Publikationer av Sergiy Khartsev
Refereegranskade
Artiklar
[1]
V. Jonsson et al., "Photoelectron dispersion in metallic and insulating VO2 thin films," Physical Review Research, vol. 3, no. 3, 2021.
[2]
S. Khartsev et al., "Reverse‐Bias Electroluminescence in Er‐Doped β‐Ga 2 O 3 Schottky Barrier Diodes Manufactured by Pulsed Laser Deposition," Physica Status Solidi (a) applications and materials science, vol. 219, no. 4, s. 2100610-2100610, 2021.
[3]
S. Khartsev et al., "High‐Quality Si‐Doped β‐Ga 2 O 3 Films on Sapphire Fabricated by Pulsed Laser Deposition," Physica status solidi. B, Basic research, vol. 258, no. 2, s. 2000362-2000362, 2020.
[4]
A. M. Grishin och S. Khartsev, "Optical dispersion and temperature dependent latching-type magneto-optical properties of magnetron sputtered Bi3Fe3.34Ga1.66O12 (001) and (111) films," Thin Solid Films, vol. 699, 2020.
[5]
A. M. Grishin och S. Khartsev, "Waveguiding in All-Garnet Heteroepitaxial Magneto-Optical Photonic Crystals," JETP Letters : Journal of Experimental And Theoretical Physics Letters, vol. 109, no. 2, s. 83-86, 2019.
[6]
M. Ekström et al., "Integration and High-Temperature Characterization of Ferroelectric Vanadium-Doped Bismuth Titanate Thin Films on Silicon Carbide," Journal of Electronic Materials, vol. 46, no. 7, s. 4478-4484, 2017.
[7]
M. K. Linnarsson et al., "Interface between Al2O3 and 4H-SiC investigated by time-of-flight medium energy ion scattering," Journal of Physics D : Applied Physics, vol. 50, no. 49, 2017.
[8]
M. Haidar et al., "Controlling Gilbert damping in a YIG film using nonlocal spin currents," Physical Review B, vol. 94, no. 18, 2016.
[9]
M. Balinsky et al., "Spin Pumping and the Inverse Spin-Hall Effect via Magnetostatic Surface Spin-Wave Modes in Yttrium-Iron Garnet/Platinum Bilayers," IEEE Magnetics Letters, vol. 6, no. 3000604, 2015.
[10]
M. Haidar et al., "Thickness- and temperature-dependent magnetodynamic properties of yttrium iron garnet thin films," Journal of Applied Physics, vol. 117, no. 17, 2015.
[11]
A. M. Grishin et al., "Ultra-hard AlMgB14 Coatings Fabricated by RF Magnetron Sputtering from a Stoichiometric Target," JETP Letters : Journal of Experimental And Theoretical Physics Letters, vol. 100, no. 10, s. 680-687, 2015.
[12]
V. I. Belotelov et al., "Magnetophotonic intensity effects in hybrid metal-dielectric structures," Physical Review B. Condensed Matter and Materials Physics, vol. 89, no. 4, s. 045118, 2014.
[13]
A. Velichko et al., "Memory resistive switching in CeO2-based film microstructures patterned by a focused ion beam," Thin Solid Films, vol. 556, s. 520-524, 2014.
[14]
M. K. Linnarsson et al., "ToF-MEIS stopping measurements in thin SiC films," Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with Materials and Atoms, vol. 332, s. 130-133, 2014.
[15]
V. I. Belotelov et al., "Plasmon-mediated magneto-optical transparency," Nature Communications, vol. 4, s. 2128, 2013.
[16]
A. M. Grishin och S. I. Khartsev, "Green and blue magneto-optical photonic crystals," Thin Solid Films, vol. 520, no. 9, s. 3647-3650, 2012.
[17]
A. M. Grishin och S. I. Khartsev, "Luminescence in epitaxial Er-doped LiNbO3 films," Optics Letters, vol. 37, no. 3, s. 419-421, 2012.
[18]
N. Ansari, S. Khartsev och A. Grishin, "Multicolor filter all-garnet magneto-optical photonic crystals," Optics Letters, vol. 37, no. 17, s. 3552-3554, 2012.
[19]
A. Jalalian et al., "Ferromagnetic resonance in Y(3)Fe(5)O(12) nanofibers," Applied Physics Letters, vol. 99, no. 10, s. 102501, 2011.
[20]
S. I. Khartsev och A. M. Grishin, "High performance latching-type luminescent magneto-optical photonic crystals," Optics Letters, vol. 36, no. 15, s. 2806-2808, 2011.
[21]
I. E. Razdolski et al., "Magneto-optical switching in nonlinear all-garnet magnetophotonic crystals," Thin Solid Films, vol. 519, no. 16, s. 5600-5602, 2011.
[22]
V. Markovich et al., "Inverse thermal hysteresis and Peculiar Transport Properties of La(0.9)MnO(3-delta) film," Journal of Physics, Conference Series, vol. 200, s. 052014, 2010.
[23]
A. Grishin, S. Khartsev och D. Dzibrou, "Enhanced photoluminescence in [Er2O3/TiO2]m photonic crystals," Journal of Applied Physics, vol. 105, no. 11, s. 113122, 2009.
[24]
A. M. Grishin och S. Khartsev, "Highly luminescent garnets for magneto-optical photonic crystals," Applied Physics Letters, vol. 95, no. 10, 2009.
[25]
V. Markovich et al., "Magnetic separation and inelastic tunneling in self-doped manganite films," Journal of Applied Physics, vol. 106, no. 4, 2009.
[26]
T. V. Murzina et al., "Nonlinear magneto-optical effects in all-garnet magnetophotonic crystals," Journal of Magnetism and Magnetic Materials, vol. 321, no. 7, s. 836-839, 2009.
[27]
S. A. Manuilov et al., "Pulsed Laser Deposited Y3Fe5O12 Films for Magnetostatic Wave Band Pass Filters," Solid State Phenomena, vol. 152-153, s. 377-380, 2009.
[28]
S. A. Manuilov, S. Khartsev och A. M. Grishin, "Pulsed laser deposited Y3Fe5O12 films : Nature of magnetic anisotropy I," Journal of Applied Physics, vol. 106, no. 12, 2009.
[29]
S. A. Manuilov et al., "Submicron Y3Fe5O12 Film Magnetostatic Wave Band Pass Filters," Journal of Applied Physics, vol. 105, no. 3, 2009.
[30]
A. Grishin och S. Khartsev, "All-garnet magneto-optical photonic crystals," Journal of the Magnetics Society of Japan, vol. 32, no. 2, s. 140-145, 2008.
[31]
H. Kawasaki et al., "TiO2/TiN/TiO2 heat mirrors by laser ablation of single TiN target," Journal of Physics, Conference Series, vol. 100, no. 1, s. 012038, 2008.
[32]
A. M. Grishin, S. Khartsev och H. Kawasaki, "980 nm Bi3Fe5O12/Sm3Ga5O12 magneto-optical photonic crystal," Applied Physics Letters, vol. 90, no. 19, 2007.
[33]
S. Khartsev och A. M. Grishin, "High performance Bi3Fe5O12/Sm3Ga5O12 (m) magneto-optical photonic crystals," Journal of Applied Physics, vol. 101, no. 5, 2007.
[34]
E. V. Vanin et al., "Broadband photoluminescence from pulsed laser deposited Er2O3 films," Journal of Luminescence, vol. 121, no. 2, s. 256-258, 2006.
[35]
P. Johansson, S. Khartsev och A. M. Grishin, "Comparison of Bi3Fe5O12 film giant Faraday rotators grown on (111) and (001) Gd3Ga5O12 single crystals," Thin Solid Films, vol. 515, no. 2, s. 477-480, 2006.
[36]
M. Blomqvist, S. Khartsev och A. M. Grishin, "Electro-optic effect in ferroelectric Na0.5K0.5NbO3 thin films on oxide substrates," Integrated Ferroelectrics, vol. 80, no. 1, s. 97-106, 2006.
[37]
S. Khartsev et al., "Heteroepitaxial Na0.5K0.5NbO3/La0.5Sr0.5CoO3 electro-optical cell," Integrated Ferroelectrics, vol. 80, s. 133-143, 2006.
[38]
A. M. Grishin, S. Khartsev och S. Bonetti, "Low field driven latching-type Bi3Fe5O12/Gd3Ga5O12 magneto-optical display," Applied Physics Letters, vol. 88, no. 24, 2006.
[39]
A. M. Grishin et al., "Strong broad C-band room-temperature photoluminescence in amorphous Er2O3 film," Applied Physics Letters, vol. 89, no. 2, 2006.
[40]
S. Khartsev och A. M. Grishin, "Bi3Fe5O12/Gd3Ga5O12 (m) magneto-optical photonic crystals," Applied Physics Letters, vol. 87, no. 12, 2005.
[41]
S. Khartsev, M. A. Grishin och A. M. Grishin, "Characterization of heteroepitaxial Na0.5K0.5NbO3/La0.5Sr0.5CoO3 electro-optical cell," Applied Physics Letters, vol. 86, no. 6, s. 062901-1-062901-3, 2005.
[42]
A. A. Jalali-Roudsar, V. Denysenkov och S. Khartsev, "Determination of magnetic anisotropy constants for magnetic garnet epitaxial films using ferromagnetic resonance," Journal of Magnetism and Magnetic Materials, vol. 288, s. 15-21, 2005.
[43]
M. Blomqvist, S. Khartsev och A. M. Grishin, "Electrooptic ferroelectric Na0.5K0.5NbO3 films," IEEE Photonics Technology Letters, vol. 17, no. 8, s. 1638-1640, 2005.
[44]
B. Emmoth et al., "Fuel removal from bumper limiter tiles by using a pulsed excimer laser," Journal of Nuclear Materials, vol. 337-39, no. 1-3, s. 639-643, 2005.
[45]
R. Fors, S. Khartsev och A. M. Grishin, "Giant resistance switching in metal-insulator-manganite junctions : Evidence for Mott transition," Physical Review B. Condensed Matter and Materials Physics, vol. 71, no. 4, 2005.
[46]
S. Khartsev och A. M. Grishin, "Heteroepitaxial Bi3Fe5O12/La3Ga5O12 films for magneto-optical photonic crystals," Applied Physics Letters, vol. 86, no. 14, 2005.
[47]
S. Khartsev, J.-H. Kim och A. M. Grishin, "Integration of colossal magnetoresistors with GaAs," Journal of Crystal Growth, vol. 284, no. 02-jan, s. 1-5, 2005.
[48]
V. F. Shkar et al., "Structure and properties of deposited yttrium iron garnet films," Physics of the solid state, vol. 47, no. 6, s. 1107-1110, 2005.
[49]
M. Blomqvist, S. Khartsev och A. M. Grishin, "Visible and IR light waveguiding in ferroelectric Na0.5K0.5NbO3 thin films," Integrated Ferroelectrics, vol. 69, s. 277-286, 2005.
[50]
A. M. Grishin et al., "Epitaxial colossal magnetoresistive/ferroelectric heterostructures on Si," Integrated Ferroelectrics, vol. 67, s. 69-76, 2004.
[51]
Z. Zhang, S. Khartsev och A. M. Grishin, "Ferroelectric properties of Na0.5K0.5NbO3 films at low temperatures," Integrated Ferroelectrics, vol. 67, s. 59-68, 2004.
[52]
M. Östling et al., "Ferroelectric thin films on silicon carbide for next-generation nonvolatile memory and sensor devices," Thin Solid Films, vol. 469-70, s. 444-449, 2004.
[53]
D. L. Lyfar et al., "Microwave absorption in a thin La0.7Sr0.3MnO3 film : Manifestation of colossal magnetoresistance," Physical Review B. Condensed Matter and Materials Physics, vol. 69, no. 10, 2004.
[54]
R. Fors et al., "Sol-gel derived versus pulsed laser deposited epitaxial La0.67Ca0.33MnO3 films : structure, transport and effects of post-annealing," Thin Solid Films, vol. 467, no. 02-jan, s. 112-116, 2004.
[55]
V. F. Shkar et al., "A manifestation of magnetism of bismuth in iron garnet films," Physics of the solid state, vol. 45, no. 12, s. 2334-2337, 2003.
[56]
S. Khartsev et al., "Comparative characteristics of Na0.5K0.5NbO3 films on Pt by pulsed laser deposition and magnetron sputtering," Integrated Ferroelectrics, vol. 55, s. 769-779, 2003.
[57]
M. O. Vieitez et al., "Electro-optic properties of heteroepitaxial Pb(Zr,Ti)O-3/La0.5Sr0.5CoO3 film structures," Integrated Ferroelectrics, vol. 54, s. 607-618, 2003.
[58]
J.-H. Kim, S. Khartsev och A. M. Grishin, "Epitaxial colossal magnetoresistive La-0.67(Sr,Ca)(0.33)MnO3 films on Si.," Applied Physics Letters, vol. 82, no. 24, s. 4295-4297, 2003.
[59]
S. M. Koo et al., "Ferroelectric Pb(Zr0.52Ti0.48)/SiC field-effect transistor," Applied Physics Letters, vol. 83, no. 19, s. 3975-3977, 2003.
[60]
M. Blomqvist et al., "Optical waveguiding in magnetron-sputtered Na0.5K0.5NbO3 thin films on sapphire substrates," Applied Physics Letters, vol. 82, no. 3, s. 439-441, 2003.
[61]
S. M. Koo et al., "Processing and properties of ferroelectric Pb(Zr,Ti)O-3/silicon carbide field-effect transistor," Integrated Ferroelectrics, vol. 57, s. 1221-1231, 2003.
[62]
M. Blomqvist et al., "Rf sputtered Na0.5K0.5NbO3 films on oxide substrates as optical waveguiding material," Integrated Ferroelectrics, vol. 54, s. 631-640, 2003.
[63]
V. P. Pashchenko et al., "Structural and magnetic inhomogeneity and the NMR of Mn-55 and La-139 in the magnetoresistive ceramics La0.7Ba0.3-xSnxMnO3 -> La0.7-xBa0.3-xMnO3+0.5xLa(2)Sn(2)O(7)," Low temperature physics (Woodbury, N.Y., Print), vol. 29, no. 11, s. 910-916, 2003.
[64]
V. I. Tkatch, A. M. Grishin och S. Khartsev, "Delayed nucleation in Fe40Co40P14B6 metallic glass," Materials Science & Engineering : A, vol. 337, no. 1-2, s. 187-193, 2002.
[65]
S. M. Koo et al., "Ferroelectric Pb(Zr,Ti)O-3/Al2O3/4H-SiC diode structures," Applied Physics Letters, vol. 81, no. 5, s. 895-897, 2002.
[66]
M. Blomqvist et al., "High-performance epitaxial Na0.5K0.5NbO3 thin films by magnetron sputtering," Applied Physics Letters, vol. 81, no. 2, s. 337-339, 2002.
[67]
V. P. Pashchenko et al., "Structure and properties of La0.6Sr0.4-xBaxMnO3 (0 <= x <= 0.4) magnetoresistive ceramics," Inorganic Materials (Neorganicheskie materialy), vol. 38, no. 3, s. 302-307, 2002.
[68]
S. Kahl et al., "Structure, microstructure, and magneto-optical properties of laser deposited Bi3Fe5O12/Gd3Ga5O12(111) films," Journal of Applied Physics, vol. 91, no. 12, s. 9556-9560, 2002.
[69]
Y. V. Medvedev et al., "The diagnostics of thermal kinetic coefficients for the optimization of film bolometer properties," Technical physics, vol. 47, no. 1, s. 114-120, 2002.
[70]
S. Kahl et al., "Bi3Fe5O12 thin film visualizer," IEEE transactions on magnetics, vol. 37, no. 4, s. 2457-2459, 2001.
[71]
A. Lisauskas et al., "Colossal magnetoresistive La-0.7(Pb1-xSrx)(0.3)MnO3 films for bolometer and magnetic sensor applications," Journal of Applied Physics, vol. 89, no. 11, s. 6961-6963, 2001.
[72]
M. A. Grishin et al., "High performance films of binary system SrTiO3-PbZr0.52Ti0.48O3 on sapphire," Integrated Ferroelectrics, vol. 39, no. 1-4, s. 351-358, 2001.
[73]
A. Lisauskas, S. Khartsev och A. M. Grishin, "Impedance fluctuations in epitaxial PZT films," Integrated Ferroelectrics, vol. 38, no. 04-jan, s. 647-656, 2001.
[74]
A. A. Jalali-Roudsar et al., "Microwave and magneto-optic properties of pulsed laser deposited bismuth iron garnet films," IEEE transactions on magnetics, vol. 37, no. 4, s. 2454-2456, 2001.
[75]
J. Brunahl, A. M. Grishin och S. Khartsev, "Non-destructive pulsed technique to characterize functional properties of micromachined bulk PZT," Ferroelectrics (Print), vol. 263, no. 1-4, s. 1487-1492, 2001.
[76]
M. Hollmark et al., "Processing and properties of soft magnetic Fe40Co40P14B6 amorphous alloy," IEEE transactions on magnetics, vol. 37, no. 4, s. 2278-2280, 2001.
[77]
S. S. Kucherenko et al., "The P-H-T effects on the electric resistance and magnetoresistance of La0.7Sr0.1Pb0.2MnO3 single crystal films," Technical physics letters, vol. 27, no. 6, s. 451-453, 2001.
[78]
S. Khartsev et al., "Thin PZT film pressure microsensor," Materials Research Society Symposium Proceedings, vol. 666, s. F8121-F8126, 2001.
[79]
S. Khartsev, P. Johnsson och A. M. Grishin, "Colossal magnetoresistance in ultrathin epitaxial La0.75Sr0.25MnO3 films," Journal of Applied Physics, vol. 87, no. 5, s. 2394-2399, 2000.
[80]
N. Adachi et al., "Epitaxial Bi3Fe5O12(001) films grown by pulsed laser deposition and reactive ion beam sputtering techniques," Journal of Applied Physics, vol. 88, no. 5, s. 2734-2739, 2000.
[81]
M. Schuisky et al., "Ferroelectric Bi4Ti3O12 thin films on Pt-coated silicon by halide chemical vapor deposition," Journal of Applied Physics, vol. 88, no. 5, s. 2819-2824, 2000.
[82]
J. H. Koh, S. Khartsev och A. M. Grishin, "Ferroelectric silver niobate-tantalate thin films," Applied Physics Letters, vol. 77, no. 26, s. 4416-4418, 2000.
[83]
V. A. Voloshin et al., "Interplay of structure, magnetism and resistivity of La0.5Ca0.54MnO3+x," Physics Letters A, vol. 271, no. 02-jan, s. 121-127, 2000.
[84]
V. Dyakonov et al., "Spin-wave resonance in the La0.7Mn1.3O3-delta film," Physics Letters A, vol. 268, no. 3, s. 202-207, 2000.
[85]
A. Lisauskas, S. Khartsev och A. M. Grishin, "Tailoring the colossal magnetoresistivity : La-0.7(Pb0.63Sr0.37)(0.3)MnO3 thin-film uncooled bolometer," Applied Physics Letters, vol. 77, no. 5, s. 756-758, 2000.
Konferensbidrag
[86]
M. K. Linnarsson et al., "Mn implantation for new applications of 4H-SiC," i Silicon Carbide and Related Materials 2011, 2012, s. 221-224.
[87]
A. Pohl et al., "Porous and dense perovskite films," i NANOSTRUCTURED MATERIALS AND NANOTECHNOLOGY, 2008, s. 153-163.
[88]
S. Bonetti et al., "Buried tantalate-niobate microwave varactors," i 2006 15TH IEEE INTERNATIONAL SYMPOSIUM ON APPLICATIONS OF FERROELECTRICS, 2007, s. 347-350.
[89]
S. Khartsev och A. Grishin, "New garnet films for magneto-optical photonic crystals," i Magneto-Optical Materials For Photonics and Recording, 2005, s. 47-52.
[90]
R. Fors, S. Khartsev och A. Grishin, "Non-volatile giant resistance switching in metal-insulator-manganite junctions," i Materials and Processes for Nonvolatile Memories, 2005, s. 379-384.
[91]
R. Fors et al., "Comparison of sol-gel derived and pulsed laser deposited epitaxial La0.67Ca0.33MnO3 films for IR bolometer," i Integration Of Advanced Micro-And Nanoelectronic Devices-Critical Issues And Solutions, 2004, s. 379-384.
[92]
A. Grishin och S. Khartsev, "Electro-optical properties of Na0.5K0.5NbO3 films on Si by free-space coupling technique," i New Materials For Microphotonics, 2004, s. 225-229.
[93]
A. M. Grishin et al., "Epitaxial La-0.67(Sr,Ca)(0.33)MnO3 films on Si for IR bolometer applications," i Integration Of Advanced Micro-And Nanoelectronic Devices-Critical Issues And Solutions, 2004, s. 405-410.
[94]
A. Grishin, J.-H. Kim och S. Khartsev, "Processing and on-wafer measurements of ferroelectric interdigitated tunable microwave capacitors," i Integration Of Advanced Micro-And Nanoelectronic Devices-Critical Issues And Solutions, 2004, s. 307-312.
[95]
M. Blomqvist et al., "Rf-magnetron sputtered ferroelectric (Na,K)NbO3 films," i Proceedings of the 13th IEEE International Symposium on Applications of Ferroelectronics, 2002, s. 195-198.
Icke refereegranskade
Konferensbidrag
[96]
A. M. Grishin och S. I. Khartsev, "Luminescent Magneto-Optical Photonic Crystals," i ASIA-PACIFIC INTERDISCIPLINARY RESEARCH CONFERENCE 2011 (AP-IRC 2011), 2012, s. 012007.
Övriga
[97]
[98]
A. Fornara et al., "Synthesis, characterization and magneto-optical properties of transparent magnetic PMMA/nanoparticles composite," (Manuskript).
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