Prof Ehud
Heyman
List of
Publications
Book
Editing
E.Heyman, J.Shiloh and B.Mandelbaum,
Ultra-Wideband, Short-pulse Electromagnetics 4, Plenum Press, NY, 1999, 458p.
S. Maci, E.Heyman and H.Bertoni, Special issue on
Propagation in complex Media: A tribute to Professor L.B. Felsen,
IEEE Trans. Antennas Propagat., AP-55(6). Guest Editorial on pages 1478-1487.
Chapters
in Books
1.
L.B. Felsen and E. Heyman, “Hybrid ray mode analysis of transient scattering problems,” in
Handbook on Acoustic, Electromagnetic and Elastic Wave Scattering - Low and
High Frequency Asymptotics, V.K. and V.V. Varadan, eds., Elsevier Science Publishers B.V., North
Holland, The Netherlands, 1986, Chap.5, 403-512.
2.
E. Heyman, G. Friedlander
and L.B. Felsen, “Ray-mode analysis of complex
resonances of an open cavity,” in Radar Cross Section of Complex Objects, W.R.
Stone ed., IEEE Press, 1990, 383-398.
3.
E. Heyman and T. Melamed,
“Space-time representation of ultra-wideband signals,” in Advances in Imaging
and Electron Physics, P.W. Hawkes ed., 103, 1-66, Academic Press, 1998.
4.
E. Heyman, “Pulsed beam
solutions for propagation and scattering problems,” in Scattering: Scattering
and Inverse Scattering in Pure and Applied Science, R.Pike and P.Sabatier, eds., Academic Press, 1,Chap.1.5.4,
295-315, 2002.
Articles
1.
E. Heyman and L.B. Felsen, “Creeping waves and resonances in transient
scattering by smooth convex objects,” IEEE Trans. Antenna. Propagat., AP-31, 426-437,
1983.
5.
E. Heyman and L.B. Felsen, “Evanescent waves and complex rays for modal
propagation in curved open waveguides,” SIAM J. Appl. Math.,43,
855-884, 1983.
6.
E. Heyman and L.B. Felsen,
“High frequency fields in the presence of curved dielectric interface,” IEEE
Trans. Antenna. Propagat., AP-32, 969-978, 1984.
7.
E. Heyman, “On the
tunneling hypothesis for ray reflection and transmission at a curved dielectric
boundary,” IEEE Trans. Antenna Propagat., AP-32,
978-986, 1984.
8.
E. Heyman and L.B. Felsen, “Non-dispersive approximation for transient ray
fields in an inhomogeneous medium,” in Hybrid Formulation of Wave Propagation
and Scattering, NATO ASI, Series E, Vol. 86, Nijhoff Pub. Co., The Hague, Netherlands, 1984, 269-284.
9.
E. Heyman and L.B. Felsen, “Wavefront interpretation
of SEM resonances, turn-on times and entire functions,” in Hybrid Formulation
of Wave Propagation and Scattering, NATO ASI, Series E, Vol. 86, Nijhoff Pub. Co., The Hague, Netherlands, 1984, 253-267.
10.
E. Heyman and L.B. Felsen, “Non dispersive closed form approximation for
transient propagation and scattering of ray fields,” Wave Motion, 7, 335-358,
1985.
11.
E. Heyman and L.B. Felsen, “A wavefront interpretation of the Singularity Expansion Method,” IEEE Trans. Antennas Propagat., AP-33,706-718, 1985.
12.
E. Heyman and L.B. Felsen, “Travelling waves and SEM representations for
transient scattering by a circular cylinder,” J. Acoust.
Soc. Am., 79, 230-238, 1986.
13.
E. Heyman and L.B. Felsen, “Propagating pulsed beam solution by complex source
parameter substitution,” IEEE Trans. Antennas Propagat.,
AP-34, 1062-1065, 1986.
14.
E. Heyman and L.B. Felsen, “Weakly dispersive spectral theory of transients
(STT). Part I: Formulation and interpretation,” IEEE Trans. Antennas Propagat., AP-35, 80-86, 1987.
15.
E. Heyman and B.Z.
Steinberg, “A spectral analysis of complex source pulsed beams,” J. Opt. Soc.
Am. A, 4, 473-480, 1987. “Reply to comment,” J. Opt. Soc. Am. A, 5, 757, 1988.
16.
E. Heyman and L.B. Felsen, “Weakly dispersive spectral theory of transients
(STT). Part II: Evaluation of the spectral integral,” IEEE Trans. Antennas Propagat., AP-35, 574-580, 1987.
17.
E. Heyman, “The Hybrid wavefront-resonance method,” in Theoretical Aspects of
Target Classification, L.B. Felsen, ed., AGARD
Lecture Series No. 152, 4.1-4.24, 1987.
18.
E. Heyman, B.Z. Steinberg
and L.B. Felsen, “Spectral analysis of focus wave
modes (FWM),” J. Opt. Soc. Am. A, 4, 2081-2091, 1987.
19.
E. Heyman, “Weakly
dispersive spectral theory of transients (STT), Part III: Applications,” IEEE
Trans. Antennas Propagat., AP 35, 1258-1266, 1987.
20.
E. Heyman and L.B. Felsen, “Real and complex spectra - an alternative view of
WKBJ seismograms,” Geophys. J. Roy. Astro. Soc., 91, 1087-1126, 1987.
21.
L.B. Felsen and E. Heyman, “Discretized beam methods for focused radiation from distributed
aperture,” SPIE Proc., 873 (Microwaves and Particle Beam Sources and
Propagation), 320-328, 1988.
22.
R. Kastner, E. Heyman and
A. Saban, “Spectral domain iterative analysis of
single and double layered microstrip antennas using
the conjugate gradient algorithm,” IEEE Trans. Antennas Propagat.,
AP-36, 1204-1212, 1988.
23.
B.Z. Steinberg, E. Heyman
and L.B. Felsen, “Phase space methods for radiation
from apertures,” SPIE Proc., 1061 (Microwaves and Particle Beam Sources and
Directed Energy Concepts), 1989.
24.
E. Heyman, R. Ianconescu and L.B. Felsen,
“Pulsed beam interaction with propagation environments: Canonical examples of
reflection and diffraction,” SPIE Proc., 1061 (Microwave and Particle Beam
Sources and Directed Energy Concepts), 1989.
25.
E. Heyman, “Complex source
pulsed beam expansion of transient radiation,” Wave Motion, 11, 337-349, 1989.
26.
E. Heyman, G. Friedlander
and L.B. Felsen, “Ray-mode analysis of complex
resonances of an open cavity,” The Proceedings of the IEEE, 77, 780-787, 1989. (Invited).
27.
E. Heyman and L.B. Felsen, “Complex source pulsed beam fields,” J. Opt. Soc.
Am. A, 6, 806-817, 1989.
28.
E. Heyman, “The focus wave
mode: A dilemma with causality,” IEEE Trans. Antennas Propagat.,
AP-37, 1604-1608, 1989.
29.
E. Heyman, B.Z. Steinberg
and R. Ianconescu, “Electromagnetic complex source
pulsed beam fields,” IEEE Trans. Antennas Propagat.,
AP-38, 957-963, 1990.
30.
E. Heyman and R. Ianconescu, “Pulsed beam reflection and transmissions at a
dielectric interface: part I. Two dimensional fields,” IEEE
Trans. Antennas Propagat., AP-38, 1791-1800, 1990.
31.
B.Z. Steinberg, E. Heyman
and L.B. Felsen, “Phase space beam summation for
time-harmonic radiation from large apertures,” J. Opt. Soc. Am. A, 8, 41-59 1991.
32.
E. Heyman, “Complex source
pulsed beams: Properties and applications,” Radio Science, 26, 237-248, 1991,
(Invited).
33.
B.Z. Steinberg, E. Heyman
and L.B. Felsen, “Phase space methods for radiation
from large apertures,” Radio Science, 26, 219-222, 199, (Invited).
34.
B.Z. Steinberg, E. Heyman
and L.B. Felsen, “Phase space beam summation for time
dependent radiation from apertures: Continuous parametrization,”
J. Opt. Soc. Am., 8, 943-958, 1991.
35.
B.Z. Steinberg and E.
Heyman, “Phase space beam summation for time dependent radiation from large
apertures: Discretized parametrization,” J. Opt. Soc.
Am. A, 8, 959-966, 1991.
36.
I. Beracha and E. Heyman, “Hermite pulsed beam expansion of well
collimated pulsed radiation,” Proc. SPIE, (Intense Microwave and Particle Beams
IIII), 1629, 352-357, 1992.
37.
E. Heyman, “Complex source
pulsed beams: Propagation scattering and applications,” in Directions in
electromagnetic wave modeling, H.L.Bertoni and L.B. Felsen eds., Plenum Press, 1991, 87-100.
38.
T. Melamed and E. Heyman,
“Phase-Space beam summation for time harmonic and time-dependent radiation from
extended apertures: 3D formulation,” Proc. SPIE, Intense Microwave and Particle
Beams III, 1629, 336-357, 1992.
39.
E. Heyman and I. Beracha, “Complex multipole pulsed
beams and Hermite pulsed beams: A novel expansion
scheme for transient radiation from well collimated apertures,” J. Opt. Soc.
Am. A, 9, 1779-1793, 1992.
40.
G. Friedlander and E.
Heyman, “Hybrid wavefront-resonance representation
for transient scattering by an open cavity. Part I: Formulation,” J. Electromagn. Waves Applic., 7, 355-372, 1993.
41.
G. Friedlander and E.
Heyman, "Hybrid wavefront-resonance
representation for transient scattering by an open cavity. Part II: Numerical
results and interpretation,” J. Electromagn. Waves Applic., 7, 561-576, 1993.
42.
E. Heyman and G.
Friedlander, “Hybrid wavefront-resonance
representation for transient scattering by an open cavity. Part III: Analytical
models for the late time oscillations,” J. Electromagn.
Waves Applic., 7, 703-715, 1993.
43.
B.Z. Steinberg and E.
Heyman, “The local Radon transform and variable scale resolution with
application to time-dependent radiation” , SIAM J.
Appl. Math., 53, 381-400, 1993.
44.
E. Heyman, R. Strachielevitz and D. Koslof,
“Pulsed beam reflection and transmission at a planar interface: Exact solutions
and approximate local models,” Wave Motion, 18, 315-343, 1993.
45.
E. Heyman, “On general wavepacket solutions of the time dependent wave equation in
homogeneous and inhomogeneous media,” in Ultra-Wideband, Short-pulse
Electromagnetics, H.L. Bertoni, L. Carin and L.B. Felsen eds.,
Plenum Press, NY, 1993, 241-250.
46.
E. Heyman, “Pulsed beam
propagation in can inhomogeneous medium,” IEEE Trans. Antennas Prop,, AP-42, 311-319. 1994.
47.
E. Heyman and T. Melamed,
“Certain consideration in aperture synthesis for ultra wideband/short-pulsed
fields,” IEEE Trans. Antennas Propagat., AP-42,
518-525, 1994.
48.
R. Ianconescu and E. Heyman, “Pulsed field diffraction by a perfectly conducting wedge: A
spectral theory of transient (STT) analysis,” IEEE Trans. Antennas Propagat., AP-42, 781-789, 1994.
49.
R. Ianconescu and E. Heyman, “Pulsed beam diffraction by a perfectly conducting wedge. Exact
Solution,” IEEE Trans. Antennas Propagat., AP-42, 1377-1385, 1994.
50.
E. Heyman and L.B. Felsen, “Comments on: `Nondispersive waves - interpretation and causality” , IEEE Trans.
Antennas and Propagat., AP-42, 1668-1670, 1994.
51.
E. Heyman and R. Ianconescu, “Pulsed beam diffraction by a perfectly
conducting wedge. Local scattering models,” IEEE Trans.
Antennas Propagat. , AP-43, 519-528, 1995.
52.
Y. Leviatan, Z. Baharav and E. Heyman, “Analysis of electromagnetic
scattering using arrays of fictitious sources,” IEEE Trans. Antennas and Propagat., AP-43, 1091-1098, 1995.
53.
H. Sato H. Shirai and E. Heyman, “Transient impulsive response from an
interface between two media - Spectral theory of transient analysis,” IEICE
Trans. on Electronics, Series C-I, J78, 439-447, 1995.
54.
E.A. Marengo, F. Anthony,
A.J. Devaney and E. Heyman, “Radiation
characteristics of collimated, ultrawideband, volume
sources,” in Ultra-Wideband, Short-pulse Electromagnetics II, L. Carin, and L.B. Felsen, eds.,
Plenum Press, NY, 1995, 321-330.
55.
E. Heyman, “Transient plane
wave spectrum representation for radiation from volume source distribution,” J.
Math. Phys., 37, 658-681, 1996.
56.
E. Heyman and A.J. Devaney, “Time-dependent multipoles and their application for transient radiation,” J. Math. Phys.,
37, 682-692, 1996.
57.
J. Oz and E. Heyman, “Modal
solution to the plane wave two-frequency mutual coherence function in random
media,” Radio Science (invited), 31, 1907-1918, 1996.
58.
T. Melamed, Y. Ehrlich and
E. Heyman, “Short pulse inversion of inhomogeneous media: A time-domain
diffraction tomography,” Inverse Problems, 12, 977-993, 1996.
59.
J. Oz and E. Heyman, “Modal
theory for the two-frequency mutual coherence function in random media. General solution and plane wave solution,” Waves in Random Media,
7, 79-93, 1997.
60.
J. Oz and E. Heyman, “Modal
theory for the two-frequency mutual coherence function in random media. Plane wave solution (Part II),” Waves in Random Media, 7, 95-106,
1997.
61.
T. Melamed and E. Heyman,
“Spectral analysis of time-domain diffraction tomography,” Radio Science
(invited), 32, 593-604, 1997.
62.
E.A. Marengo, A.J. Devaney and E. Heyman, “Analysis and characterization of ultrawideband scalar volume sources and the fields they
radiate,” IEEE Trans. Antennas and Propagat., AP-45, 1098-1106, 1997.
63.
A. Shlivinski, E. Heyman
and R. Kastner, “A unified antenna parameterization in the time and frequency
domains,” IEEE Trans. Antennas and Propagat., AP-45, 1140-1149, 1997.
64.
B. Fidel, E. Heyman, R.
Kastner and R.W. Ziolkowski, “Hybrid ray-FDTD moving
window approach to pulse propagation,” J. Comp. Phys. D., 138, 480-500, 1997.
65.
J. Oz and E. Heyman, “Modal
theory for the two-frequency mutual coherence function in random media. Beam waves,” Waves in Random Media, 8, 159-174, 1998.
66.
J. Oz and E. Heyman,
“Wigner Ville distribution for pulsed propagation in random media,” Waves in
Random Media, 8, 175-191, 1998.
67.
E.A. Marengo, A.J. Devaney and E. Heyman, “Analysis and characterization of ultrawideband scalar volume sources and the fields they
radiate: Part II - square pulse excitation,” IEEE Trans. Antennas and Propagat., AP-46, 243-250, 1998.
68.
A. Shlivinski and E.
Heyman, “Time domain near field analysis of short pulse antennas. Part I:
Spherical wave (multipole) expansion,” IEEE Trans.
Antennas and Propagat., AP-47, 271-279, 1999.
69.
A. Shlivinski and E.
Heyman, “Time domain near field analysis of short pulse antennas. Part II:
Reactive energy and the antenna $Q$,” IEEE Trans. Antennas and Propagat., AP-47, 280-286, 1999.
70.
G.A. Tsihrintzis,
A.J. Devaney and E Heyman, “Estimation of object
location from short pulse scatter data,” IEEE Trans. Image Processing, 8,
996-1001, 1999.
71.
T. Melamed, E. Heyman and
L.B. Felsen, “Local spectral analysis of
short-pulse-excited scattering from weakly inhomogeneous media: Part I -
Forward scattering,” IEEE Trans. Antennas and Propagat., AP-47, 1208-1217,
1999.
72.
T. Melamed, E. Heyman and
L.B. Felsen, “Local spectral analysis of
short-pulse-excited scattering from weakly inhomogeneous media: Part II -
Inverse scattering,” IEEE Trans. Antennas and Propagat., AP-47, 1218-1227,
1999.
73.
A. Shlivinski and E.
Heyman, “Energy considerations in space-time synthesis of collimated pulsed
apertures,” in Ultra-Wideband, Short-pulse Electromagnetics 4, E.Heyman, J.Shiloh and B.Mandelbaum, eds., Plenum Press, NY, 1999, 65-76.
74.
B.P. de Hon, E. Heyman and
L.B. Felsen, “Spectral alternatives for the synthesis
of short-pulse wavefields in waveguides,” in
Ultra-Wideband, Short-pulse Electromagnetics 4, E.Heyman, J.Shiloh and B.Mandelbaum,
eds., Plenum Press, NY, 1999, 289-300.
75.
A. Arev,
E. Heyman and B-Z. Steinberg, “A mixed time-frequency-scale analysis of the
hybrid wavefront resonance theory,” in
Ultra-Wideband, Short-pulse Electromagnetics 4, E.Heyman, J.Shiloh and B.Mandelbaum,
eds., Plenum Press, NY, 1999, 361-370.
76.
E. Heyman, V. Lomakin, and Gerald Kaiser, “Physical source realization of
complex source pulsed beams,” J. Acoust. Soc. Am,
107, 1880-1891, 2000.
77.
Y. Pemper,
V. Lomakin, E. Heyman, R. Kastner and R.W. Ziolkowski, “Moving coordinate frame FDTD analysis of long
range tracking of pulsed fields in graded index waveguides,” Progress in
Electromagnetic Research (PIER). 26, 135-166, 2000. Extended Abstract: J. Electromagn. Waves Applic., 14, 493-496, 2000.
78.
Y. Pemper,
E. Heyman, R. Kastner and R.W. Ziolkowski, “Hybrid
ray-FDTD moving coordinate frame approach for long range tracking of collimated wavepackets,” Progress in Electromagnetic Research
(PIER). 30, 1-32, 2001. Extended
Abstract: J. Electromagn. Waves Applic., 14, 1115-1117, 2000.
79.
J. Pasvolsky,
E. Heyman, R. Kastner and A. Boag, “Electromagnetic analysis of an antenna
embedded in a composite environment,” IEEE Trans. Antennas Propagat.,
AP-49, 681-687, 2001 .
80.
R.Holtzman, R.Kastner, E.Heyman and
R.W. Ziolkowski, “Stability analysis of the green's
function method (GFM) used as an ABC for arbitrarily-shaped boundaries,” IEEE
Trans. Antennas Propagat., AP-50, 1017-1029, 2002
81.
E. Heyman and L.B. Felsen, “Gaussian beam and pulsed beam dynamics: Complex
source and spectrum formulations within and beyond paraxial asymptotics,”
J. Opt. Soc. Am. A, 18, 1588-1611, 2001.
82.
A. Shlivinski, E. Heyman
and A.J. Devaney, “Time domain plane wave to multipole transform,” J. Mat. Phys., 42,
5915-5919, 2001.
83.
R.W. Ziolkowski and E. Heyman, “Wave propagation in media having negative permittivity and
permeability,” Phys. Rev. E, 64(5): DOI: 10.1103/Phys Rev E.64.056625, 2001
84.
A. Shlivinski and E.
Heyman, “Discrete array representation of a continuous space-time source
distributions,” Electrik, Special issue on
Electromagnetic Problems & Numerical Simulation Techniques, 10(2), 257-271,
2002, invited.
85.
A. Shlivinski and E.
Heyman, “A unified kinematic theory of transient array,” in Ultra-Wideband,
Short-pulse Electromagnetics 5, P.D Smith and S.R. Cloude Eds., Kluwer Academic/Plenum Publishers, NY, 2002, 11-20.
86.
A. Shlivinski and E.
Heyman, “Analytical methods for antenna analysis and synthesis in the time
domain,” in Ultra-Wideband, Short-pulse Electromagnetics 5, P.D Smith and S.R. Cloude Eds., Kluwer Academic/Plenum Publishers, NY, 2002,
327-334.
87.
V. Lomakin,
B. Z. Steinberg and E. Heyman, “UWB analysis of EM fields in complex laminates:
An MRA homogenization approach,” in Ultra-Wideband, Short-pulse
Electromagnetics 5, P.D Smith and S.R. Cloude Eds.,
Kluwer Academic/Plenum Publishers, NY, 2002, 67-74.
88.
D. Lugara,
C. Letrou, A. shlivinski,
E. Heyman, and A. Boag, “The frame based Gaussian beam summation method: theory
and application,” Radio Science, 38(2), VIC27/1-15, 2003. doi:10.1029/2001RS002593.
89.
A. Shlivinski, E. Heyman,
A. Boag, and C. Letrou, “Frame-based beam-summation
algorithms for ultra wideband radiation from extended apertures. Part I:
Formulations in the multi-frequency domain,” in Ultra-Wideband, Short-pulse
Electromagnetics 6, E.L.Mokole, M.Kragalott and K.R.Gerlach eds., Kluwer Academic Plenum
Publishers NY, 2003, 101-112.
90.
A. Shlivinski, E. Heyman,
A. Boag, and C. Letrou, “Frame-based beam-summation
algorithms for ultra wideband radiation from extended apertures. Part II: Time
domain formulation,” in Ultra-Wideband, Short-pulse Electromagnetics 6, E.L.Mokole, M.Kragalott and K.R.Gerlach eds., Kluwer Academic / Plenum Publishers NY,
2003, 113-122.
91.
V. Lomakin,
B.Z. Steinberg and E.Heyman, “Multi-resolution
homogenization (MRH) for short pulse field and fault interrogation in complex
laminates,” in Ultra-Wideband, Short-pulse Electromagnetics 6, E.L.Mokole, M.Kragalott and K.R.Gerlach eds., Kluwer Academic Plenum Publishers NY,
2003, 203-214.
92.
V. Lomakin,
B.Z. Steinberg, E. Heyman and L.B. Felsen,
“Multi-resolution homogenization of field and network formulations for
multi-scale laminate dielectric slabs, I: Field theory,” IEEE Trans. Antennas Propagat., AP-51, 2761-2777, 2003.
93.
A. Shlivinski, E. Heyman,
A. Boag and C. Letrou, “A phase-space beam summation formulation for wideband radiation, IEEE
Trans. Antennas Propagat., AP-52, 2042-2056, 2004.
94.
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 Propagat., AP-53, 948-957, 2005.
95.
G. Gordon, E. Heyman, and
R. Mazar, “A phase-space Gaussian Beam summation
representation of rough surface scattering,” J. Acoustical Soc. Am., 117,
1911-1921, 2005.
96.
G. Gordon, E. Heyman, and
R. Mazar, “Phase space beam summation analysis of
rough surface waveguide,” J. Acoustical Soc. Am., 117, 1922-1932, 2005.
97.
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 Propagat., AP-53, 3030-3048, 2005.
98.
M. Katsav, A. Shlivinski,
and E. Heyman, “The UWB Beam summation algorithms for focusing near curved
interfaces,” Radio Science 40(6), RS6S11, doi:
10.1029/2004RS003204, , 2005. (invited to the special issue dedicated to the URSI 2004 Triennium Symposium on
Electromagnetic Theory).
99.
R. Holtzman,
R. Kastner, E. Heyman, and R. W. Ziolkowski,
“Ultra-wideband cylindrical antenna design using the Green’s function method
(GFM) as an absorbing boundary condition (ABC) and the radiated field
propagator in a genetic optimization,” Microwave Opt. Tech. Lett. 48(2), 348-354, 2006.
100.
T. Heilpern,
E. Heyman, and V. Timchenko, “A beam summation
algorithm for wave radiation and guidance in stratified media,” J. Acoust. Soc. Am., 121(4), 1856-1864, 2007.
101.
M. Katsav and E. Heyman,
“Phase space Gaussian beam summation analysis of half plane diffraction,” IEEE
Trans. Antennas Propagat.. AP-55, 1535-1545, 2007 (invited).
102.
M. Katsav and E. Heyman,
“Gaussian beam summation representation of a two-dimensional Gaussian beam
diffraction by a half plane,” IEEE Trans. Antennas Propagat.,
AP-55(8), 2247-2257, 2007.
103.
M. Katsav and E. Heyman, “A
beam summation representation for 3-D radiation from a line source distribution,”
IEEE Trans. Antennas Propagat., AP-56(2), 602-605,
2008.
104.
Y. Shlivinski and E.
Heyman, “Physical models for polarimetric SAR
analysis,” IEEE Trans. Antennas Propagat., AP-56(8),
2664-2672, 2008.
105.
A. Shlivinski and E.
Heyman, “Windowed Radon transform frames,” Applied and Computational Harmonic
Analysis (ACHA), 26, 322-343, 2009. doi:10.1016/j.acha.2008.07.003
106.
M. Katsav and E. Heyman,
“Gaussian Beam Summation Representation of Half Plane Diffraction: a Full 3D
Formulation,” IEEE Trans. Antennas Propagat., AP-57(4), 1081-1094, 2009. doi:10.1109/TAP.2009.2013436
107. Y. Kaganovsky and E. Heyman, “Wave analysis of Airy beams,” Optics Express, 18 (8), 8440-8452, 2010. http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-18-8-8440
108.
S. Malevsky, E.
Heyman and R. Kastner “Source decomposition as a diakoptic boundary condition in FDTD with Reflecting External Regions,” IEEE Trans.
Antennas Propagat., AP-58(11), 3602-3609, 2010.
doi:10.1109/TAP.2010.2052577
109.
Y Gluck and E. Heyman,
“Pulsed beams expansion algorithm for transient radiation. A basic algorithm
and a standard-pulsed-beams algorithm,” IEEE Trans. Antennas Propagat., AP-59(4), 1356-1371, 2011.
doi:10.1109/TAP.2010.2090475
110.
Y. Kaganovsky and E.
Heyman, “Airy pulsed beams,” J. Opt. Soc. Am. A, 28(6), 1243-1255,
2011.
111.
T. Heilpern,
A. Shlivinski and E. Heyman, “Beam based back-propagation imaging,” Inverse
Problems, submitted.
Return to:
[Ehud Heyman's home page | Department of Electrical Engineering - Physical Electronics | Faculty of Engineering ]
Last Modified: November 2011