Published:
1.
B. Fischer, O. Werner, M. Horowitz, and A.
Lewis, “Passive transverse-mode-locking in a photorefractive oscillator with saturable absorption,“ Appl. Phys.
Lett. Vol. 58, 2729-2731, 1991.
2.
M. Horowitz, D. Kligler,
and B. Fischer, “Time dependent behavior of photorefractive two
and four-wave mixing,“ J. Opt. Soc. of Am. B , Vol. 8, 2204-2217,
1991.
3.
M. Horowitz, R. Daisy, O. Werner, and B.
Fischer, “Large thermal nonlinearities and spatial
self-phase modulation in SrxBa1-x Nb2 O6 and BaTiO3 crystals,“ Opt.
Lett. Vol. 17, 475-477, 1992.
4.
M. Horowitz, R. Daisy, and B. Fischer, “Signal to pump ratio dependence of the buildup
and erasure of photorefractive nonlinear two-beam coupling,“ J. Opt.
Soc. of Am. B, Vol. 9, 1685-1688, 1992.
5.
O. Werner, M. Horowitz, and B. Fischer,
“Optical Multistability with Nonlinear Birefringence
in a Cavityless System,“
Opt. Lett. Vol. 17, 1186-1188, 1992.
6.
M. Horowitz and B. Fischer, “Parametric
scattering with constructive and destructive light patterns induced by two
mutually incoherent beams in photorefractive crystals,“
Opt. Lett. Vol. 17, 1082-1084, 1992.
7.
M. Horowitz, A. Bekker, and B. Fischer, “Broadband second harmonic generation in
SrxBa1-x Nb2O6 by spread spectrum phase matching with controllable domain
gratings,“ Appl. Phys. Lett. Vol. 62,
2619-2621, 1993.
8.
M. Horowitz, A. Bekker, and B. Fischer, “Image and hologram fixing method with SrxBa1-x
Nb2 O6 crystals,“ Opt. Lett. Vol. 18,
1964-1966, 1993.
9.
B. Fischer and M. Horowitz, “Controllable
narrowband and broadband second harmonic generation by tailored quasi-phase
matching with domain gratings,“ Appl. Phys.
Lett. Vol. 64, 1756-1758, 1994.
10.
M. Horowitz, R. Daisy, B. Fischer and J. Zyskind, “Narrow
linewidth, single mode erbium-doped fiber laser with intracavity
wave-mixing in saturable absorber,“ Elect.
Lett. Vol. 30, 648-649, 1994.
11.
M. Horowitz, R. Daisy, B. Fischer, and J. Zyskind, “Linewidth
narrowing mechanism in lasers by nonlinear wave mixing,“
Opt. Lett. Vol. 19, 1404-1406, 1994.
12.
M. Horowitz and B. Fischer, “Simultaneous generation of sum, difference and
harmonics of two laser frequencies,“ Appl.
Phys. Lett., Vol. 65, 679-681, 1994.
13.
M. Shtaif, M. Horowitz, R. Nagar, and G.
Eisenstein, “An Optically triggered oscillator based on wave coupling in a
semiconductor optical amplifier,“ IEEE Journal of Quantum Electronics, Vol. 30,
2188-2193, 1994.
14.
M. Snowbell, M. Horowitz, and B. Fischer,
“Dynamics of Multi Two Wave Mixing in Photorefractive Materials,“ J. Opt. Soc.
of Am. B, Vol. 11, 1972-1982, 1994.
15.
M. Horowitz, R. Daisy, and B. Fischer, “Filtering behavior of self-induced three-mirror
cavity formed by intracavity in a saturable
absorber,“ Opt. Lett., Vol. 21, 299-301, 1996.
16.
M. Horowitz, B. Fischer, Y. Barad, and Y. Silberberg,
“Photorefractive effect in a BaTiO3
crystal at the 1.5 mm wavelength regime by two photon absorption,“ Opt. Lett., Vol. 21, 1120-1122, 1996.
17.
Y. Mitnick, M.
Horowitz, and B. Fischer, “Bistability in cavities
with erbium-doped fiber amplifiers due to bidirectional pump-beam
interference,“ J. Opt. Soc. of Am. B, Vol. 14, 2079-83, 1997.
18.
M. Horowitz, A.Craplyvy,
B. Tkach, and J. Zyskind, “Broadband transmitted intensity noise induced
by stokes and anti-stokes Brillouin scattering in single-mode fibers,“ IEEE PTL, Vol 9, 124-126, 1997.
19.
M.
Horowitz, Y. Barad, and Y. Silberberg, “Noiselike pulses with a broadband spectrum generated from an
erbium-doped fiber laser,'' Opt. Lett., Vol.22, 799-801,
1997.
20.
Y.
Barad, H. Eisenbeg, M .Horowitz and Y. Silberberg, “Nonlinear microscopy based on third harmonic
generation,“ Appl. Phys. Lett., Vol. 70, 922-924, 1997.
21.
M.
Horowitz and Y. Silberberg, “Nonlinear
Filtering Using Intensity Dependent Polarization Rotation in Birefringent
Fibers,“ Opt. Lett., Vol. 22, 1760-1762,
1997.
25.
M.
Horowitz and Y. Silberberg, “Control of Noiselike Pulse Generation in
Erbium-doped fiber lasers,“ IEEE PTL, Vol. 10,
1389-1391, 1998.
26.
M.
Horowitz, C. R. Menyuk, and S. Keren, “Modeling the saturation induced by broad-band
pulses amplified in an erbium-doped fiber amplifier,“ IEEE Photon.
Technol. Lett., Vol. 11, pp. 1235-1237, 1999.
27.
M.
Horowitz and C. R. Menyuk, “Analysis of pulse dropout in harmonically
modelocked fiber lasers using Lyapunov's method,“ Opt. Lett., Vol.
25, 40-42, 2000.
28.
M.
Horowitz, C. R. Menyuk, T. F. Carruthers, and I. N. Duling,
“Pulse dropout in harmonically modelocked fiber
lasers,“
IEEE Photon. Technol. Lett. March, 2000.
30.
M.
Horowitz, C. R. Menyuk, T. F. Carruthers, and I. N. Duling,
“Theoretical and experimental study of
harmonically modelocked fiber lasers for optical communication systems“, IEEE Journal of Lightwave
Technology, Vol. 18, pp. 1565-1574, 2000. Invited paper.
31.
S. Keren
and M. Horowitz, “Interrogation of fiber gratings using
low-coherence spectral interferometry,“ Opt. Lett., Vol
26, pp. 328-330, 2001.
32.
Y. Levy, E. Brand, S. Keren,
M. Horowitz, and B. Levit, “Data storage and reconstruction by use of low-coherence
spectral interferometry,“ Opt. Lett., Vol 27, pp.
125-127, 2002.
34.
V. Goloborodko,
S. Keren, and M. Horowitz, “Measuring temperature profiles in high power
optical fiber components,“
Applied Optics, Vol.42, pp. 2284-2288, May 2003.
35.
O.
Levinson and M. Horowitz, “Generation of complex microwave and
millimeter wave pulses using dispersion and Kerr effect in optical fibers,“
IEEE Journal of Lightwave Technology, pp. 1179-1187, May 2003.
36.
S.
Keren, A. Rosenthal, and M. Horowitz, “Measuring the structure of highly reflecting
fiber Bragg gratings,“
IEEE Photonics Technology Letters, Vol. 15, pp. 575-577, 2003.
37.
A. Rosenthal
and M. Horowitz, “Inverse scattering algorithm for reconstructing
strongly reflecting fiber Bragg gratings,“
IEEE J. Quantum Electronics, Vol. 39, pp. 1018-1026, Aug. 2003.
40. A. Rosenthal and M. Horowitz, ``Inverse scattering algorithm for reconstructing lossy fiber Bragg gratings,'' J. Opt. Soc. of Am. A , Vol. 21, 552–560, 2004.
42.
A. Rosenthal and M. Horowitz, ``New technique to accurately interpolate the
complex reflection spectrum of fiber Bragg gratings,'' IEEE J.
Quantum Electronics, Vol. 40, pp. 1099-1104, Aug. 2004.
43.
A. Rosenthal and M. Horowitz, ``Reconstruction of a fiber Bragg grating for
noisy reflection data,'' J. Opt. Soc. of Am. A , Vol. 22, 84-92, 2005.
44.
A. Zeitouny, S.
Stepanov, O. Levinson, and M. Horowitz, ``Optical generation of linearly chirped microwave
pulses using fiber Bragg gratings,'' IEEE Photonics Technology
Letters, Vol. 17, pp. 660-662, 2005.
45.
A. Zeitouny, Y. Parkhomenko, and M. Horowitz, ``Stable operating region in an harmonically actively mode-locked fiber laser,Stable
operating region in an harmonically actively mode-locked fiber laser,'' IEEE J. Quantum Electronics, Vol.
41, pp. 1380-1387, Nov. 2005.
46.
A. Zeitouny, A. Feldser, and M. Horowitz, ``Optical sampling of narrowband
microwave signals using pulses generated by electroabsorption
modulators Optical
sampling of narrowband microwave signals using pulses generated by electroabsorption
modulators,''
Optics Communications, Volume 256, Issues 4-6, pp. 248-255, Dec. 2005.
47.
A. Rosenthal, M. Horowitz, S. Lange, and
C. Shaffer ``Experimental
reconstruction of a long-period grating from its core-to-core transmission
spectrum,'' Optics Letters, Vol. 23, No. 1, pp. 3272-3274, 2005.
48.
A. Rosenthal and M. Horowitz, ``Reconstruction
of long-period fiber gratings from their core-to-core transmission function,'' J. Opt. Soc. Amer. A, Vol. 23,
No. 1, pp. 57-68, 2006.
49. A. Rosenthal
and M. Horowitz, ``Analysis and design of nonlinear fiber Bragg
gratings and their application for optical compression of reflected pulses,’’
Optics
Letters, Vol. 31, No. 9, pp. 1334-1336, 2006.
50. E. Levy and M. Horowitz, ```Layer Peeling Algorithm for
Reconstructing the Birefringence in Optical Emulators,’’ J. Opt. Soc. of Am. B , Vol. 23, pp.
1531-1539, 2006.
51. A. Zeitouny and M. Horowitz, ``Experimental study of a pulse recovery from dropout in an
actively mode-locked fiber laser,Experimental study of a pulse recovery from dropout
in an actively mode-locked fiber laser,'' IEEE Journal of
Lightwave Technology, Vol. 24, pp.
3671-3676, October 2006.
52. A.
Rosenthal and M. Horowitz,
``Bragg-soliton formation and pulse compression
in a one-dimensional periodic structure,'' Phys. Rev. E, Vol. 74, 066611, 2006.
53. A. Sherman,
A. Rosenthal, and M. Horowitz, "Extracting
the structure of highly reflecting fiber Bragg gratings by measuring both the
transmission and the reflection Spectra," Opt. Lett. Mar. 2007.
54. Y. Parkhomenko, M. Horowitz, C. R. Menyuk, and T. F.
Carruthers, “Theoretical study of an
actively mode-locked fiber laser stabilized by an intracavity
Fabry-Perot etalon – Linear regime,” J. Opt.
Soc. Amer. B, Vol. 24, pp. 1793–1802, 2007.
55. Y.
Shapira and M. Horowitz, ``Optical AND gate based on soliton interaction in a fiber Bragg
grating,'' Optics Letters, Vol. 32,
Vol. 10, pp. 1211-1213, 2007.
56. A. Rosenthal, M. Horowitz, S. Kieckbusch, and E. Brinkmeyer, ''Experimental reconstruction of a highly
reflecting fiber Bragg grating by using spectral regularization,''
J. Opt. Soc. Am. B, Vol. 24, pp. 3284–3288, 2007.
57. A. Rosenthal and M. Horowitz, ``Efficient method for launching in-gap solitons
in fiber Bragg gratings,'' Opt. Lett., Vol. 33, pp. 678–680, 2008.
58. Y. Shapira and M. Horowitz, ``Two soliton interaction in the vicinity of a
defect inside a fiber Bragg grating and its application for obtaining an
all-optical memory,'' Opt. Lett., Vol. 33, pp. 675–677, 2008.
59. Z. Toroker and M. Horowitz, ``Optimized split-step method for modeling pulse
propagation in fiber Bragg gratings,'' J. Opt. Soc. Amer. B, Vol.
25, pp. 448–457, 2008.
60. A. Rosenthal, A. Linden,
and M. Horowitz, ``Multi-rate asynchronous sampling of sparse
multi-band signals,'' J. Opt. Soc. Amer. A, Vol. 25, pp.
2320–2330, 2008.
61. A. Mizrahi, M. Horowitz, L. Schächter, ``Torque and longitudinal force exerted by
eigenmodes on circular waveguides,'' Phys. Rev. A, Vol. 78, 023802, 2008.
62. E. Levy, M.
Horowitz, and C.R. Menyuk, ``Noise distribution in the radio-frequency
spectrum of opto-electronic
oscillators,'' Opt. Lett., Vol. 33, pp. 2883–2885, 2008.
63. E. Levy, M.
Horowitz, and C. R. Menyuk, ``Modeling Optoelectronic oscillators,''
J. Opt. Soc. Amer. B, Vol. 26, pp. 148–159, 2009.
64. A. Feldster, Y. P. Shapira, M. Horowitz, and A. Rosenthal ``Optical
under-sampling and reconstruction of several bandwidth-limited signals,'' IEEE J. Lightwave
Technol. Vol. 27, pp. 1027–1033, 2009.
65. I. Hirsch and M.
Horowitz, ``Design
of planar waveguides with prescribed mode-profile using inverse scattering
theory,''Design of planar
waveguides with prescribed mode-profile using inverse scattering theory,'' IEEE J. Quantum Electronics, Vol. 45, pp.
1133–1141, 2009.
66. Y.P. Shapira and M.
Horowitz, ``Pulse propagation in a fiber Bragg
grating written in a slow saturable amplifier,'' Opt. Lett.
Vol. 34, pp. 3113–3115, 2009.
67. M. Fleyer, A. Linden, M.
Horowitz, and A. Rosenthal, ``Multirate
synchronous sampling of sparse multiband signals,'' IEEE Tran. on Signal Processing. Vol. 58, pp.
1144–1156, 2010.
70. E. Levy, K. Okusaga, M. Horowitz, C.R. Menyuk, W. Zhou, and G.M. Carter, ``Comprehensive
computational model of single- and dual-loop optoelectronic oscillators with
experimental verification,'' Optics Express, Vol. 18, pp. 16929–16945, 2010.
71. K. Okusaga,
E. J. Adles, E. C. Levy, W. Zhou, G. M. Carter,
C. R. Menyuk, and M. Horowitz, ``Spurious mode reduction in dual
injection-locked optoelectronic oscillators,'' Optics Express, Vol. 19, pp.
5839–5854, 2011.
72. Y.P. Shapira and M. Horowitz, ``Propagation of quasi-solitons in a fiber Bragg
gratings written in a slow-saturable fiber amplifier,'' Phys.
Rev. A Vol. 83, 053803 (2011) (7 pages).
73. A. David and M. Horowitz, ``Low-frequency transmitted intensity noise
induced by stimulated Brillouin scattering in optical fibers,'' Optics Express, Vol. 9, 11792–11803,
2011.
74. E. C. Levy and M. Horowitz, ``Single-cycle
radiofrequency pulse generation by optoelectronic oscillator,'' Optics Express, Vol.
18, pp. 17599-17608, 2011.
75. Y. Shapira
and M. Horowitz, ``Self-similar amplification in fiber Bragg gratings written
in fiber amplifiers,'' Opt. Lett., Vol. 37, 3024–3026, 2012.
76. E. Levy and
M. Horowitz, ``Theoretical
and experimental study of passive mode-locked optoelectronic oscillator,''
J. Opt. Soc. Amer. B, Vol. 30, pp. 107–112, 2012.
77. E. Levy and
M. Horowitz, ``Synchronization between two coupled delay-line
oscillators,'' Phys. Rev. E. Vol.
86, 066209, 2012.
78. A. Sherman
and M. Horowitz, ``Ultralow-repetition-rate
pulses with ultralow jitter generated by passive mode-locking of an
optoelectronic oscillator,’’ J. Opt. Soc. Amer. B, Vol. 30, pp.
2980–2983, 2013.
79. A. Sherman
and M. Horowitz, ``Optical under-sampling by using a broadband
optical comb with a high average power,'' Optics Express, Vol. 22,
15502–15513, 2014
80. Y.P.
Shapira, D. Oscar, B. Spektor, V. Smulakovsky, and M. Horowitz, ``Measurement of resonant and non-resonant
induced refractive index changes in Yb-doped fiber
grating amplifier,'' Opt.
Lett, Vol. 40, pp. 526–529, 2015.
81. M. Fleyer,
J.P. Kahill, M. Horowitz, C.R. Menyuk, and K. Okusaga, ``Comprehensive
model for studying noise induced by self-homodyne detection of backward
Rayleigh scattering in optical fibers,'' Optics Express, Vol. 23,
25635–25652, 2015.
82. Y.P.
Shapira, V. Smulakovsky, and M. Horowitz, ``Experimental demonstration of nonlinear pulse
propagation in a fiber Bragg grating written in a fiber amplifier,'' Opt. Lett, Vol. 41, pp. 5–8, 2016.
83. M. Flyer, S. Heerschap,
M. Horowitz, and G.A. Cranch, ``Noise
induced in optical fibers by double Rayleigh scattering of a laser with a 1/ f
^n frequency noise,'' Opt. Lett, Vol. 41, pp. 526–529, 2016.
84. M. Fleyer. A. Sherman, M. Horowitz, M. Namer,
``Wideband-frequency tunable optoelectronic
oscillator based on injection locking to an electronic oscillator,'' Opt. Lett, Vol. 41, pp. 1993–1995, 2016.