| An evaluation of Longley-Rice and GTD propagation models K Chamberlin, R Luebbers IEEE Transactions on Antennas and Propagation 30 (6), 1093-1098, 1982 | 174 | 1982 |
| Finite difference time-domain calculation of transients in antennas with nonlinear loads R Luebbers, J Beggs, K Chamberlin IEEE transactions on antennas and propagation 41 (5), 566-573, 1993 | 51 | 1993 |
| An interactive demonstration of electromagnetic wave propagation using time-domain finite differences RJ Luebbers, KS Kunz, KA Chamberlin IEEE Transactions on Education 33 (1), 60-68, 1990 | 41 | 1990 |
| Modeling good conductors using the finite-difference, time-domain technique K Chamberlin, L Gordon IEEE transactions on electromagnetic compatibility 37 (2), 210-216, 1995 | 29 | 1995 |
| Perspectives on an Internet‐Based Synchronous Distance Learning Experience C Williamson, JT Bernhard, K Chamberlin Journal of Engineering Education 89 (1), 53-61, 2000 | 24 | 2000 |
| A method-of-moments solution to the twisted-pair transmission line K Chamberlin, K Komisarek, K Sivaprasad IEEE transactions on electromagnetic compatibility 37 (1), 121-126, 1995 | 23 | 1995 |
| Two-dimensional, electrostatic finite element study of tip–substrate interactions in electric force microscopy of high density interconnect structures TS Gross, CM Prindle, K Chamberlin, N Bin Kamsah, Y Wu Ultramicroscopy 87 (3), 147-154, 2001 | 20 | 2001 |
| Wavelet analysis of Quadriceps power spectra and amplitude under varying levels of contraction intensity and velocity WS Ronald Croce, John Miller, Kent Chamberlin, David Filipovic Muscle & Nerve 50 (5), 844-853, 2014 | 18 | 2014 |
| High-frequency modeling of frequency-dependent dielectric and conductor losses in transmission lines JE Chan, K Sivaprasad, KA Chamberlin IEEE transactions on components and packaging technologies 30 (1), 86-91, 2007 | 18 | 2007 |
| The transport of extremely low-frequency electrical signals through an acupuncture meridian compared to nonmeridian tissue K Spaulding, K Chamberlin Journal of alternative and complementary medicine 17 (2), 127-132, 2011 | 15 | 2011 |
| Analysis of the charge exchange between the human body and ground: evaluation of “earthing” from an electrical perspective K Chamberlin, W Smith, C Chirgwin, S Appasani, P Rioux Journal of chiropractic medicine 13 (4), 239-246, 2014 | 13 | 2014 |
| Quantitative analysis of intermodulation product interference K Chamberlin IEEE transactions on electromagnetic compatibility 31 (3), 316-319, 1989 | 12 | 1989 |
| The effect of tree cover on air-ground, VHF propagation path loss K Chamberlin IEEE transactions on communications 34 (9), 958-962, 1986 | 12 | 1986 |
| Quadriceps mechano‐and electromyographic time‐frequency responses during muscular contractions to volitional exhaustion R Croce, A Craft, J Miller, K Chamberlin, D Filipovic Muscle & nerve 53 (3), 452-463, 2016 | 10 | 2016 |
| Cell phone radiation exposure limits and engineering solutions P Héroux, I Belyaev, K Chamberlin, S Dasdag, AAA De Salles, ... International Journal of Environmental Research and Public Health 20 (7), 5398, 2023 | 9 | 2023 |
| Frequency-domain and finite-difference, time-domain solutions to a nonlinearly-terminated dipole: theory and validation KA Chamberlin, JD Morrow, RJ Luebbers IEEE transactions on electromagnetic compatibility 34 (4), 416-422, 1992 | 9 | 1992 |
| Analysis of finite-differencing errors to determine cell size when modeling ferrites and other lossy electric and magnetic materials using FDTD K Chamberlin, D Vidacic IEEE transactions on electromagnetic compatibility 46 (4), 617-623, 2004 | 6 | 2004 |
| A robust solution for preprocessing terrain profiles for use with ray-tracing propagation models K Chamberlin, S Bhosle IEEE transactions on antennas and propagation 52 (10), 2730-2734, 2004 | 6 | 2004 |
| An automated approach for implementing GTD to model 2-D terrain effects at microwave frequencies K Chamberlin IEEE transactions on electromagnetic compatibility 38 (1), 7-14, 1996 | 5 | 1996 |
| Deriving a synthetic conductivity to enable accurate prediction of losses in good conductors using FDTD K Chamberlin Applied Comput. Electromagn. 2 (4), 46-52, 1994 | 5 | 1994 |
