Source: https://sciences.ucf.edu/physics/people/flitsiyan-elena/
Timestamp: 2019-04-25 06:44:41+00:00

Document:
Dr. Elena Flitsiyan received her Ph.D. in Physics and Math from the Moscow State University in 1975. She was the Chair of Department of Activation Analysis in the Institute of Nuclear Physics in Uzbekistan before joining UCF in 1998. Since 2009 she has been the Undergraduate Program Director in the Department of Physics at UCF.
1. Ya-Hsi Hwang, Yueh-Ling Hsieh, Lei Lei, Shun Li, Fan Ren, Stephen J. Pearton, Anupama Yadav, Casey Schwarz, M. L. Shatkhin, Luther Wang, Elena Flitsiyan, Leonid Chernyak, Albert G. Baca, Andrew A. Allerman, Carlos A. Sanchez, and I.I.Kravchenko, Effect of low dose gamma-irradiation on DC performance of circular AlGaN/GaN high electron mobility transistors, Journal of Vacuum Science and Technology B, v.32 (2014) 031203.
2. Anupama Yadav, Casey Schwarz, Max Shatkhin, Luther Wang, Elena Flitsiyan, Leonid Chernyak, Lu Liu, Y.H. Hwang, Fan Ren, Stephen J. Pearton, and Igor Lubomirsky, Effect of Annealing on Electronic Carrier Transport Properties of Gamma-Irradiated AlGaN/GaN High Electron Mobility Transistors, ECS Trans., 2014 61(4): 171-177.
3. Ya-Hsi Hwang, Yueh-Ling Hsieh, L Lei, Shun Li, Fan Ren, Stephen J. Pearton, Anupama Yadav, Casey Schwarz, Max Shatkhin, L Wang, Elena Flitsiyan, Leonid Chernyak, Albert G Baca, A Allerman, Carlos A Sanchez, and I. I. Kravchenko, Effect of Gamma Irradiation on DC Performance of Circular-Shaped AlGaN/GaN High Electron Mobility Transistors, ECS Trans., 2014 61(4): 205-210.
4. Schwarz, C; Yadav, A; Shatkhin, M; Flitsiyan, E; Chernyak, L; Kasiyan, V; Liu, L; Xi, YY; Ren, F; Pearton, SJ; Lo, CF; Johnson, JW; Danilova, E., Gamma irradiation impact on electronic carrier transport in AlGaN/GaN high electron mobility transistors, Appl. Phys. Lett., v.102, (2013) 062102.
5. Kasiyan, V; Dashevsky, Z; Schwarz, CM; Shatkhin, M; Flitsiyan, E; Chernyak, L; Khokhlov, D, Infrared detectors based on semiconductor p-n junction of PbSe, Jornal of Applied Physics, v.112 (2012) 086101.
6. Lo, CF; Liu, L; Kang, TS; Ren, F; Schwarz, C; Flitsiyan, E; Chernyak, L; Kim, HY; Kim, J; Yun, SP; Laboutin, O; Cao, Y; Johnson, JW; Pearton, SJ, Degradation of dc characteristics of InAlN/GaN high electron mobility transistors by 5 MeV proton irradiation, Journal of Vacuum Science and Technology B, v.30 (2012) 031202.
8. E. Flitsyian, C. Schwarz, L. Chernyak, R.E. Peale, Z. Dashevsky, W. Vernetson (2011), Neutron Irradiation-Induced Enhancement of Electronic Carrier Transport in ZnO, Radiation Effects and Defects in Solids,166 (2), 104-11.
9. Y. Lin, M. Shatkhin, E. Flitsiyan, L. Chernyak, Z. Dashevsky, S. Chu, J.L. Liu (2011), Minority carrier transport in p-ZnO nanowires, J. Appl. Phys., 109, 016107.
11. Casey Schwarz, Yuging Lin, Max Shatkhin, Elena Flitsiyan and Leonid Chernyak, Cathodoluminescence Studies of electron Irradiation Effects in n-type ZnO, J. Phys.: Condense. Matter 23 (2011) 334204.
12. E. Flitsyian, Z. Dashevsky and L. Chernyak (2011), Minority carrier transport in ZnO and related materials, in GaN and ZnO-based Materials and Device, edited by S.J. Pearton, Springer Series in Material Science 156, Book chapter, pp.317-361.
14. L. Chernyak, E. Flitsiyan, M. Shatkhin, and Z. Dashevsky (2010) Studies of Electron Trapping in ZnO Semiconductor, ECS Transactions, 28, Issue 4, pp.3-11.
15. 2. Z. Dashevsky, E. Shufer, V. Kasiyan, E. Flitsiyan and L. Chernyak (2010), Influence of oxygen treatment on transport properties of PbTe:In polycrystalline films, Physica B, 405, pp.2380-2384, 2010.
16. 3. E. Shufer, Z. Dashevsky, V. Kasiyan, E. Flitsiyan, L. Chernyak, K. Gartsman (2010), Electrical conductivity and minority carrier diffusion in thermally oxidized PbTe thin films, Physica B, 405, pp.1058-1061.
17. 4. Z. Dashevsky, R. Kreizman, E. Shufer, V. Kasiyan, E. Flitsiyan, M.Shatkhin, and L.Chernyak, Nanocrysalline PbTe Films (2009), J. Nanoelectronics and Optoelectronics, Volume 4, pp. 296-301.
18. 5. Z. Dashevsky, V. Kasiyan, S. Asmontas, J. Gradauskas, E. Shirmulis, E. Flitsiyan, L. Chernyak, (2009), Photothermal effect in narrow band gap PbTe semiconductor, J. Appl. Phys., 106, 076105.
20. E. Shufer, Z. Dashevsky, V. Kasiyan, E. Flitsiyan, L. Chernyak, K. Gartsman, Electrical conductivity and minority carrier diffusion in thermally oxidized PbTe thin films, Physica B, 405, 1058-1061, 2009.
21. Z. Dashevsky, V. Kasiyan, S. Asmontas, J. Gradauskas, E. Shirmulis, E. Flitsiyan, L. Chernyak, Photothermal effect in narrow band gap PbTe semiconductor, J. Appl. Phys., 106, 076105, 2009.
23. E.Flitsiyan, C.Schwarz, R.E.Peale, O.Lupan, L Chetnyak, L.Chow, W.G.Vernetson, Z.Dashevsky, Neutron Transmutation Doping and Radiation Hardness for Solution-Grown Bulk and Nano-Structured ZnO, Mater. Res.Soc.Symp.Proc., Performance and Reliability of Semiconductor Devices, Vol.1108, 1108-A05-03(2009).
24. Chernyak, C. Schwarz, E. Flitsiyan, S. Chu, J.L. Liu, and K. Gartsman, Electron beam induced current profiling of ZnO p-n homojunctions, Applied Physics Letters, Volume 92, Issue 2, (2008).
25. E. S. Flitsiyan, Yu. N. Koblik, and P. D. Ioannou,The Coulomb Potential for a Nuclear System at the Scission Point upon Fission, Bulletin of the Russian Academy of Sciences: Physics, Vol. 72, No. 10, 2008, 1387.
26. Lopatiuk-Tirpak, O.; Nootz, G.; Flitsiyan, E.; Chernyak, L.; Mandalapu, L. J.; Yang, Z.; Liu, J. L.; Gartsman, K.; Osinsky, A., Influence of electron injection on the temporal response of ZnO homojunction photodiodes, Applied Physics Letters, Volume 91, Issue 4, (2007).
27. Yu.N.Koblik, E.S.Flitsiyan, V.P.Pikul, B.S.Yuldashev, P.D.Ioannou, Nucleus Shape at the Scission Point at Different Kinetic Energies of Fission Fragments, Bull.Rus.Acad.Sci.Phys. 71, 3, 420-425 (2007).
29. Khugaev A.V., Flitsiyan E.S., Koblik Yu.N., Pikul V.P., Ioannou P.D., To the calculation of proton and neutron distribution in fissioning nucle”, Bulletin of Russian Academy of Science, Physical series,70, 5, p.677-679, 2006.
31. Khugaev A.V., Koblik Yu.N., Ioannou P.D., Flitsiyan E.S., Investigation of the Coulomb potential of the nuclear system, Atomic Science and Industry, Series of Nuclear Reactors, 2,p.7-10, 2006.

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