Systems and methods for controlling light phase difference in interferometric waveguides at near field transducers A Krichevsky, S Sochava, ML Mallary US Patent 8,675,455, 2014 | 171 | 2014 |
1.6 Tbps silicon photonics integrated circuit and 800 Gbps photonic engine for switch co-packaging demonstration S Fathololoumi, D Hui, S Jadhav, J Chen, K Nguyen, MN Sakib, Z Li, ... Journal of Lightwave Technology 39 (4), 1155-1161, 2020 | 116 | 2020 |
Magnetic force microscopy study of magnetic stripe domains in sputter deposited Permalloy thin films N Amos, R Fernandez, R Ikkawi, B Lee, A Lavrenov, A Krichevsky, ... Journal of applied physics 103 (7), 2008 | 91 | 2008 |
Disk drive adjusting fly height actuator to compensate for laser induced head protrusion in heat assisted magnetic recording A Krichevsky, D Guarisco US Patent 8,619,508, 2013 | 77 | 2013 |
Heat assisted magnetic recording with interlaced high-power heated and low-power heated tracks A Krichevsky, Western Digital Technologies, Inc. US Patent 9,099,103, 2015 | 62 | 2015 |
Near-field optical transducer for heat-assisted magnetic recording for beyond-10-Tbit/in2 densities R Ikkawi, N Amos, A Lavrenov, A Krichevsky, D Teweldebrhan, S Ghosh, ... Journal of nanoelectronics and optoelectronics 3 (1), 44-54, 2008 | 57 | 2008 |
Magnetization dynamics of interacting iron nanocrystals in Si O 2 KS Buchanan, A Krichevsky, MR Freeman, A Meldrum Physical Review B 70 (17), 174436, 2004 | 33 | 2004 |
Trapping motile magnetotactic bacteria with a magnetic recording head A Krichevsky, MJ Smith, LJ Whitman, MB Johnson, TW Clinton, LL Perry, ... Journal of applied physics 101 (1), 2007 | 25 | 2007 |
Optical and thermal analysis of the light-heat conversion process employing an antenna-based hybrid plasmonic waveguide for HAMR N Abadía, F Bello, C Zhong, P Flanigan, DM McCloskey, C Wolf, ... Optics Express 26 (2), 1752-1765, 2018 | 22 | 2018 |
Method and system for reducing undesirable reflections in a HAMR write apparatus A Krichevsky, CB Wolf, FD Bello, KE Ballantine, J Donegan, ... US Patent 9,484,051, 2016 | 19 | 2016 |
Nanolasers to enable data storage beyond 10Tbit∕ in. 2 R Ikkawi, N Amos, A Krichevsky, R Chomko, D Litvinov, S Khizroev Applied physics letters 91 (15), 2007 | 17 | 2007 |
Architecture for metal-insulator-metal near-field transducer for heat-assisted magnetic recording A Krichevsky, F Bello, C Wolf, F Zong, D Wolf, D McCloskey, K Ballantine, ... US Patent 10,249,336, 2019 | 16* | 2019 |
Spectrum and thermodynamic currents in one dimensional Josephson elements A Krichevsky, M Schechter, Y Imry, Y Levinson Physical Review B 61 (5), 3723-3733, 2000 | 16 | 2000 |
Energy assisted magnetic recording disk drive using modulated laser light A Krichevsky, ML Mallary, F Zong US Patent 8,891,341, 2014 | 14 | 2014 |
Precessional switching of a micrometer elliptical element in a crossed-wire geometry A Krichevsky, MR Freeman Journal of applied physics 95 (11), 6601-6603, 2004 | 14 | 2004 |
Noise imaging using magneto-optical sampling techniques MR Freeman, GM Steeves, GE Ballentine, A Krichevsky Journal of applied physics 91 (10), 7326-7330, 2002 | 12 | 2002 |
Multilevel three-dimensional nanomagnetic recording N Amos, R Ikkawi, A Krichevsky, R Fernandez, E Stefanescu, I Dumer, ... Journal of Nanoelectronics and Optoelectronics 2 (3), 257-268, 2007 | 9 | 2007 |
Time-resolved Kerr measurements of magnetization switching in a crossed-wire ferromagnetic memory element S Zelakiewicz, A Krichevsky, M Johnson, MR Freeman Journal of applied physics 91 (10), 7331-7333, 2002 | 8 | 2002 |
Optical, thermal, and bit-writing analysis of a directly coupled plasmonic waveguide for heat-assisted magnetic recording F Bello, D Wolf, GJ Parker, C Wolf, A Krichevsky, F Zong, N Abadía, ... OSA Continuum 3 (8), 2010-2021, 2020 | 6 | 2020 |
Method and system for providing an energy assisted magnetic recording disk drive using a pulsed laser light A Krichevsky US Patent 8,908,480, 2014 | 6 | 2014 |