Magnonic logic circuits A Khitun, M Bao, KL Wang Journal of Physics D: Applied Physics 43 (26), 264005, 2010 | 651 | 2010 |

Spin wave magnetic nanofabric: A new approach to spin-based logic circuitry A Khitun, M Bao, KL Wang IEEE Transactions on Magnetics 44 (9), 2141-2152, 2008 | 280 | 2008 |

Nano scale computational architectures with spin wave bus A Khitun, KL Wang Superlattices and Microstructures 38 (3), 184-200, 2005 | 275 | 2005 |

Non-volatile magnonic logic circuits engineering A Khitun, KL Wang Journal of Applied Physics 110 (3), 034306, 2011 | 181 | 2011 |

Electric-field-induced spin wave generation using multiferroic magnetoelectric cells S Cherepov, P Khalili Amiri, JG Alzate, K Wong, M Lewis, P Upadhyaya, ... Applied Physics Letters 104 (8), 082403, 2014 | 179 | 2014 |

Modification of the lattice thermal conductivity in silicon quantum wires due to spatial confinement of acoustic phonons A Khitun, A Balandin, KL Wang Superlattices and microstructures 26 (3), 181-193, 1999 | 170 | 1999 |

In-plane lattice thermal conductivity of a quantum-dot superlattice A Khitun, A Balandin, JL Liu, KL Wang Journal of Applied Physics 88 (2), 696-699, 2000 | 138 | 2000 |

Multi-frequency magnonic logic circuits for parallel data processing A Khitun Journal of Applied Physics 111 (5), 054307, 2012 | 101 | 2012 |

Magnetoelectric spin wave amplifier for spin wave logic circuits A Khitun, DE Nikonov, KL Wang Journal of Applied Physics 106 (12), 123909, 2009 | 97 | 2009 |

Graphene-based non-Boolean logic circuits G Liu, S Ahsan, AG Khitun, RK Lake, AA Balandin Journal of Applied Physics 114 (15), 154310, 2013 | 88 | 2013 |

Thermal and magnetic properties of nanostructured densified ferrimagnetic composites with graphene-graphite fillers S Ramirez, K Chan, R Hernandez, E Recinos, E Hernandez, R Salgado, ... Materials & Design 118, 75-80, 2017 | 85 | 2017 |

Feasibility study of logic circuits with a spin wave bus A Khitun, DE Nikonov, M Bao, K Galatsis, KL Wang Nanotechnology 18 (46), 465202, 2007 | 84 | 2007 |

Pattern recognition with magnonic holographic memory device A Kozhevnikov, F Gertz, G Dudko, Y Filimonov, A Khitun Applied Physics Letters 106 (14), 142409, 2015 | 81 | 2015 |

Magnonic holographic devices for special type data processing A Khitun Journal of Applied Physics 113 (16), 164503, 2013 | 73 | 2013 |

Thermoelectric figure of merit enhancement in a quantum dot superlattice A Khitun, KL Wang, G Chen Nanotechnology 11 (4), 327, 2000 | 70 | 2000 |

Magnonic holographic memory F Gertz, A Kozhevnikov, Y Filimonov, A Khitun IEEE Transactions on Magnetics 51 (4), 1-5, 2014 | 67 | 2014 |

Cross-plane thermal conductivity of self-assembled Ge quantum dot superlattices JL Liu, A Khitun, KL Wang, WL Liu, G Chen, QH Xie, SG Thomas Physical Review B 67 (16), 165333, 2003 | 64 | 2003 |

All-metallic electrically gated 2H-TaSe_{2} thin-film switches and logic circuitsJ Renteria, R Samnakay, C Jiang, TR Pope, P Goli, Z Yan, ... Journal of Applied Physics 115 (3), 034305, 2014 | 57 | 2014 |

All-metallic electrically gated 2H-TaSe_{2} thin-film switches and logic circuitsJ Renteria, R Samnakay, C Jiang, TR Pope, P Goli, Z Yan, ... Journal of Applied Physics 115 (3), 034305, 2014 | 57 | 2014 |

Alternate state variables for emerging nanoelectronic devices K Galatsis, A Khitun, R Ostroumov, KL Wang, WR Dichtel, E Plummer, ... IEEE transactions on Nanotechnology 8 (1), 66-75, 2008 | 56 | 2008 |