https://doi.org/10.1016/j.vacuum.2020.109871
  • K. Nomeika, Ž. Podlipskas, M. Nikitina, S. Nargelas, G. Tamulaitis, R. Aleksiejūnas, Impact of carrier diffusion on the internal quantum efficiency of InGaN quantum well structures, J Mater Chem C Mater 10 (2022) 1735–1745. https://doi.org/10.1039/d1tc04760d.
  • K. Nomeika, Ž. Podlipskas, V. Tamošiūnas, J. Jurkevičius, M.N. Alsamsam, S. Nargelas, R. Aleksiejūnas, M. Korjik, G. Tamulaitis, A new method for remote detection of ionizing radiation using transient optical absorption, Nucl Instrum Methods Phys Res A 1029 (2022) 166408. https://doi.org/10.1016/j.nima.2022.166408
  • A.M. Majeed, K. Nomeika, M. Auruškevičius, S. Stanionyte, E. Radiunas, P. Ščajev, Impact of Zn Alloying to CsZn x Pb 1– x I 3 Charge Carrier Diffusion Coefficient, Diffusion Length, and Recombination Parameters, The Journal of Physical Chemistry C 129 (2025) 1444–1456. https://doi.org/10.1021/acs.jpcc.4c06499
Supervision of Students' Thesis
  • INVESTIGATION OF NON-EQUILIBRIUM CARRIER DYNAMICS IN N-POLAR (In, Ga)N QUANTUM
  • WELLS, Monika Gudaitytė, 2024
  • INVESTIGATION OF NON EQUILIBRIUM CARRIER DYNAMICS IN (Al,Sc)N LAYERS USING LIGHT INDUCED TRANSIENT GRATING METHOD, Rūtenis Indriekus, 2024
  • MACROSCOPIC MAPPING OF NON-EQUILIBRIUM CARRIER DYNAMICS IN (In,Ga)N QUANTUM WELLS, Seda Turkcan, 2024
  • INVESTIGATION OF NON-EQUILIBRIUM CHARGE CARRIER TRANSPORT IN InGaN LAYERS HAVING DIFFERENT IN CONTENT, Lukas Šiaulys, 2023
  • INVESTIGATION OF NON-EQUILIBRIUM CARRIER DYNAMICS IN DIFFERENT ENERGY STATES OF InGaN STRUCTURES, Mantas Auruškevičius, 2023
  • LINK BETWEEN THE QUANTUM EFFICIENCY AND CARRIER DIFFUSIVITY IN InGaN QUANTUM STRUCTURES, Matvei Kapacheuski, 2022
  • DETECTION OF IONIZING RADIATION-INDUCED OPTICAL NONLINEARITIES IN A GAGG CRYSTAL, Mohammad Nour Alsamsam, 2021

 

 

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