Publications
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- M. Pardo, E. Roberts, K. Pimentel, Y. Yildirim, B. Navarrete, P. Wang, E. Zhang, P. Liang, S. Khizroev, “Size-dependent intranasal administration of magnetoelectric nanoparticles for targeted brain localization,” Nanomedicine: NBM 32: 102337 (2021)
- P. Wang, E. Zhang, D. Toledo, I.T. Smith, B. Navarrete, N. Furman, A.F. Hernandez, M. Telusma, D. McDaniel, P. Liang, and S. Khizroev, “Colossal magnetoelectric effect in coreshell magnetoelectric nanoparticles,” Nano Letters 20 (8): 5765-5772 (2020)
- J. Hong, X. Li, N. Xu, H. Chen, S. Cabrini, S. Khizroev, J. Bokor, L. You, “A dual magnetic tunnel junction-based neuromorphic device,” Advanced Intelligent Systems: 2000143 (2020)
- P. Wang, D. Toledo, E. Zhang, M. Telusma, D. McDaniel, P. Liang, S. Khizroev, “Scanning probe microcopy study of cobalt ferrite-barrium titanate coreshell magnetoelectric nanoparticles,” JMMM 516: 167329 (2020).
- D. Toledo, B. Navarrete, M. Stone, K. Luongo, P. Wang, P. Liang, and S. Khizroev, “A theoretical study of switching energy efficiency in sub-10-nm spintronic devices,” J. Magnetism and Magnetic Materials 494: 165776 (2020)
- S. Khizroev and P. Liang, “Engineering future medicines with magnetoelectric nanoparticles: wirelessly controlled, targeted therapies,” IEEE Nanotechnology Magazine 14 (1): 23-29; 10.1109/MNANO.2019.2952227
- B. Navarrete, M. Stone, K. Luongo, D. Toledo, A. Hadjikhani, P. Wang, J. Hong, P. Liang, J. Bokor, S. Khizroev, “Nanomagnetic particle-based information processing,” IEEE Transactions on Nanotechnology (IEEE T-Nano) 18: 983-988 (2019), DOI: 10.1109/TNANO.2019.2939009
- J. Hong, X. Li, O. Lee, W. Tian, S. Khizroev, J. Bokor, L. You, “Demonstration of spin transfer torque (STT) magnetic recording,” Applied Physics Letters 114: 243101 (2019)
- J. Hong, Q. Luo, S. Jung, S. Je, Y. Kim, M. Im, C. Hwang, S. Khizroev, S . Chung, L. You, “Shape transformation and self-alignment of Fe based nanoparticles,” Nanoscale Advances 1(7): 2523-2528 (2019), DOI: 10.1039/C9NA00146H
- S. Khizroev, “Technobiology’s Wireless Messenger: The Nanoparticle,” Cold Spring Harbor Perspectives in Medicine 9, a034207, 1-15 (2019); doi: 10.1101/cshperspect.a034207
- J. Hong, M. Stone, B. Navarrete, K. Luongo, J. Bokor, S. Khizroev, “Multilevel three-dimensional spin computer,” Applied Physics Letters 112, 112402-4 (2018)
- R. Guduru, P. Liang, M. Yousef, J. Horstmyer, and S. Khizroev, “Electric field mapping of the brain with magnetoelectric nanoparticles,” Bioelectronic Medicine 4 (10): s42234-018-0012-9 (2018)
- T. Stewart, A. Nagesetti, R. Guduru, E. Stimphil, A. Hadjikhani, L. Salgueiro, P. Liang, J. Horstmyer, A. Schally, and S. Khizroev, “Magnetoelectric nanoparticles to deliver and release anti-tumor peptide into glioblastoma cells across blood-brain barrier via external application of d.c. and a.c. magnetic fields,” Nanomedicine (London) 13 (4): 423-438 (2018); doi/org/10.2217/nnm-2017-0300
- A. Hadjikhani, A. Rodzinski, P. Wang, A. Nagesetti, R. Guduru, P. Liang, C. Runowicz, S. Shahbazmohamadi, and S. Khizroev,”Biodistribution and clearance of magnetoelectric nanoparticles for nanomedical applications using energy dispersive spectroscopy,” Nanomedicine (London) 12 (15); 1801-1822 (2017); doi.org/10.2217/nnm-2017-0080
- A. Nagesetti, A. Rodzinski, E. Stimphil, T. Stewart, C. Khanal, P. Wang, R. Guduru, P. Liang, I. Agoulnik, J. Horstmyer, and S. Khizroev, “Multiferroic coreshell magnetoelectric nanoparticles as NMR sensitive nanoprobes for cancer cell detection,” Scientific Reports 7, 1610 (2017)
- E. Stimphil, A. Nagasetti, R. Guduru, T. Stewart, A. Rodzinski, P. Liang, and S. Khizroev, “Physics considerations in targeted anticancer drug delivery by magnetoelectric nanoparticles,” Appl. Phys. Rev., 4 (2), 021101 (2017)
- J. Hong, A. Hadjikhani, M. Stone, F. Allen, V. Safonov, P. Liang, J. Bokor, and S. Khizroev, “The physics of spin-transfer torque switching in magnetic tunneling junctions in sub-10-nm size range,” IEEE Trans. Magn. 52 (7), 1400504 (2016)
- A. Rodzinski, R. Guduru, P. Liang, A. Hadjikhani, T. Stewart, E. Stimphil, C. Runowicz, R. Cote, N. Altman, R. Datar, and S. Khizroev, “Targeted and controlled anticancer drug delivery and release with magnetoelectric nanoparticles,” Scientific Reports 6, 20867 (2016); Cancer Research 76 (14 S), 2204 (2016)
- R. Guduru, P. Liang, J. Hong, A. Rodzinski, A. Hadjikhani, J. Horstmyer, E. Levister, and S. Khizroev, “Magnetoelectric “spin” on stimulating the brain,” Nanomedicine (London) 10 (13), 2051-2061 (2015)
- J. Butler, M. Shachar, B. Lee, D. Garcia, B. Hu, J. Hong, N. Amos, and S. Khizroev, “Reconfigurable and non-volatile vertical magnetic logic gates,” Journal of Applied Physics 115, 163903 (2014)
- R. Guduru and S. Khizroev, “Magnetic-field-controlled release of paclitaxel drug from functionalized magneto-electric nanoparticles,” Particle and Particle Systems Characterization 31 (5), 605-611 (2014)
- L. Cheng, S. Khizroev, P. Liang, “3-Terminal pMTJ reduces critical current and switching time,” JMMM 358, 5-10 (2014)
- J. Hong, E. Bekyarova, W. de Heer, R. Haddon, and S. Khizroev, “Chemically engineered graphene-based 2-D organic molecular magnet,” ACS Nano 7(11), Article ASAP 10011-10022 (2013)
- R. Guduru, P. Liang, C. Runowicz, M. Nair, V. Alturi, and S. Khizroev, “Magnetoelectric nanoparticles to enable field-controlled high-specificity drug delivery to eradicate ovarian cancer cells,” Scientific Reports 3, 2953 (2013)
- Z. Zheng, L. Chang, I. Nekrashevich, P. Ruchoeft, S. Khizroev, and D. Litvinov, “Fabrication of dense non-circular nanomagnetic device arrays using self-limiting low-energy glow-discharge processing,” PL0S ONE 8(8), e73083 (2013)
- B. Lee, J. Hong, N. Amos, D. Litvinov, and S. Khizroev, “Electron-beam lithography to fabricate magnetic bit patterned media suitable for areal densities above 1 terabit/in2,” J. Nanoparticle Research 15, 1665-72 (2013)
- M. Nair, R. Guduru, P. Liang, J. Hong, V. Sagar, and S. Khizroev, “Externally-controlled on-demand release of anti-HIV drug AZTTP using magneto-electric nanoparticles as carriers,” Nature Communications 4, 1707 (2013)
- J. Hong, P. Liang, V. Safonov, and S. Khizroev, “Energy-efficient spin-transfer-torque based sub-10-nm magnetic tunneling junctions,” J. Nanoparticle Research 15 (4), 1599 (2013)
- E. Stefanescu, J. Hong, R. Guduru, A. Lavrenov, D. Litvinov, and S. Khizroev, “Magneto-resistive nanojunctions fabricated via focused ion beam implantation,” J. Nanoparticle Research 15 (1), 1387-1390 (2013)
- J. Hong, E. Bekyarova, P. Liang, W. de Heer, R. Haddon, and S. Khizroev, “Room-temperature magnetic-order in functionalized graphene,” Scientific Reports 2, 624 (2012)
- K. Yue, R. Guduru, J. Hong, P. Liang, M. Nair, and S. Khizroev, “Magneto-electric nanoparticles for non-invasive brain stimulation,” PLoS ONE 7(9), e44040 (2012)
- L. V. Chang, A. Nasruallah, P. Ruchoeft, S. Khizroev, D. Litvinov, “Graded bit patterned magnetic array fabricated via angled low-energy H ion irradiation,” Nanotechnology 23 (27), 275705 (2012)
- J. Hong, E. Stefanescu, P. Liang, N. Joshi, S. Xu, and S. Khizroev, “Carbon nanotube based 3-D matrix for enabling three-dimensional nano-magneto-electronics,” PLoS ONE 7 (7), e40554, (2012)
- N. Amos, J. Butler, B. Lee, M. Scachar, B. Hu, Y. Tian, J. Hong, D. Garcia, R. Ikkawi, R. Haddon, D. Litvinov, and S. Khizroev, “Multilevel-3D bit patterned magnetic media with 8 signal levels per nanocolumn,” PLoS ONE 7 (7), e401234 (2012)
- J. Hong, S. Niyogi, E. Bekyarova, M. Itkis, P. Ramesh, R. C. Haddon, C. Berger, W. A. DeHeer, and S. Khizroev, “Effect of functionalization on the electrostatic charging, tunneling, and Raman spectroscopy of epitaxial graphene,” JVST B – Microelectronics and Nanometer Structures 30 (3), 1-5 (2012)
- L. Kaganovskiy, S. Khizroev, D. Litvinov, “Influence of low anisotropy inclusions on magnetization reversal in bit-patterned arrays”, J. Appl. Phys. 111, 033924 (2012)
- L. Chang, R. Veerdonk, S. Khizroev, D. Litvinov, “Scanning magnetoresistance microscopy analysis of bit patterned media playback,” IEEE Trans. Magn. 47 (10), 2548-2550 (2011)
- N. Amos, E. Stefanescu, J. Butler, B. Lee, Y. Tian, R. Ikkawi, R. Chomko, V. L. Safonov, R. Haddon, D. Litvinov, and S. Khizroev, “Three-dimensional non-volatile magnetic universal logic gates,” JNO 6 (2), 138-43 (2011)
- N. Sandip, E. Bekyarova, H. Jeongmin, S. Khizroev, C. Berger, W. De Heer, R. Haddon, “Covalent chemistry for graphene electronics,” J. Phys. Chem. Lett. 2 (19), 2487-98 (2011)
- Y. Tian, L. Kaganovskiy, N. Amos, B. Hu, D. Litvinov, and S. Khizroev, “Effects of crystalline anisotropy on nanomagnetic computer logic channels,” JNO 6 (2), 87-94 (2011)
- L. Kaganovskiy, D. Litvinov, S. Khizroev, and S. Wilcox, “Investigation of the switching wave propagation in linear chains of magnetic elements,” J. Appl. Phys. 110, 043901 (2011)
- J. R. Morales, N. Amos, S. Khizroev, J.E.Garay, “Magneto-optical Faraday effect in nanocrystalline oxides,” J. Appl. Phys. 109 (9), 093110 (2011)
- R. Fernandez, D. Teweldebrham, C.Zhang, N.Amos, A. Balandin, and S. Khizroev, “A comparative analysis of Ag and Cu heat sink layers in L10-FePt films for the high-density heat-assisted magnetic recording,” J. Appl.Phys. 109, 07B763 (2011)
- J. Hong, E. Bekyarova, M. Itkis, P. Ramesh, N. Amos, D. Litvinov, C. Berger, W. A. De Heer, S. Khizroev, R. C. Haddon, , “Effect of nitrophenyl functionalization on the magnetic properties of epitaxial graphene,” SMALL 7 (9), 1175-80 (2011)
- M. Hudgins, S. Khizroev, “Considerations for the implementation of 2D protein memory,” J. Nanoscience and Nanotechnology 11 (3), 2520-3 (2011)
- B. Hu, N. Amos, Y. Tian, J. Butler, D. Litvinov, S. Khizroev, “Study of Co/Pd multilayers as a candidate material for next generation magnetic media,” J. Appl. Phys. 109 (3), 034314 (2011)
- Y. Hijazi, E. B. Svedberg, T. Heinrich, S. Khizroev, “Comparative corrosion study of binary oxide and nitride overcoats using in-situ fluid-cell AFM,” Materials Characterization 62 (1), 76-80 (2011)
- R. Fernandez, N. Amos, C. Zhang, M. Hudgins, and S. Khizroev, “Microstructural enhancement of high coercivity L10 FePt films for next-generation magnetic recording media,” J. Nanoscience and Nanotechnology 11 (5), 3889-93 (2011)
- M. Hudgins, J. Butler, R. Fernandez, M. J. Ranaghan, R. Birge, R. Haddon, S. Khizroev, “Photo-response of electrostatically deposited bacteriorhodopsin monolayer films for protein-based disk recording beyond 10 terabit/in2,” JNO 5 (3), 287-9 (2010)
- N. Amos, R. Fernandez, R. Ikkawi, M. Shachar, J. Hong, B. Lee, D. Litvinov, and S. Khizroev, “Ultra-high coercivity magnetic force microscopy probes to analyze high-moment magnetic structures and devices,” IEEE Magnetics Letters 1, 6500104 (2010)
- C. Zhang, N. Amos, R. Fernandez, J. Hong, B. Hu, S. Khizroev, “Magnetic properties optimization for amorphous soft underlayers,” Journal of Nanoelectronics and Optoelectronics, 5 (1), 13-19 (2010)
- P. Gomez, R. Fernandez, N. Amos, S. Khizroev, C. Lopez, “A mathematical algorithm and custom nanoprobes to improve the resolution of magnetic force microscopy (MFM) images,” Journal of Nanoelectronics and Optoelectronics, 5 (1), 20-26 (2010)
- D. Smith, L. Chang, J. Rantschler, V. Kalatsky, P. Ruchoeft, S. Khizroev, D. Litvinov, “Size distribution and anisotropy effects on the switching field distribution of Co/Pd multilayered nanostructure arrays,” IEEE Trans. Magn. 45 (10), 3554-7 (2009)
- N. Amos, A. Lavrenov, R. Fernandez, R. Ikkawi, D. Litvinov, and S. Khizroev, “High-resolution and high-coercivity FePt L10 magnetic force microscopy nanoprobes to study next-generation magnetic recording media,” J. Appl. Phys. 105, 07D526 (2009)
- A. Krichevsky, A. Lavrenov, N. Amos, B. Hu, K. Taylor, and S. Khizroev, “The effect of ion implantation on magnetic properties of Co/Pd multilayer structures possessing perpendicular anisotropy,” J. Nanoelectronics and Optoelectronics 3 (3), 274-6 (2008)
- N. Amos, R. Ikkawi, R. Haddon, D. Litvinov, and S. Khizroev, “Controlling multi-domain states to enable sub-10-nm magnetic force microscopy,” Appl. Phys. Lett. 93, 203116 (2008); Editor’s choice for inclusion in the December 8, 2008 issue of Virtual Journal of Nanoscale Science and Technology
- C. E., J. Rantschler, S. Khizroev, D. Litvinov, “Micromagnetic study of domain wall dynamics in bit-patterned nanodots,” J. Appl. Phys. 103, 113910 (2008)
- E. Stefanescu, N. Amos, R. Ikkawi, B. Lee, R. Chomko, D. Litvinov, S. Khizroev, “Perpendicular recording with reduced skew angle sensitivity,” J. Nanoelectronics and Optoelectronics 3 (4), 270-3 (2008)
- C. E, J. Rantschler, S. Khizroev, D. Litvinov, “Micromagnetics of signal propagation in magnetic cellular logic data channels,” J. Appl. Phys. 104, 054311 (2008)
- D. Litvinov, V. Parekh, C. E, D. Smith, J. Rantschler, P. Ruchhoeft, D. Weller, and S. Khizroev, “Nanoscale bit-patterned media for next-generation data storage systems,” J. Nanoelectronics and Optoelectronics 3 (2), 93-112 (2008)
- P. Gomez, D. Litvinov, and S. Khizroev, “A nanoscale nuclear magnetic resonance system for signature-based detection of biomolecules,” J. Nanoelectronics and Optoelectronics 3 (2), 123-32 (2008)
- D. Litvinov, V. Parekh, C. E, D. Smith, J. Rantschler, P. Ruchhoeft, D. Weller, and S. Khizroev, “Recording physics, design considerations, and fabrication of nanoscale bit-patterned media,” IEEE Trans. Nanotechnology 7 (4), 463-76 (2008)
- S. Khizroev, R. Ikkawi, N. Amos, R. Chomko, R. Haddon, D. Litvinov, “Protein-based memory,” Materials Research Society (MRS) Bulletin 33 (9), 864-71 (2008)
- R. Ikkawi, A. Krichevsky, A. Lavrenov, N. Amos, D. Litvinov, S. Khizroev, “Exploiting far- and near-field optics to develop energy efficient transducer for HAMR,” IEEE Trans. Magn. 44 (11), 3364-7 (2008)
- P. Gomez, D. Litvinov, S. Khizroev, “Minimum parameters required to enable low-field low-size nano nuclear magnetic resonance (NanoNMR),” IEEE Trans. Magn. 44 (11), 4464-7 (2008)
- C. E, J. Rantschler, S. Zhang, S. Khizroev, T. R. Lee, D. Litvinov, “Low-temperature vacuum annealing study of (Co/Pd)n magnetic multilayers,” J. Appl. Phys. 103, 07B510 (2008)
- D. Smith, V. Parekh, C. E, S. Zhang, W. Donner, T. R. Lee, S. Khizroev, D. Litvinov, “Magnetization reversal and magnetic anisotropy in patterned Co/Pd multilayer thin films,” J. Appl. Phys. 103, (2008)
- S. Hernandez, E. Stefanescu, S. Khizroev, N. Myung, “Electrodeposition of iron-palladium thin films,” Electrochimica Acta 53 (18), 5621-27 (2008)
- R. Ikkawi, A. Lavrenov, A. Krichevsky, D. Teweldebrhan, S. Ghosh, A. A. Balandin, D. Litvinov, and S. Khizroev, “Near-field optical transducer for heat-assisted magnetic recording for beyond 10-terabit/in2 densities, J. Nanoelectronics and Optoelectronics 3, 44-54 (2008)
- N. Amos, R. Fernandez, R. Ikkawi, B. Lee, A. Lavrenov, A. Krichevsky, D. Litvinov, S. Khizroev, “Magnetic force microscopy study of magnetic stripe domains in sputter deposited Permalloy thin films, “ J. Appl. Phys. 103 (7), 07E732 (2008)
- N. Amos, R. Ikkawi, A. Krichevsky, R. Fernandez, E. Stefanescu, I. Dumer, D. Litvinov, S. Khizroev, “Multilevel three-dimensional nanomagnetic recording,” J. Nanoelectronics and Optoelectronics 2, 257-68 (2007)
- D. Litvinov, Ch. E, V. Parekh, D. Smith, J. Rantschler, S. Zhang, W. Donner, T. R. Lee, P. Ruchhoeft, D. Weller, and S. Khizroev, “Design and fabrication of high anisotropy nanoscale bit-patterned magnetic recording medium for data storage applications, ECS Transactions 3 (25), 249-58 (2007)
- R. Ikkawi, N. Amos, A. Krichevsky, R. Chomko, D. Litvinov, S. Khizroev, “Nanolasers to enable data storage beyond 10 terabit/in2, “Appl. Phys. Lett. 91 (15), 3115-6 (2007); Editor's choice for the Virtual Journal of Nanoscale Science & Technology, October 19 (2007)
- K. S. Martirosyan, L. Chang, J. Rantschler, S. Khizroev, D. Luss, D. Litvinov, “Carbon combustion synthesis and magnetic properties of cobalt ferrite nanoparticles,” IEEE Trans. Magn. 43 (6), 3118-20 (2007)
- V. Parekh, D. Smith, Chunsheng E, J. Rantschler, S. Khizroev, D. Litvinov, “He+ ion irradiation study of continuous and patterned Co/Pd multilyaers,” J. Appl. Phys. 101, 083904 (2007)
- P. Gomez, D. Litvinov, and S. Khizroev, “A method to design high SNR nanoscale magnetic sensors using an array of tunneling magneto-resistive (TMR) devices,” Journal of Physics D: Applied Physics 40, 4396-404 (2007)
- Chunsheng E, J. Rantschler, S. Zhang, D. Smith, V. Parekh, S. Khizroev, D. Litvinov, “Integranular interactions of low temperature atmosphere annealed Co/Pd magnetic multilayers,” J. Appl. Phys. 101, 09D108 (2007)
- V. Renugopalakrishnan, S. Khizroev, H. Anand, L. Pingzuo, L. Lindvold, “Future memory storage technology: protein-based memory devices may facilitate surpassing Moore’s Law,” IEEE Trans. Magn. 43 (2), 773-5 (2007)
- S. Khizroev, Y. Hijazi, N. Amos, E. Felissaint, N. Joshi, R. Ikkawi, R. Chomko, and D. Litvinov, “Physics of Perpendicular Recording with a Patterned Soft Underlayer,” special information technologies issue, J. Nanoscience and Nanotechnology 7, 243-54 (2007)
- N. Amos, R. Ikkawi, A. Lavrenov, P. Gomez, R. Chomko, F. Candocia, D. Litvinov, S. Khizroev “Nanomagnetic probes to image patterned media for information densities above ten terabit-per-square-inch,” J. Nanoelectronics and Optoelectronics 2, 1-3 (2007)
- D. Smith, Chunsheng E., S. Khizroev, D. Litvinov, “The influence of bit patterned medium design and imperfections on magnetoresistive playback,” IEEE Trans. Magn. 42 (10), 2285-7 (2006)
- Y. Hijazi, R. Ikkawi, N. Amos, A. Lavrenov, N. Joshi, D. Doria, R. Chomko, D. Litvinov, and S. Khizroev, “Patterned soft underlayers for perpendicular media,” IEEE Trans. Magn. 42 (10), 2375-7 (2006)
- Chunsheng E, D. Smith, E. Svedberg, S. Khizroev, D. Litvinov, “Combinatorial synthesis of Co/Pd magnetic multilayers,” J. Appl. Phys. 99, 113901 (2006)
- S. Khizroev, Y. Hijazi, N. Amos, D. Doria, A. Lavrenov, R. Chomko, T.-M. Lu, D. Litvinov, “Three-dimensional magnetic recording – an emerging nanoelectronic technology,” J. Nanoelectronics and Optoelectronics 1, 1-18 (2006)
- D. Smith, Chunsheng E, S. Khizroev, D. Litvinov, “Magnetoresistive playback heads for bit-patterned medium recording applications,” J. Appl. Phys. 99, 014503 (2006)
- V. Parekh, Chunsheng E, D. Smith, A. Ruiz, P. Ruchoeft, E. Svedberg, S. Khizroev, D. Litvinov, “Fabrication of a high-anisotropy nanoscale patterned magnetic recording medium for data storage applications,” Nanotechnology 17, 2079 (2006)
- S. Khizroev, Y. Hijazi, N. Amos, R. Chomko, and D. Litvinov, “Considerations in the design of three-dimensional and multi-level magnetic recording,” J. Appl. Phys. 100, 63907 (2006)
- R. Chomko, D. Litvinov, and S. Khizroev, “A nanoscale transducer for perpendicular magnetic recording,” Appl. Phys. Lett. 87, 162503 (2005)
- Chunsheng E, D. Smith, J. Wolfe, D. Weller, S. Khizroev, D. Litvinov, “Physics of patterned magnetic medium recording: design considerations,” J. Appl. Phys. 98 , 024505 (2005)
- S. Khizroev, R. Chomko, Y. Hijazi, S. Mukherjee, R. Chantrell, X. Wu, R. Carley, D. Litvinov, “FIB-fabricated nanoscale magnetoresistive sensor,” Appl. Phys. Lett. 86, 42502 (2005)
- D. Litvinov, S. Khizroev, “Perpendicular recording: playback,” Appl. Phys. Reviews – Focused Review, JAP 97, 071101 (2005)
- F. Candocia, E. Svedberg, D. Litvinov, S. Khizroev, “Deconvolution processing for increasing the resolution of magnetic force microscopy measurements,” Nanotechnology 15, S575-84 (2004)
- S. Khizroev, D. Litvinov, “Physics of perpendicular recording: writing process,” Appl. Phys. Reviews – Focused Review, JAP 95 (9), 4521 (2004)
- S. Khizroev, D. Litvinov, “Focused-ion-beam-based rapid prototyping of Nanoscale magnetic devices,” Review in Nanotechnology 14, R7-15 (2004)
- S. Mukherjee, D. Litvinov, and S. Khizroev, “Atomic-scale modeling of nanoconstrictions,” IEEE Trans. Magn. 40 (4), 2143-5 (2004)
- D. Litvinov, E. Svedberg, T. Ambrose, F. Chen, E. Schlesinger, J. Bain, and S. Khizroev, “Ion implantation of magnetic thin-films and nanostructures,” JMMM 283 (1), 128-32 (2004)
- D. Litvinov, M.H. Kryder, and S. Khizroev, "Physics of Perpendicular Recording: Playback," Journal of Applied Physics 93 (11), 9155-64 (2003)
- D. Litvinov, S. Khizroev, “Overview of magneto-resistive probes heads for Nanoscale magnetic recording applications,” J. Magn. Magn. Mat. 264 (2-3), 275-83 (2003)
- A. Lyberatos, D. Litvinov, and S. Khizroev, "Thermal effects in the high-speed switching of the magnetization of fine grains," Japanese J. Appl. Phys. 42 (4A Part I), 1598-602 (2003)
- S. Khizroev and D. Litvinov, "Parallels between playback in perpendicular and longitudinal recording," J. Magn. Magn. Mat. 257 (1), 126-31 (2003)
- E. Svedberg, D. Litvinov, R. Gustafson, and S. Khizroev, "Magnetic force microscopy of skew angle dependencies in perpendicular magnetic recording," J. Appl. Phys. 93 (3), 2828-33 (2003)
- S. Khizroev, J. Bain, and D. Litvinov, "Focused ion beam fabrication of nanomagnetic probes," Nanotechnology 13, 619-22 (2002)
- S. Khizroev, D. A. Thompson, M. H. Kryder, and D. Litvinov, "Direct observation of magnetization switching in focused-ion-beam-fabricated magnetic nanotubes," Appl. Phys. Lett. 81 (12), 2256 (2002); Editor's choice for the Virtual Journal of Nanoscale Science & Technology, September 23rd (2002)
- E. B. Svedberg, S. Khizroev, C. H. Chang, and D. Litvinov, "Signal-to-noise deterioration in perpendicular storage media by thermal and magnetic field aging as determined by magnetic force microscopy," J. Appl. Phys. 92 (11), 6714-20 (2002)
- S. Khizroev, R. W. Gustafson, J. K. Howard, M. H. Kryder, and D. Litvinov, "Multiple magnetic image reflection in perpendicular recording," IEEE Trans. Magn. 38 (5), 2066-8 (2002)
- D. Litvinov, J. Wolfson, J. A. Bain, R. W. Gustafson, M. H. Kryder, and S. Khizroev, "Narrow-gap single pole heads," IEEE Trans. Magn. 38 (5), 2252-4 (2002)
- D. Litvinov, A. Lyberatos, M. H. Kryder, J. Wolfson, J. A. Bain, and S. Khizroev, "Recording layer influence on the dynamics of perpendicular recording," IEEE Trans. Magn 38 (5), 1994-6 (2002)
- S. Khizroev, A. Lyberatos, M. H. Kryder, and D. Litvinov, "Physics of perpendicular recording: effects of magnetic "charge" distribution," Japanese J. Appl. Phys., Part 2 Letters 41 (7A), L758-60 (2002)
- D. Litvinov and S. Khizroev, "Orientation-sensitive magnetic force microscopy in future probe storage applications," Appl. Phys. Lett. 81 (10), 1878 (2002); Editor's choice for the Virtual Journal of Nanoscale Science & Technology, September 9th (2002)
- D. Litvinov and S. Khizroev, "Perpendicular Recording: A Future Technology or a Temporary Solution," Proceedings of the 10th NASA Goddard Space Flight Center Conference on Mass Data Storage Systems and Technologies, 1-19 (2002)
- S. Khizroev, Y. Liu, K. Mountfield, M. Kryder, D. Litvinov, “Physics of perpendicular magnetic recording: writing process,” JMMM 246 (1-2), 335-44 (2002)
- D. Litvinov and S. Khizroev, “Focused ion beam (FIB) in future probe storage industry,” Nanotechnology 13, 179-84 (2002)
- S. Khizroev, D. Litvinov, “Response to Comment on `On the mechanism of the cubic phase formation in the boron nitride thin-film systems,'' Appl. Phys. Lett. 80 (7), 1308-9 (2002)
- D. Litvinov, J. Wolfson, J. Bain, R. Gustafson, M. H. Kryder, S. Khizroev, “The role of the gap in single pole heads in perpendicular recording, “IEEE Trans. Magn. 38 (4), 1658-63 (2002)
- J. Wu, L. Holloway, H. Laidler, K. O’Grady, S. Khizroev, D. Litvinov, J.K. Howard, R.W. Gustafson, “Magnetic characterization of perpendicular recording,” IEEE Trans. Magn. 38 (4), 1682-6 (2002)
- E. B. Svedberg, S. Khizroev, and D. Litvinov, “Magnetic force microscopy study of perpendicular media,” J. Appl. Phys. 91 (8), 5365-5370 (2002)
- J. Wolfson, J. Bain, S. Khizroev, D. Litvinov, “Dynamic Kerr imaging of soft underlayers (SUL’s) for perpendicular magnetic recording applications,” J. Appl. Phys. 91(10), 8665-9 (2002)
- D. Litvinov, M. Kryder, and S. Khizroev, “Recording physics of perpendicular media: recording layers,” J. Magn. Magn. Mat. 241(2-3), 453-465 (2002)
- D. Litvinov, T. Roscamp, Mei-Ling Wu, T. Klemmer, J. K. Howard, and S. Khizroev, “CoB/Pd multilayer based recording layers for perpendicular media,” 2001 MRS Proceedings 674, T3.9 (2001)
- A. Roy, D. Laughlin, T. Klemmer, K. Howard, S. Khizroev, and D. Litvinov, “Seed-layer effect on microstructure and magnetic properties of Co/Pd multilayers,” J. Appl. Phys. 89 (11), 7531-3 (2001)
- B. Lu, T. Klemmer, S. Khizroev, J. K. Howard, and D. Litvinov, “CoCrPtTa/Ti perpendicular media deposited at high sputtering rate,” IEEE Trans. Magn. 37 (4), 1319-21 (2001)
- D. Litvinov, J. Wolfson, J. Bain, R. White, R. Chomko, R. Chantrell, and S. Khizroev, “Dynamics of perpendicular recording heads,” IEEE Trans. Magn. 37 (4), 1376-8 ( 2001)
- A. Lyberatos, S. Khizroev, and D. Litvinov, “High speed coherent switching of longitudinal recording media,” IEEE Trans. Magn. 37 (4), 1369-71 (2001)
- S. Khizroev, M. Kryder, and D. Litvinov, “Next generation perpendicular systems,” IEEE Trans. Magn., 37 (4), 1922-4 (2001)
- S. Khizroev, D. Litvinov, “On the mechanism of the cubic phase formation in the boron nitride thin film systems,” Appl. Phys. Lett. 79 (3), 353-5 (2001)
- D. Litvinov, M. Kryder, and S. Khizroev, “Recording physics of perpendicular media: soft underlayers,” JMMM 232 (1-2), 84-90 (2001)
- D. Litvinov, R. Chomko, G. Chen, L. Abelmann, K. Ramstock, S. Khizroev, "Micromagnetics of a Soft Underlayer," IEEE Trans. Magn., 36 (5), 2483-5 (2001)
- D. Litvinov, H. Gong, D. Lambeth, S. Khizroev, K. Howard, “RHEED based texture determination: magnetic thin films for perpendicular media,” J. Appl. Phys., 87 (9), 5693-5 (2000)
- L. Abelmann, S. Khizroev, D. Litvinov, J. A. Bain, J. Zhu, M. H. Kryder, K. Ramstock, C. Lodder, “Micromagnetic simulation of ultra?small single pole perpendicular heads,” J. Appl. Phys., 87 (9), 6636-8 (2000)
- D. Litvinov, R. Chomko and S. Khizroev, “Color based thin film quality characterization,” to be published in IEEE Trans. Measurements and Instruments (2002)
- S. Khizroev, M. H. Kryder, Y. Ikeda, K. Rubin, P. Arnett, M. Best, D. A. Thompson, “Recording heads with trackwidths suitable for 100 Gbit/in2 density, “IEEE Trans. Magn., 35 (5), 2544-6 (1999)
- W. P. Jayasekara, S. Khizroev, M. H. Kryder, W. Weresin, P. Kasiraj, Fleming, “Inductive write heads using high moment FeAlN pole,” IEEE Trans. Magn. , 35 (2) pt.1, 613-8 (1999)
- S. Khizroev, W. Jayasekara, J. A. Bain, R. E. Jones, Jr., M. H. Kryder, “MFM quantification of magnetic fields generated by ultra?small single pole perpendicular heads,” IEEE Trans. Magn., 34 (4), pt.1, 2030-2 (1998)
- S. Khizroev, J. A. Bain, M. H. Kryder, “Considerations in the design of probe heads for 100 Gbit/in2 recording density,” IEEE Trans. Magn., 33 (5), pt.1, 2893-5 (1997)
- S. Khizroev, F. Zuo, G. C. Alexandrakis, J. A. Schlueter, U. Geiser, J. M. Williams, “Vortex pinning in layered organic superconductors: kappa-(BEDT-TTF)/sub 2/Cu[N(CN)/sub 2/]Br,“ J. Appl. Phys., 79 (8), pt.2B, 6586-8 (1996)
- F. Zuo, S. Khizroev, G. C. Alexandrakis, J. A. Schlueter, U. Geiser, J. M. Williams, ” Anomalous magnetization in single-crystal kappa?[bis(ethylenedithiotetrathiafulvalene)]/sub2/Cu[N(CN)/sub2/]Br superconductors,” Physical Review B (Condensed Matter), 52 (18), R13126-9 (1995)
- F. Zuo, S. Khizroev, G. C. Alexandrakis, V. N. Kopylov, “Anomalous magnetization in single-crystal Tl/sub 2/Ba/sub2/CuO/sub 6/: Evidence of dimensional crossover, “Physical Review B (Condensed Matter), 52 (2), R755-8 (1995)
- F. Zuo, S. Khizroev, V. N. Kopylov, N. N. Kolesnikov, “Pinning of Josephson vortices in single crystals of Tl/sub2/Ba/sub 2/CuO/sub 6+ delta / superconductors, “Physica C, 243 (1-2), 117-22 (1995)
- F. Zuo, S. Khizroev, S. Voss, A. M. Hermann, “Vortex penetration in single-crystal Tl/sub 2/Ba/2/CuO/sub 6/ superconductors,” Physical Review B (Condensed Matter), 49 (13), 9252-5 (1994)
- J. Fontcuberta, L. Fabrega, X. Obradors, F. Zuo, S. Khizroev, X. Jiang; J. L. Peng, R. L. Greene, “Josephson decoupling in Nd/sub 1.85/Ce/sub 0.15/CuO/sub 4/ revisited, “Physical Review Letters, 73 (24), 3327-8 (1994)
- F. Zuo, S. Khizroev, X. Jiang; J. L. Peng, R. L. Greene, “Surface barriers and two-dimensional-collective pinning in single crystal Nd/sub 1.85/Ce/sub 0.15/CuO/sub 4- delta / superconductors, “Journal of Applied Physics, 76 (10), pt.2, 6953-5 (1994)
- F. Zuo, S. Khizroev, X. Jiang, J. L. Peng, R. L. Greene, “Evidence of thermal nucleation of two- dimensional point vortices in single-crystal Nd/sub 1.85/Ce/sub 0.15/Cu/sub2/O/sub 4-y/ superconductors, “Physical Review B (Condensed Matter), 49 (17) 12326-9 (1994)
- F. Zuo, S. Khizroev, X. Jiang; J. L. Peng, R. L. Greene, “Josephson decoupling in single crystal Nd/sub 1.85/Ce/0.15/Cu/sub2/O/sub 4-y/ superconductors, “Physical Review Letters, 72 (11), 1746-9 (1994)
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