[1] Y. Leviatan and A. Boag, "Analysis of Electromagnetic Scattering from Dielectric Cylinders Using a Multifilament Current Model", *IEEE Trans. Antennas and Propagation*, vol. AP-35, pp. 1119-1127, October 1987.

[2] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Acoustic Scattering from Fluid Cylinder Using a Multifilament Source Model", *Journal of the Acoustical Society of America,* vol. 83, pp. 1-8, January 1988.

[3] Y. Leviatan, Am. Boag and Al. Boag, "Analysis of TE Scattering from Dielectric Cylinders Using a Multifilament Magnetic Current Model", *IEEE Trans. Antennas and Propagation,* vol. AP-36, pp. 1026-1031, July 1988.

[4] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Two-Dimensional Electromagnetic Scattering from a Periodic Grating of Cylinders Using a Hybrid Current Model", *Radio Science,* vol. 23, no. 4, pp. 612-624, July-August 1988.

[5] Y. Leviatan, Am. Boag and Al. Boag, "Analysis of Electromagnetic Scattering from Dielectrically Coated Conducting Cylinders Using a Multifilament Current Model", *IEEE Trans. Antennas and Propagation*, vol. AP-36, pp. 1602-1607, November 1988.

[6] Y. Leviatan, Am. Boag, and Al. Boag, "Generalized Formulations for Electromagnetic Scattering from Perfectly Conducting and Homogeneous Material Bodies-Theory and Numerical Solution", *IEEE Trans. Antennas and Propagation*, vol. AP-36, pp. 1722-1734, December 1988.

[7] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Acoustic Scattering from Fluid Bodies Using a Multipoint Source Model", *IEEE Trans. on Ultrasonics, Ferroelectrics, and Frequency Control*, vol. UFFC-36, pp. 119-128, January 1989.

[8] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Diffraction from Echellete Gratings Using a Strip Current Model", *Journal of the Optical Society of America A,* vol. 6, pp. 543-549, April 1989.

[9] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Two-dimensional Acoustic Scattering from Periodic Structures Using a Hybrid Source Model", *Journal of the Acoustical Society of America,* vol. 86, pp. 387-394, July 1989.

[10] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Two-Dimensional Electromagnetic Scattering from Non-Planar Periodic Surfaces Using a Strip Current Model", *IEEE Trans. Antennas and Propagation*, vol. AP-37, pp. 1437-1446, November 1989.

[11] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Diffraction from Doubly Periodic Arrays of Perfectly Conducting Bodies Using a Patch-Current Model", *Journal of the Optical Society of America A*, vol. 7, pp. 1712-1718, September 1990.

[12] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Electromagnetic Scattering from Doubly Periodic Arrays of Penetrable Bodies Using a Patch-Dipole Current Model", *Radio Science*, vol. 26, no. 2, pp. 603-610, March-April 1991.

[13] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Electromagnetic Scattering from Linear Periodic Arrays of Perfectly Conducting Bodies Using a Cylindrical Current Model", *IEEE Trans. Antennas and Propagation*, vol. AP-39, pp. 1332-1337, September 1991.

[14] Y. Leviatan, Am. Boag, and Al. Boag, "Analysis of Electromagnetic Scattering Using a Current Model Method", *Computer Physics Communications - Thematic Issue on Computational Electromagnetics,* vol. 68, pp. 331-345, 1991.

[15] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Three-Dimensional Acoustic Scattering from Doubly-Periodic Structures Using a Source-Model", *Journal of the Acoustical Society of America*, vol. 91, pp. 572-580, February 1992.

[16] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Electromagnetic Scattering from Linear Periodic Arrays of Penetrable Bodies Using a Cylindrical Current Model", *Journal of Electromagnetic Waves and Applications*, vol. 7, pp. 423-441, March 1993.

[17] Al. Boag, Y. Leviatan, and Am. Boag, "Analysis and Optimization of Waveguide Multiapplicator Hyperthermia Systems", *IEEE Trans. Biomedical Engineering*, vol. 40, pp. 946-952, September 1993.

[18] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Electromagnetic Scattering from Doubly Periodic Nonplanar Surfaces Using a Patch Current Model", *IEEE Trans. Antennas and Propagation*, vol. AP-41, pp. 732-738, June 1993.

[19] Am. Boag, Y. Leviatan, and Al. Boag, "Analysis of Scattering from Cylinders with a Periodically Corrugated Periphery Using a Current-Model Technique", *IEEE Trans. Antennas and Propagation*, vol. AP-41, pp. 1265-1272, September 1993.

[20] Am. Boag, Y. Leviatan, and Al. Boag, "On the use of SVD - Improved Point Matching in the Current-Model Method", *IEEE Trans. Antennas and Propagation,* vol. AP-41, pp. 926-933, July 1993.

[21] B. Pomeraniec, Y. Leviatan, and A. Boag, "Analysis of the 5:1 Dipole Benchmark Case Using the Current-Model Method with an SVD-Improved Point Matching Technique", *Journal of Electromagnetic Waves and Applications,* vol. 7, pp. 1577-1593, Dec. 1993.

[22] A. Boag and R. Mittra, "Complex Multipole Beam Approach to Electromagnetic Scattering Problems", *IEEE Trans. Antennas and Propagation,* vol. AP-42, pp. 366-372, March 1994.

[23] A. Boag and R. Mittra, "Complex Multipole Beam Approach to 3D Electromagnetic Scattering Problems", *Journal of the Optical Society of America A,* vol. 11, pp. 1505-1512, April 1994.

[24] A. Boag and R. Mittra, "A Numerical Absorbing Boundary Condition for Finite Difference and Finite Element Analysis of Open Periodic Structures," *IEEE Trans. Microwave Theory Tech.,* vol. 43, pp. 150-154, January 1995.

[25] Am. Boag, Al. Boag, R. Mittra, and Y. Leviatan, "A Numerical Absorbing Boundary Condition for Finite Difference and Finite Element Analysis of Open Structures," *Microwave and Optical Technology Letters,* vol. 7, no. 9, pp. 395-398, June 20 1994.

[26] Am. Boag, Al. Boag, and R. Mittra, "A Numerical Absorbing Boundary Condition for Edge-Based Finite Element Analysis," *Microwave and Optical Technology Letters,* vol. 7, no. 16, pp. 733-737, November 1994.

[27] E. Michielssen and A. Boag, "Multilevel Evaluation of Electromagnetic Fields for the Rapid Solution of Scattering Problems," *Microwave and Optical Technology Letters,* vol. 7, no. 17, pp. 790-795, December 5 1994.

[28] A. Boag, E. Michielssen, and R. Mittra, "Hybrid Multipole-Beam Approach to Electromagnetic Scattering Problems," *Applied Computational Electromagnetics Society Journal,* vol. 9, pp. 7-17, No. 3, 1994.

[29] Al. Boag, Am. Boag, E. Michielssen, and R. Mittra, "Design of Electrically Loaded Wire Antennas Using Genetic Algorithms," *IEEE Trans. Antennas and Propagation,* vol. AP-44, pp. 687-695, May 1996.

[30] E. Michielssen and A. Boag, "A Multilevel Matrix Decomposition Algorithm for Analyzing Scattering from Large Structures," *IEEE Trans. Antennas and Propagation,* vol. AP-44, pp. 1086-1093, August 1996.

[31] A. Boag and R. Mittra, "A Numerical Absorbing Boundary Condition for 3D Edge-Based Finite Element Analysis of Very Low-Frequency Fields," *Microwave and Optical Technology Letters,* vol. 9, pp. 22-27, May 1995.

[32] E. Michielssen, A. Boag, and W. Chew, "Scattering from Elongated Objects: Direct Solution in *O*(*N*log2*N*) Operations," *IEE Proc. Microwaves and Antennas,* vol. 143, no. 4, pp. 277-283, August 1996.

[33] Am. Boag, Al. Boag, and E. Michielssen, "Complex Multipole Beam Approach to Acoustic Scattering Problems," *Journal of the Acoustical Society of America*, vol. 102, pp. 1319-1325, September 1997.

[34] A. Boag, Y. Bresler, and E. Michielssen, “A Multilevel Domain Decomposition Algorithm for Fast Re-projection of Tomographic Images," *IEEE Trans. Image Proc.*, vol. 9, no. 9, pp. 1573-1582, September 2000.

[35] A. Boag, "A Fast Multilevel Domain Decomposition Algorithm for Radar Imaging," *IEEE Trans. Antennas and Propagation,* vol. 49, no. 4, pp. 666-671, April 2001.

[36] J. Pasvolsky, E. Heyman, R. Kastner, and A. Boag, "Electromagnetic Analysis of an Antenna Embedded in a Composite Environment," *IEEE Trans. Antennas and Propagation,* vol. 49, no. 5, pp. 681-687, May 2001.

[37] A. Boag and B. Z. Steinberg, "Narrow Band Micro-Cavity Waveguides in Photonic Crystals", *Journal of the Optical Society of America A,* vol. 18, no. 11, pp. 2799-2805, Nov. 2001.

[38] O. Livne, A. Brandt, and A. Boag, "Multigrid Analysis of Scattering by Large Planar Structures," *Microwave and Optical Technology Letters,* vol. 32, no. 6, pp. 454-458, March 20, 2002.

[39] A. Boag and C. Letrou, “Fast Radiation Pattern Evaluation for Lens and Reflector Antennas,” *IEEE Trans. Antennas and Propagation*, vol. 51, no. 5, pp. 1063-1068, May 2003.

[40] D. Lugara, C. Letrou, A. Shlivinski, E. Heyman, and A. Boag, "Frame-based Gaussian beam summation method: Theory and applications," *Radio Science*, vol. 38, no. 2, Feb. 2003.

[41] A. Boag, "A Fast Iterative Physical Optics (FIPO) Algorithm Based on Non-Uniform Polar Grid Interpolation," *Microwave and Optical Technology Letters*, vol. 35, no. 3, pp. 240-244, Nov. 5, 2002.

[42] D. Lugara, A. Boag, and C. Letrou, "Gaussian beam tracking through curved interface: comparison with a Method of Moments," *IEE Proc. Microwaves and Antennas*, vol. 150, no. 1, pp. 49-55, Feb. 2003.

[43] B. Z. Steinberg, A. Boag, and R. Licitsin, “Sensitivity Analysis of Narrow-Band Photonic Crystal Filters and Waveguides with Structural Variations and Inaccuracies,” *Journal of the Optical Society of America A*, vol. 20, no. 1, pp. 138-146, Jan. 2003.

[44] A. Boag, E. Michielssen, and A. Brandt, "Non-uniform Polar Grid Algorithm for Fast Field Evaluation," *IEEE Antennas and Wireless Propagation Letters*, vol. 1, no. 7, pp. 142-145, 2002.

[45] A. Boag, "A Fast Physical Optics (FPO) Algorithm for High Frequency Scattering," *IEEE Trans. Antennas and Propagation*, vol. 52, no. 1, pp. 197-204, January 2004.

[46] A. Shlivinski, E. Heyman, A. Boag, and C. Letrou, "A Phase-Space Beam Summation Formulation for Ultra Wideband Radiation," *IEEE Trans. Antennas and Propagation*, vol. 52, no. 8, pp. 2042- 2056, August 2004.

[47] A. Boag and E. Michielssen, "A Fast Physical Optics (FPO) Algorithm for Double-Bounce Scattering," *IEEE Trans. Antennas and Propagation,* vol. 52, no. 1, pp. 205-212, January 2004.

[48] A. Boag, U. Shemer, and R. Kastner, "Hybrid Absorbing Boundary Conditions Based on Fast Non-uniform Grid Integration for Non-Convex Scatterers," *Microwave and Optical Technology Letters*, vol. 43, no. 2, pp. 102-106, October 20 2004.

[49] A. Shlivinski, E. Heyman, and A. Boag, "A Phase-Space Beam Summation Formulation for Ultra Wideband Radiation. Part II - A Multi-Band Scheme," *IEEE Trans. Antennas and Propagation*, vol. 53, no. 3, pp. 948-957, March 2005.

[50] A. Boag and C. Letrou, “Multilevel Fast Physical Optics Algorithm for Radiation from Non-planar Apertures,” *IEEE Trans. Antennas and Propagation*, vol. 53, no. 6, pp. 2064-2072, June 2005.

[51] O. Levy, B. Z. Steinberg, M. Nathan, and A. Boag, “Ultra-sensitive displacement sensing using photonic crystal waveguides,” *Applied Physics Letters*, vol. 86, article 104102 (3 pages), March 7, 2005. Also in *Virtual Journal of Nanoscale Science & Technology*, vol. 11, no 10, March 14, 2005.

[52] A. Shlivinski, E. Heyman, and A. Boag, "A Pulsed Beam Summation Formulation for Short Pulse Radiation Based on Windowed Radon Transform (WRT) Frames,"IEEE Trans. Antennas and Propagation, vol. 53, no. 9, pp. 3030-3048, September 2005.

[53] A. Boag, U. Shemer, and R. Kastner, "Non-uniform Grid Accelerated Local-Global Boundary Condition (NG-LGBC) for Acoustic Scattering," *Computer Methods in Applied Mechanics and Engineering*, vol. 195, pp. 3608-3621, June 2006.

[54] A. Agronin, M. Molotskii, Y. Rosenwaks, E. Strassburg, A. Boag, S. Mutchnik, and G. Rosenman, “Nanoscale piezoelectric coefficient measurements in ionic conducting ferroelectrics”, *J. Appl. Phys*, vol. 97, 084312 (6 pages), 7 April 2005.

[55] E. Strassburg, A. Boag, Y. Rosenwaks, “Reconstruction of Electrostatic Force Microscopy Images,” *Review of Scientific Instruments*, vol.76, 083705 (5 pages), 28 July 2005.

[56] A. Schwartsman, T. Glatzel_, E. Grunbaum, E. Strasburg, E. Lepkifker, A. Boag, Z. Barkay, M. Mazzer, K. Barnham, and Y. Rosenwaks, “Nanoscale Potential Distribution across Multi-Quantum Well Structures: Kelvin Probe and Secondary Electron Imaging,” *J. Appl. Phys*.,vol. 98, no. 8, 084310 (4 pages), Oct. 15, 2005. Also in *Virtual Journal of Nanoscale Science & Technology*, vol. 12, no 19, November 7, 2005.

[57] B. Z. Steinberg and A. Boag, “Propagation in Photonic Crystal Coupled Cavity Waveguides with Discontinuities in Optical Properties,” *Journal of the Optical Society of America B*, vol. 23, no. 7, pp. 1442-1450, July 2006. Also in *Virtual Journal of Nanoscale Science & Technology*, vol. 14, no 2, July 11, 2006.

[58] A. Boag, V. Lomakin, and E. Michielssen, “Non-Uniform Grid Time Domain (NGTD) Algorithm for Fast Evaluation of Transient Wave Fields,” *IEEE Trans. Antennas and Propagation*, vol. 54, no. 7, pp. 1943-1951, July 2006.

[59] B. Z. Steinberg, A. Boag, and O. Hershkoviz, “Substructuring approach to optimization of matching for photonic crystal waveguides,” *Microwave and Optical Technology Letters*, vol. 48, no. 9, pp. 1866-1871, Sept. 2006.

[60] A. Boag and B. Livshitz, “Adaptive Non-uniform Grid (NG) Algorithm for Fast Capacitance Extraction,” *IEEE Trans. Microwave Theory and Techniques*, vol. 54, no. 9, pp. 3565-3570, Sept. 2006.

[61] B. Z. Steinberg, A. Shamir, and A. Boag, “Two Dimensional Green’s Function Theory for the Electrodynamics of Rotating Medium,” *Physical Review E,* vol. 74, 016608 (9 pages), July 2006. Also in *Virtual Journal of Nanoscale Science & Technology*, vol. 14, no. 5, July 31, 2006.

[62] B. Z. Steinberg and A. Boag, “Splitting of Micro-Cavity Degenerate Modes in Rotating Photonic Crystals - The Miniature Optical Gyroscopes,” *Journal of the Optical Society of America B*, vol. 24, no. 1, pp. 142-151, January 2007. Also in *Virtual Journal of Nanoscale Science & Technology*, vol. 15, no. 1, January 8, 2007.

[63] O. Levy, B. Z. Steinberg, A. Boag, S. Krylov, and I. Goldfarb, “Mechanical Tuning of Two-Dimensional Photonic Crystal Cavity by Micro Electro Mechanical Flexures,” *Sensors and Actuators A: Physical*, vol. 139, no. 1-2, pp. 47-52, 12 Sept. 2007.

[64] P. Poullet and A. Boag, “Incremental Unknowns Preconditioning for Solving the Helmholtz Equation,” *Numerical Methods for Partial Differential Equations*, vol. 23, no. 6, pp. 1396-1410, 2007.

[65] B. Z. Steinberg, J. Scheuer, and A. Boag, “Rotation Induced Super Structure in Slow-Light Waveguides with Mode Degeneracy,” *Journal of the Optical Society of America B*, vol. 24, no. 5, pp. 1216-1224, May 2007.

[66] A. Shlivinski and A. Boag, “Fast Evaluation of the Radiation Patterns of True Time Delay Arrays with Beam Steering,”IEEE Trans. Antennas and Propagation, vol. 55, no. 12, pp. 3421-3432, December 2007.

[67] A. Shlivinski and A. Boag, “Multilevel Surface Decomposition Algorithm for Rapid Evaluation of Transient Near-Field to Far-Field Transforms,”IEEE Trans. Antennas and Propagation, vol. 57, no. 1, pp. 188-195, January 2009.

[68] B. Livshitz, A. Boag, H. N. Bertram, and V. Lomakin, "NG Algorithm for Fast Calculation of magnetostatic interactions in micromagnetics" * Journal of Applied Physics*, vol. 105, no. 7, April 2009, 07D541 (2009); DOI:10.1063/1.3076048.

[69] A. Neufeld, N. Landsberg, A. Boag, “Dielectric Inserts for Sensitivity and RF Magnetic Field Enhancement in NMR Volume Coils,” * Journal of Magnetic Resonance*, vol. 200, no. 1 pp. 49-55, Sept. 2009.

[70] Y. Brick and A. Boag, “Multilevel non-uniform grid algorithm for acceleration of integral equation based solvers for acoustic scattering,” * IEEE Trans. Ultrasonics, Ferroelectrics, and Frequency Control*, vol. 57, no. 1, pp. 262-273, Jan. 2010.

[71] P. Poullet and A. Boag, “Equation-Based Interpolation and Incremental Unknowns for solving the Helmholtz equation,” *Applied Numerical Mathematics*, vol. 60, pp. 1148–1156, 2010.

[72] S. Shusterman, A. Raizman, A. Sher, A. Schwarzman, O. Azriel, A. Boag, Y. Rosenwaks, P. L. Galindo and Y. Paltiel, “Two-dimensional imaging of III-V quantum dots confinement potential”, *EPL A Letters Journal Exploring the Frontiers of Physics*, vol. 88, 66003 (6 pages), Dec. 2009.

[73] J. Meng, A. Boag, V. Lomakin, and E. Michielssen, "A Multilevel Cartesian Non-uniform Grid Time Domain Algorithm," *J. Comp. Physics*, vol. 229, no. 22, pp. 8430-8444, 1 Nov. 2010.

[74] G. Elias, Th. Glatzel, E. Meyer, A. Boag, and Y. Rosenwaks, “The role of the cantilever in Kelvin probe force microscopy”, * Beilstein J. of Nanotechnology*, vol. 2, pp. 252-260, 2011.

[75] E. Koren, G. Elias, A. Boag, E. Hemesath, L. Lauhon, and Y. Rosenwaks, “Direct measurement of individual deep traps in single silicon nanowires,” *NanoLetters*, vol. 11, pp. 183-187, May 2, 2011.

[76] Z. Iluz and A. Boag, “Dual-Vivaldi wide band nano-antenna with high radiation efficiency over the infrared frequency band,” * Optics Letters*, vol. 36, no 15, pp. 2773-2775, 2011.

[77] E. Koren, N. Berkovitch, O. Azriel, A. Boag, Y. Rosenwaks, E. R. Hemesath, and L. J. Lauhon, “Direct measurement of nanowire Schottky junction depletion region,” *Applied Physics Letters*, vol. 99, 223511, 2011.

[78] Y. Brick and A. Boag, “Fast Direct Solution of 3-D Scattering Problems via Nonuniform Grid-Based Matrix Compression,” * IEEE Trans. Ultrasonics, Ferroelectrics, and Frequency Control*, vol. 58, no. 11, pp. 2405-2417, Nov. 2011.

[79] C. Letrou, V. Khaikin, and A. Boag, “Analysis of the RATAN-600 radiotelescope antenna with a multilevel Physical Optics algorithm,” *Compte Rendus Physique*, vol. 13, pp. 38-45, 2012, doi:10.1016/j.crhy.2011.10.011.

[80] C. Letrou and A. Boag, “Generalized Multilevel Physical Optics (MLPO) for Comprehensive Analysis of Reflector Antennas,” *IEEE Trans. Antennas and Propagation*, vol. 60, no. 2, pp. 1182-1186, February 2012.

[81] Y. Yifat, Z. Iluz, M. Eitan, I. Friedler, Y. Hanein, A. Boag, and J. Scheuer, “Quantifying the radiation efficiency of nano antennas,” *Applied Physics Letters,* vol. 100, 111113, 2012; http://dx.doi.org/10.1063/1.3694278.

[82] N. Costa and A. Boag, “A Cartesian Non-uniform Grid Interpolation Method for Fast Field Evaluation on Elongated Domains,” * International Journal of Numerical Modelling: Electronic Networks, Devices and Fields, *vol. 25, pp. 645-655, 2012.

[83] S. Li, R. Chang, A. Boag, and V. Lomakin, "Fast electromagnetic integral-equation solvers on Graphics Processing Units," *IEEE Antennas and Propagation Magazine*, vol. 54, no. 5, pp. 71-87, 2012.

[84] A. Boag and V. Lomakin, "Generalized Equivalence Integral Equations," *IEEE Antennas and Wireless Propagation Letters*, vol. 11, pp. 1568-1571, 2012.

[85] A. Shemer, I. Gabay, M. Tur, A. Boag, H. Kleinman, S. Zach, Z. Zalevsky, “Mono-detection spatially super resolved microwave imaging for RADAR applications”, * Optics Communications*, vol. 285, pp. 2519-2524, 2012.

[86] E. Chernokozhin and A. Boag, “Method of Generalized Debye Sources for the Analysis of Electromagnetic Scattering by Perfectly Conducting Bodies with Piecewise Smooth Boundaries,” *IEEE Trans. Antennas and Propagation*, vol. 61, no. 4(2), pp. 2108-2115, Apr. 2013.

[87] Y. Yifat, Z. Iluz, D. Bar-Lev, M. Eitan, Y. Hanein, A. Boag, and J. Scheuer, “High load-sensitivity in wideband infrared dual-Vivaldi nanoantennas,” * Optics Letters*, vol. 38, no. 2, pp. 205–207, 2013.

[88] G. Cohen, E. Halpern, S. U. Nanayakkara, J. M. Luther, C. Held, R. Bennewitz A. Boag, and Y. Rosenwaks, “Reconstruction of Surface Potential from Kelvin probe force microscopy images”, * Nanotechnology*, vol. 24, 295702, 2013, doi:10.1088/0957-4484/24/29/295702.

[89] G. Y. Slepyan and A. Boag, “Quantum non-reciprocity of nanoscale antenna arrays in timed Dicke states”, * Physical Review Letters*, vol. 111, 023602, 11 July, 2013.

[90] E. Chernokozhin and A. Boag, “Grid Metastructures for Ultrabroadband Acoustic Cloaking,” *AIP Advances*, vol. 3, no. 9, 092133, 30 Sept., 2013; http://dx.doi.org/10.1063/1.4824322.

[91] P. Poullet and A. Boag, “Equation-Based Interpolation and Incremental Unknowns for Solving the Three-dimensional Helmholtz Equation,” *Applied Mathematics and Computation*. vol. 232C, pp. 1200-1208, Feb., 2014; doi: 10.1016/j.amc.2014.01.084.

[92] Y. Brick, V. Lomakin, and A. Boag, “Fast Green's Function Evaluation for Sources and Observers near Smooth Convex Bodies,” * IEEE Trans. Antennas and Propagation*, vol. 62, no. 6, pp. 3374-3378, June. 2014.

[93] Y. Yifat, M. Eitan, Z. Iluz, Y. Hanein, A. Boag, and J. Scheuer, “Highly efficient and broadband Wide-Angle Holography Using Patch-Dipole Nano-antenna Reflectarrays,” * Nano Letters*, March 19, 2014 (Letter), doi: 10.1021/nl5001696

[94] Y. Brick, V. Lomakin, and A. Boag, “Fast Direct Solver for Essentially Convex Scatterers Using Multilevel Non-uniform Grids,” * IEEE Trans. Antennas and Propagation*, vol. 62, no. 8, pp. 4314-4324, Aug. 2014.

[95] A. Gendelman, Y. Brick, and A. Boag, “Multilevel Physical Optics Algorithm for Near Field Scattering,” * IEEE Trans. Antennas and Propagation*, vol. 62, no. 8, pp. 4325-4335, Aug. 2014.

[96] M. Eitan, Z. Iluz, Y. Yifat, A. Boag, Y. Hanein, and J. Scheuer, “Degeneracy Breaking of Wood’s Anomaly for Enhanced Refractive Index Sensing,” * ACS Photonics*, vol. 2, no. 5, pp. 615-621, April 13, 2015, doi: 10.1021/acsphotonics.5b00091

[97] M. Zuzovski, A. Boag, and A. Natan, “An Auxiliary Grid Method for the Calculation of Electrostatic Terms in Density Functional Theory on a Real-Space Grid,” * Physical Chemistry Chemical Physics*, vol. 17, pp. 31550-31557, 2015, doi: 10.1039/c5cp01090j.

[98] G. Y. Slepyan, A. Boag, V. Mordachev, E. Sinkevich, S. Maksimenko, P. Kuzhir, G. Miano, M. Portnoi, and A. Maffucci, “Nanoscale Electromagnetic Compatibility: Quantum Coupling and Matching in Nanocircuits,” *IEEE Transactions on Electromagnetic Compatibility*, vol. 57, no. 6, pp. 1645-1654, Dec. 2015, doi: 10.1109/TEMC.2015.2460678.

[99] M. Roudstein, Y. Brick, and A. Boag, “Multilevel Physical Optics Algorithm for Near-Field Double-Bounce Scattering,” * IEEE Trans. Antennas and Propagation*, vol. 63, no. 11, pp. 5015-5025, Nov. 2015, doi: 10.1109/TAP.2015.2481491.

[100] E. Chernokozhin, Y. Brick, and A. Boag, “A Fast and Stable Solver for Acoustic Scattering Problems Based on Nonuniform Grid Approach,” *The Journal of the Acoustical Society of America*, vol. 139, no. 1, pp. 472–480, Jan. 2016; http://dx.doi.org/10.1121/1.4939890.

[101] A. Gergel, Y. Brick, and A. Boag, “Fast Antenna Diagnosis Algorithm Using Oblate Spheroidal Non-Uniform Grids,” * IEEE Trans. Antennas and Propagation*, vol. 64, no. 10, pp. 4197-4207, Oct. 2016, doi: 10.1109/TAP.2016.2597644.

[102] G. Y. Slepyan, A. Boag, V. Mordachev, E. Sinkevich, S. Maksimenko, P. Kuzhir, G. Miano, M. Portnoi, and A. Maffucci, “Anomalous electromagnetic coupling via entanglement at nanoscale,” *New Journal of Physics, *vol. 19, p. 023014, Feb. 2017, doi: 10.1088/1367-2630/19/2/023014.

[103] D. Gabay, A. Boag, and A. Natan, “Optimizing kernel methods for Poisson integrals on a uniform grid,” *Computer Physics Communications*, vol. 215, pp. 1-6, 2017, doi:. 10.1016/j.cpc.2017.01.016.

[104] G. Miano, C. Forestiere, A. Boag, G. Slepyan, and A. Maffucci, “On small signal equivalent circuit models for quantum dots,” *International Journal of Circuit Theory and Applications*,** **Special Issue on “Quantum Circuits,” vol. 45, pp. 935-950, 2017, doi: 10.1002/cta.2330.

[105] D. Gabay, X. Wang, V. Lomakin A. Boag, M. Jain, and A. Natan, “Size dependent electronic properties of silicon quantum dots - an analysis with hybrid, screened hybrid and local density functional theory,” *Computer Physics Communications*, vol. 221, pp. 95-101, 2017, doi:. 10.1016/j.cpc.2017.08.005.

[106] M. V. Shuba, A. V. Melnikov, P. P. Kuzhir, S. A. Maksimenko, G. Y. Slepyan, A. Boag, A. Mosca Conte, O. Pulci, S. Bellucci, “Integral equation technique for scatterers with mesoscopic insertions: Application to a carbon nanotube,” *Physical Review B, *vol. 96, p. 205414, 2017.

[107] I. Gershenzon, Y. Brick, and A. Boag, “Shadow Radiation Iterative Physical Optics Method for High Frequency Scattering,” * IEEE Trans. Antennas and Propagation*, vol. 66, no. 2, pp. 871-883, Feb. 2018, doi: 10.1109/TAP.2017.2784439.

[108] A. Mikhalychev, D. Mogilevtsev, G. Y. Slepyan, I. Karuseichyk, G. Buchs, D. L. Boiko, and A. Boag, “Synthesis of Quantum Antennas for Shaping Field Correlations,” *Physical Review Applied*, vol. 9 p. 024021, Feb. 2018.

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Last modified: Tue Mar 27, 2018