PUBLICATIONS of LAZAR FRIEDLAND

2024
169. O. Reved, L. Friedland, and N.C. Stone	Resonant Capture of Stars by Black Hole Binaries: Extreme Eccentricity Excitation	arXiv: astro-ph.HE/2410.12911v1 (2024)	pdf
168. L. Friedland and A.G. Shagalov	Spacetime quasicrystals in Bose-Einstein condensates	Phys. Rev. Research 6, 023054 (2024)	pdf
167. A.G. Shagalov and L. Friedland	Autoresonant generation of solitons in Bose-Einstein condensates by modulation of the interaction strength	Phys. Rev. E 109, 014201 (2024)	pdf
2023
166. N. Paldor and L. Friedland	Wind-driven transport on the rotating spherical Earth	Phys. Fluids 35, 056604 (2023)	pdf
165. N. Paldor and L. Friedland	Extension of Ekman (1905) wind-driven transport theory to the beta-plane	Ocean Science 196, 93 (2023)	pdf
2022
164. V.R. Munirov, L. Friedland, and J.S. Wurtele	Multiphase nonlinear electron plasma waves	Phys. Rev. E 106, 055201 (2022)	pdf
163. A.G. Shagalov and L. Friedland	Parametric autoresonant generation of dark solitons	Phys. Rev. E 106, 024211 (2022)	pdf
162. V.R. Munirov, L. Friedland, and J.S. Wurtele	Autoresonant excitation of space-time quasicrystals in plasma	Phys. Rev. Research 4, 023150 (2022)	pdf Physics
2021
161. L. Friedland and A.G. Shagalov	Transient precessing domain structures in finite-size nanomagnets and inversion of magnetization	Phys. Rev. B 104, 054405 (2021)	pdf
2020
160. T. Armon and L. Friedland	Quantum versus classical chirps in a Rydberg atom	Phys. Rev. A 102, 052817 (2020)	pdf
159. L. Friedland and A.G. Shagalov	Standing autoresonant plasma waves	J. Plasma Phys. 86, 825860301 (2020)	pdf
2019
158. L. Friedland, G. Marcus, J.S. Wurtele, and P. Michel	Excitation and control of large amplitude standing ion acoustic waves	Phys. Plasmas 26, 092109 (2019)	pdf SciLight
157. A.G. Shagalov and L. Friedland	Narrow autoresonant magnetization structures in finite-length ferromagnetic nanoparticles	Phys. Rev. E 100, 032208 (2019)	pdf
156. T. Armon and L. Friedland	Quantum versus classical effects in the chirped-drive discrete nonlinear Schrodinger equation	Phys. Rev. A 100, 022106 (2019)	pdf
155. L. Friedland, and A.G. Shagalov	Excitation and control of large-amplitude standing magnetization waves	Phys. Rev. B 99, 014411 (2019)	pdf
2018
154. S.V. Batalov, A.G. Shagalov, and L. Friedland	Autoresonant excitation of Bose-Einstein condensates	Phys. Rev. E 97, 032210 (2018)	pdf
2017
153. T. Armon and L. Friedland	Quantum versus classical dynamics in the optical centrifuge	Phys. Rev. A 96, 033411 (2017)	pdf
152. G. Klughertz, L. Friedland, P. Hervieux, and G. Manfredi	Spin-torque switching and control using chirped AC currents	J. Phys. D 50, 415002 (2017)	pdf
151. L. Friedland, and A.G. Shagalov	Extreme driven ion acoustic waves	Phys. Plasmas 24, 082106 (2017)	pdf SciLight
150. G. Manfredi, O. Morandi, L. Friedland, T. Jenke, H. Abele	Chirped-frequency excitation of gravitationally bound ultracold neutrons	Phys. Rev. D 95, 025016 (2017)	pdf
2016
149. T. Armon and L. Friedland	Chirped resonance dynamics in phase space	J. Plasma Phys. 82, 705820501 (2016)	pdf
148. L. Friedland, and A.G. Shagalov	Parametric autoresonant excitation of the nonlinear Schrodinger equation	Phys. Rev. E 94, 042216-1:10 (2016)	pdf
147. T. Armon and L. Friedland	Capture into resonance and phase space dynamics in an optical centrifuge	Phys. Rev. A 93, 043406-1:9 (2016)	pdf
2015
146. L. Friedland, A.G. Shagalov, and S.V. Batalov	Anomalous auotoresonance threshold for chirped-driven Korteweg-de-Vries waves	Phys. Rev. E 92, 042924-1:5 (2015)	pdf
145. G. Klughertz, L. Friedland, P. Hervieux, and G. Manfredi	Autoresonant switching of the magnetization in single-domain nanoparticles: Two-level theory	Phys. Rev. B 91, 104433-1:7 (2015)	pdf
144. M.A. Borich, A.G. Shagalov, and L. Friedland	Autoresonant excitation of dark solitons	Phys. Rev. E 91, 012913-1:6 (2015)	pdf
2014
143. I. Barth and L. Friedland	Quantum phenomena in a chirped parametric oscillator	Phys. Rev. Lett. 113, 040403-1:5 (2014)	pdf
142. L. Friedland, and A.G. Shagalov	Excitation and control of chirped nonlinear ion-acoustic waves	Phys. Rev. E 89, 053103-1:4 (2014)	pdf
141. R. Uzdin, L. Friedland, O. Gat,	First-harmonic approximation in nonlinear chirped-driven oscillators	Phys. Rev. E 89, 012902-1:9 (2014)	pdf
2013
140. O. Yaakobi, L. Friedland, C. Macklin, and I. Siddiqi	Erratum: Parametric amplification in Josephson junction embedded transmission lines	Phys. Rev. B 88, 219904-1:2 (2013)	pdf
139. I. Barth and L. Friedland	Two-photon ladder climbing and transition to autoresonance in a chirped oscillator	Phys. Rev. A 87, 053420-1:4 (2013)	pdf
138. ALPHA collaboration	Experimental and computational study of the injection of antiprotons into a positron plasma for antihydrogen production	Phys. Plasmas 20, 043510-1:11 (2013)	pdf
137. O. Yaakobi, L. Friedland, C. Macklin, and I. Siddiqi	Parametric amplification in Josephson junction embedded transmission lines	Phys. Rev. B 87, 144301-1:9 (2013)	pdf
2012
136. P. Khain, L. Friedland, A.G. Shagalov, and J.S. Wurtele	Nonlocal, kinetic stimulated Raman scattering in nonuniform plasmas: Averaged variational approach	Phys. Plasmas 19, 072319-1:11 (2012)	pdf
135. Y. Shalibo, Y. Rofe, I. Barth, L. Friedland, R. Bialczack, J.M. Martinis, and N. Katz	Quantum and classical chirps in an anharmonic oscillator	Phys. Rev. Lett. 108, 037701-1:5 (2012)	pdf
2011
134. I. Barth, L. Friedland, O. Gat, and A.G. Shagalov	Quantum versus classical phase-locking transition in a frequency-chirped nonlinear oscillator	Phys. Rev. A 84, 013837-1:8 (2011)	pdf
133. K. March, R. Vijay, I. Barth, O. Naaman, J. Aumentado, L. Friedland, and I. Siddiqi	Quantum fluctuations in the chirped pendulum	Nature Physics Volume: 7, 105–108 (2011)	pdf
2010
132. O. Yaakobi and L. Friedland	Autoresonance of coupled nonlinear waves	AIP Proceedings 1320, 97-103 (2010)	pdf
131. P. Khain and L. Friedland	Averaged variational principle for autoresonant BGK modes	Phys. Plasmas 17, 102308-1:12 (2010)	pdf
130. O. Yaakobi and L. Friedland	Autoresonant four-wave mixing in optical fibers	Phys. Rev. A 82, 023820-1:8 (2010)	pdf
129. A. Barak, Y. Lamhot, L. Friedland, and M. Segev	Autoresonant propagation of incoherent light-waves	Optics Express 18, 17709-17718 (2010)	pdf
2009
128. I. Barth, L. Friedland, E. Sarid, and A.G. Shagalov	Autoresonant transition in the presence of noise and self-fields	Phys. Rev. Lett. 103, 155001-1:4 (2009)	pdf
127. A. Barak, Y. Lamhot, L. Friedland, and M. Segev	Autoresonant dynamics of optical guided waves	Phys. Rev. Lett. 103, 123901-1:4 (2009)	pdf
126. O. Yaakobi and L. Friedland	Equal energy phase space trajectories in resonant wave interactions	Phys. Plasmas 16, 052306-1:7 (2009)	pdf
125. L. Friedland	Autoresonance in nonlinear systems	Scholarpedia 4(1), 5473 (2009)	web
124. A.G. Shagalov and L. Friedland	Autoresonant excitation of multi-phase waves in the sine-Gordon model	Physica D 238, 1561-1568 (2009)	pdf
2008
123. O. Yaakobi and L. Friedland	Multidimensional, autoresonant three-wave interactions	Phys. Plasmas 15, 102104-1:9 (2008)	pdf
122. L. Friedland	Efficient capture of nonlinear oscillations into resonance	J. Phys. A: Math. Theor. 41, 415101-1:8 (2008)	pdf
121. O. Naaman, J. Aumentado, L. Friedland, J.S. Wurtele, and I. Siddiqi	Phase-locking transition in a chirped superconducting Josephson resonator	Phys. Rev. Lett. 101, 117005-1:4 (2008)	pdf
120. I. Barth, L. Friedland, and A.G. Shagalov	A water bag model of driven phase space holes in non-neutral plasmas	Phys. Plasmas 15, 082110-1:6 (2008)	pdf
119. M.A. Borich and L. Friedland	Driven, chirped vorticity holes	Phys. Fluids 20, 086602-1:11 (2008)	pdf
118. O. Yaakobi, L. Friedland R.R. Lindberg, A.E. Charman, G. Penn, and J.S. Wurtele	Spatially autoresonant stimulated Raman scattering in nonuniform plasmas	Phys. Plasmas 15, 032105-1:6 (2008)	pdf
2007
117. P. Khain and L. Friedland	A water bag theory of autoresonant BGK modes	Phys. Plasmas 14, 082110-1:6 (2007)	pdf
116. I. Barth and L. Friedland	Multiresonant control of two-dimensional dynamical systems	Phys. Rev. E 76, 016211-1:8 (2007)	pdf
115. O. Yaakobi, L. Friedland, and Z. Henis	Driven autoresonant three-oscillator interactions	Phys. Rev. E 76, 026205-1:9 (2007)	pdf
114. V.V. Gorgadze, L. Friedland, and J.S. Wurtele	Autoresonant control of a pre-excited diocotron mode	Phys. Plasmas 14, 082317-1:10 (2007)	pdf
113. M. Khasin and L. Friedland	Removal of resonances by rotation in linearly-degenerate 2D oscillator systems	J. Math. Phys. 48, 042701-1:11 (2007)	pdf
2006
112. R.R. Lindberg, A.E. Charman, J.S. Wurtele, L. Friedland, and B.A. Shadwick	Autoresonant beat-wave generation	Phys. Plasmas 13, 123103-1:12 (2006)	pdf
111. L. Friedland, P. Khain, and A.G. Shagalov	Autoresonant phase-space holes in plasmas	Phys. Rev. Lett. 96, 225001-1:4 (2006)	pdf
110. L. Friedland and A.G. Shagalov	Emergence and control of breather and plasma oscillations by synchronizing perturbations	Phys. Rev. E 73, 066612-1:8 (2006).	pdf
109. G. Marcus, A. Zigler, and L. Friedland	Molecular vibrational ladder climbing using a sub-nanosecond chirped laser pulse	Europhys. Lett. 74, 43-48 (2006).
2005
108. L. Friedland	From the pendulum to Rydberg accelerator and planetary dynamics: autoresonant formation and control of nonlinear states	Proc. of the Symposium: PhysCon2005 (invited), St. Petersburg, Russia, 2005.	pdf
107. Y. Gopher, L. Friedland, and A.G. Shagalov	Multiphase autoresonant excitations in discrete nonlinear Schrodinger systems	Phys. Rev. E 72, 036604-1:15 (2005)	pdf
106. G. Marcus, L. Friedland, and A. Zigler	Autoresonant excitation and control of molecular degrees of freedom in 3D	Phys. Rev. A 72, 033404-1:9 (2005)	pdf
105. F. Peinetti, W. Bertsche, J. Fajans, J. Wurtele, and L. Friedland	Numerical studies of driven, chirped BGK modes	Phys. Plasmas 12, 062112-1:9 (2005)	pdf
104. L. Friedland and A.G. Shagalov	Excitation of multiphase waves of nonlinear schrodinger equation by capture into resonances	Phys. Rev. E 71, 036206-1:12 (2005)	pdf
2004
103. L. Friedland	Autoresonant excitation and control of nonlinear waves	Proc. of the Symposium: Frontiers of Nonlinear Physics (invited), Nizhny Novgorod, Russia, 2004.	pdf
102. L. Friedland, F. Peinetti, W. Bertsche, J. Fajans, and J. Wurtele	Driven phase space holes and synchronized Bernstein, Greene, and Kruskal modes	Phys. Plasmas 11, 4305-4317 (2004)	pdf
101. R.R. Lindberg, A.E. Charman, J.S. Wurtele, and L. Friedland	Robust autoresonant excitation in the plasma beat-wave accelerator	Phys. Rev. Lett. 93, 055001-1:4 (2004)	pdf
100. G. Marcus, L. Friedland, and A. Zigler	From quantum ladder climbing to classical autoresonance	Phys. Rev. A 69, 013407-1:5 (2004)	pdf
2003
99. M. Khasin and L. Friedland	Multiphase control of a nonlinear lattice	Phys. Rev. E 68, 066214-1:13 (2003)	pdf
98. W. Bertsche, J. Fajans, and L. Friedland	Direct excitation of high-amplitude chirped bucket-BGK modes	Phys. Rev. Lett. 91, 265003-1:4 (2003)	pdf
97. L. Friedland and A.G. Shagalov	Emergence and control of multiphase nonlinear waves by synchronization	Phys. Rev. Lett. 90, 074101-1:4 (2003)	pdf
2002
96. E. Grosfeld and L. Friedland	Spatial control of a classical electron state in a Rydberg atom by adiabatic synchronization	Phys. Rev. E 65, 046230-1:8 (2002)	pdf
95. L. Friedland and A.G. Shagalov	Emergence of nonuniform V-states by synchronization	Phys. Fluids 14, 3074-3086 (2002)	pdf
2001
94. J. Fajans, E. Gilson, and L. Friedland	The effect of damping on autoresonant excitation	Phys. Plasmas 8, 423-427 (2001)	pdf
93. L. Friedland	Migration timescale thresholds for resonant capture in the Plutino problem	Astrophys.J. Lett. 547, L75-L79 (2001)	pdf
92. J. Fajans and L. Friedland	Autoresonant (nonstationary) Excitation of Pendulums, Plutinos, Plasmas, and Other Nonlinear Oscillators	Am. J. Phys. 69, 1096-1102 (2001)	pdf
2000
91. L. Friedland and A.G. Shagalov	Resonant Formation and Control of 2D Symmetric Vortex Waves	Phys. Rev. Lett. 85, 2941-2944 (2000)	pdf
90. J. Fajans, E. Gilson, and L. Friedland	Second Harmonic Autoresonant Control of the l=1 Diocotron Mode in Pure Electron Plasmas	Phys. Rev. E62, 4131-4136 (2000)	pdf
89. L. Friedland, J. Fajans, and E. Gilson	Subharmonic Autoresonance of the Diocotron Mode	Phys. Plasmas 7, 1712-1718 (2000)	pdf
88. L. Friedland	Subharmonic Autoresonance	Phys. Rev. E61, 3732-3735 (2000)	pdf
1999
87. E. Nakar and L. Friedland	Passage Through Resonance and Autoresonance in x²ⁿ-type Potentials	Phys. Rev. E60, 5479-5485 (1999)	pdf
86. J. Fajans, E. Gilson, and L. Friedland	Autoresonant (Nonstationary) Excitation of a Collective Nonlinear Mode	Phys. Plasmas 6, 4497-4503 (1999)	pdf
85. J. Fajans, E. Gilson, and L. Friedland	Autoresonant (Nonstationary) Excitation of the Diocotron Mode in Non-neutral Plasmas	Phys. Rev. Lett. 82, 4444-4447 (1999)	pdf
84. U. Rokni and L. Friedland	Double Autoresonance in Two-Dimensional Dynamical Sysytems	Phys. Rev. E59, 5242-5252 (1999)	pdf
83. L. Friedland	Control of Kirchhoff Vortices by a Resonant Strain	Phys. Rev. E59, 4106-4111 (1999)	pdf
1998
82. L. Friedland and A.G. Shagalov	Excitation of Solitons by Adiabatic Multiresonant Forcing	Phys. Rev. Lett. 81, 4357-4360 (1998)	pdf
81. L. Friedland	Autoresonant Solutions of Nonlinear Schrodinger Equation	Phys. Rev. E58, 3865-3875 (1998)	pdf
80. L. Friedland	Resonant Excitation and Control of High Order Dispersive Nonlinear Waves	Phys. Plasmas 5, 645-658 (1998)	pdf
79. L. Friedland	Autoresonance of Coupled Nonlinear Waves	Phys. Rev. E57, 3494-3501 (1998)	pdf
1997
78. L. Friedland	Autoresonant Excitation and Evolution of Nonlinear Waves: The Variational Approach	Phys. Rev. E55 1929-1939 (1997)	pdf
1995
77. L. Friedland	Multidimensional Autoresonant Mode Conversion	Phys. Plasmas 2, 1393-1397 (1995)	pdf
1994
76. L. Friedland	Spatial Autoresonance Cyclotron Accelerator	Phys. Plasmas 1, 421-428 (1994)	pdf
75. L. Friedland	Autoresonant Wave Interactions in Nonuniform Plasmas	AIP Proceedings 345, 327-334 (1994)	pdf
74. L. Friedland, C.I. Ciubotariu, and M. Bacal	Dynamic plasma response in laser-photodetachment experiments in hydrogen plasmas	Phys. Rev. E49, 4353-4361 (1994)	pdf
1993
73. S. Yariv and L. Friedland	Autoresonant Interaction of Three Coupled Nonlinear Oscillators	Phys. Rev. E48, 3072-3076 (1993)	pdf
72. L. Friedland, A.N. Kaufman, and J.J. Morehead	Enhanced Decay Instability and Mode Conversion to a Strongly Damped Wave	AIP Proceedings (1993)
1992
71. L. Friedland	Autoresonant Three-Wave Interactions	Phys. Rev. Lett. 69, 1749-1752 (1992)	pdf
70. L. Friedland	Spatial Autoresonance: Enhancement of Mode Conversion Due to Nonlinear Phase-Locking	Phys. Fluids B4, 3199-3209 (1992)	pdf
69. L. Friedland and A. Bers	Hermitian Description of Interacting Inhomogeneous Electron Beams	Phys. Fluids B4, 1457-1464 (1992)	pdf
68. L. Friedland and D. Cohen	A Class of Conservative Tunneling Problems	Phys. Fluids B4, 24-34 (1992)	pdf
1991
67. R. Shpitalnik, C. Cohen, F. Dothan and L. Friedland	Autoresonance Microwave Accelerator	J. Appl. Phys. 70, 1101-1106 (1991)	pdf
66. H. Eizenkiet and L. Friedland	Space and Time Evolution of Electron Distributions in Gases with Large Inelastic-Collision Cross Sections	Phys. Rev. A44, 1257-1265 (1991)	pdf
1990
65. L. Friedland and R.E. Shefer	Electron-beam Confinement by Rotational Stabilization in a Linear Wiggler Free Electron Laser	J. Appl. Phys. 68, 4958 (1990)	pdf
64. S. Yariv and L. Friedland	Electron Beam Transport in Gas Loaded Free Electron Lasers	Phys. Fluids B2 , 3114-3119 (1990)	pdf
63. L. Friedland	Three-Dimensional Transmission of the Fast Wave in the Ion Cyclotron Resonance Plasma Heating	Phys. Fluids B2, 1204-1209 (1990)	pdf
62. B. Meerson and L. Friedland	Strong Autoresonance Excitation of Rydberg Atoms: The Rydberg Accelerator	Phys. Rev. A41, 5233-5236 (1990)	pdf
1989
61. G. Goldner and L. Friedland	Congruent Reduction in Parametrically Unstable Space and Time Varying Plasmas	Phys. Fluids B1, 1600-1604 (1989)	pdf
60.L. Friedland, J.H. Jacob, and J.A. Mangano	Volumetric Stability of Two-Step Ionization Dominated Discharges	J. Appl. Phys. 65, 3790-3797 (1989)	pdf
59. H. Eizenkiet andL. Friedland,	Anisotropy of Velocity Distributions in Weakly Ionized Gases With Large Inelastic Cross Sections	Phys. Rev. A39, 3541-3547 (1989)	pdf
58. R. Shpitalnik, J.L. Hirshfield, and L. Friedland	Isochronous Electron Cyclotron Acceleration	Particle Accelerators 25, 1 (1989)
1988
57. L. Friedland	Gyroresonant Absorption From Congruent Reduction of an Anisotropic Pressure Fluid Model	Phys. Fluids 31, 2615-2624 (1988)	pdf
56. A. Loeb and L. Friedland,	Nonlinear Dynamics of Dense Electron Beams in the Autoresonance Laser Accelerator	Phys. Lett. A, 129, 329-332 (1988)	pdf
55. R.E. Shefer, L. Friedland, and R.E. Klinkowstein	Evolution of High Current, Cold Cathode Diodes to Steady State	Phys. Fluids 31, 930-939 (1988)	pdf
1987
54. L. Friedland and A.N. Kaufman	Congruent Reduction in Geometric Optics and Mode Conversion	Phys. Fluids 30, 3050-3058 (1987)	pdf
53. A. Loeb, L. Friedland, and S. Eliezer	Acceleration of Electron-Positron Plasmas to High Energies	IEEE Tr. Plasma Science PS-15, 238-242 (1987)	pdf
52. A.N. Kaufman and L. Friedland,	Phase-Space Solution of the Linear Mode Conversion Problem	Phys. Lett. A123, 387-389 (1987)	pdf
51. L. Friedland and A.N. Kaufman	Congruent Reduction and Mode Conversion in 4-Dimensional Plasmas,	AIP Proceedings 159 (1987)
50. L. Friedlandand H. Eizenkiet	New Perturbation Expansion for Anisotropic Electron Distribution Functions in Weakly Ionized Plasmas	Phys. Rev. A36, 1351-1359 (1987)	pdf
49. L. Friedland, G. Goldner, and A.N. Kaufman	Four-Dimensional Eikonal Theory of Linear Mode Conversion	Phys. Rev. Lett. 58, 1392-1396 (1987)	pdf
48. M. Geva, C. Cohen, O. Danziger, F. Dothan, L. Friedland, L. Levin, S. Marshak, and J.L. Hirshfield	Vacuum Arc Plasma Centrifuge for Element and Isotop Separation	IEEE Tr. Plasma Science PS-15, 583 (1987)	pdf
47. A. Loeb, L. Friedland, and S. Eliezer	Autoresonance Laser Acceleration of Guided Quasi-Neutral Electron-Positron Beams	Phys. Rev. A35, 1692-1696 (1987)	pdf
1986
46. L. Friedland and G. Goldner	Reduction of Order in the Geometric Optics of Plasmas	Phys. Fluids 29, 4073-4084 (1986)	pdf
45. A. Loeb and L. Friedland,	Autoresonance Laser Accelerator	Phys. Rev. A33, 1828-1835 (1986)	pdf
44. L. Friedland	Linear Mode Conversion and Singularities of Geometric Optics Approximation in Plasmas	Phys. Fluids 29, 1105-1112 (1986)	pdf
43. P. Avivi, C. Cohen, and L. Friedland	Velocity Distribution and Energy Diagnostics in Relativistic Guided Electron Beams	Rev. Scient. Instruments 57, 346-348 (1986)	pdf
42. L. Friedland and Yu.M. Kagan,	Reduced Kinetic Description of Electron Multiplication in Gases	J. Phys. D 19, 1019-1028 (1986)	pdf
1985
41. H.R. Strauss, L. Friedland, and M. Kishinevsky,	Toroidally Linked Mirrors	Phys. Fluids 28, 3594-3597 (1985)	pdf
40. A. Goldring and L. Friedland	Electromagnetically Pumped Free Electron Laser with Guide MagneticField	Phys. Rev. A32, 2879-2886 (1985)	pdf
39. L. Friedland	Renormalized Geometric Optics Description of Mode Conversion in Weakly Inhomogeneous Plasmas	Phys Fluids 28, 3260-3268 (1985)	pdf
38. L. Friedland and Yu.M. Kagan	Diffusion of Electrons in a Gas in the Field of an Intense Coherent Radiation	Phys. Rev. A31, 1810-1815 (1985)	pdf
1984
37. A. Fruchtman and L. Friedland,	Simplified Small Signal Gain Calculations in Free Electron Lasers	Int. J. Infrared and Millimeter Waves 5, 683-690 (1984)	pdf
36. L. Friedland	Correspondence Principle in Free Electron Lasers	Phys. Rev. A29, 1310-1314 (1984)	pdf
35. L. Friedland and Yu.M. Kagan	Theory of Electron Multiplication in Gases in Weakly Nonuniform Strong Electric Fields	J. Appl. Phys. 56, 742-745 (1984)	pdf
34. G. Hazak, L. Friedland, and I.B. Bernstein,	A Uniform Integral Representation for Geometric Optics Solutions Near Caustics	Phys. Fluids 27, 129-132 (1984)	pdf
1983
33. P. Avivi, C. Cohen, and L. Friedland	Drift Velocity Measurements in Relativistic Electron Beams	Appl. Phys. Lett. 42, 948-949 (1983)	pdf
32. I.B. Bernstein and L. Friedland	Geometric Optics in Space and Time Varying Plasmas	Chapter 2.5 in Handbook of Plasma Physics (R.N. Sagdeev and M.N. Rosenbluth: Editors, North-Holland Publ. Co., Amsterdam, 1983) Vol. I, pp. 367-418.	pdf
31. L. Friedland and Yu.M. Kagan	Generalized Theory of First Townsend Ionization Coefficient in Strong Electric Fields	J. Appl. Phys. 54, 4947-4950 (1983)	pdf
30. A. Fruchtmanand L. Friedland,	Theory of Wiggler-Free Collective Free Electron Laser in Uniform Magnetic Field	IEEE J. Quantum Electron. QE-19, 327-333 (1983)	pdf
1982
29. A. Fruchtman and L. Friedland	Amplification of Frequency Upshifted Radiation by Cold Relativistic Electron Beams	J. Appl. Phys. 53, 4011-4015 (1982)	pdf
28. L. Friedland and I.B. Bernstein	Non-Linear Theory of Free Electron Laser with Guide Magnetic Field	Phys. Rev. A26, 2778-2786 (1982)	pdf
27. L. Friedlandand A. Fruchtman	Amplification on Relativistic Electron Beams in Combined Helical and Axial Magnetic Fields	Phys. Rev. A25, 2693-2706 (1982)	pdf
26. L. Friedland, A. Fruchtman, and Yu.M. Kagan	Low Energy Electron Beam Relaxation in Gases in Uniform Electric Fields	J. Phys. D 15, 251-262 (1982)	pdf
25. L. Friedland and Yu.M. Kagan	Ionization Growth in Gases in Strong Uniform Electric Fields	J. Phys. D 15, 1721-1724 (1982)	pdf
1981
24. L. Friedland, and M.Porkolab	On the Electron Cyclotron Resonance Heating in Plasmas with Arbitrary Stratification of the Magnetic Field	Phys. Fluids 24, 1097-1098 (1981)	pdf
23. I.B. Bernstein and L. Friedland	Theory of the Free Electron Laser in Combined Helical Pump and Axial Guide Fields	Phys. Rev. A23, 816-823 (1981)	pdf
22. M. Porkolab, L. Friedland, and I.B. Bernstein	Electron Cyclotron Resonance Heating of Plasmas in TandemMirrors	Nuclear Fusion 21, 1643-1655 (1981)
1980
21. L. Friedland and I.B. Bernstein	Geometric Optics in Plasmas Characterized by Non-Hermitian Dielectric Tensors	Phys. Rev. A22, 1680-1685 (1980)	pdf
20. L. Friedlandand and J.L. Hirshfield	Free Electron Laser With a Strong Axial Magnetic Field	Phys. Rev. Lett. 44, 1456-1460 (1980)	pdf
19. L. Friedland	Electron Beam Dynamics in Combined Guide and Pump Magnetic Fields for Free Electron Laser Applications	Phys. Fluids 23, 2376 (1980)	pdf
18. L. Friedland and I.B. Bernstein	General Geometric Optics Formalism in Plasmas	IEEE Tr. on Plasma Science PS-8, 90-95 (1980)	pdf
17. L. Friedland and I.B. Bernstein	Comparison of Geometric and Wave Optics in an Absorbing Spherical Plasma	Phys. Rev. A12, 666-671 (1980)	pdf
1979
16. L. Friedland and Yu.M. Kagan	The Theory of Electron Current to a Spherical Probe at Intermediate Pressures	J. Phys. D 12, 739-748 (1979)	pdf
15. L. Friedland	Correspondence Principle in Multiphoton Inverse Bremsstrahlung	J. Phys. B 12, 409-418 (1979)	pdf
1977
14. L. Friedland	Novel Computer Simulation of Electron Swarm Motion	Phys. Fluids 20, 1461-1465 (1977)	pdf
1975
13. L. Friedland	Quantum Aspects of Laser-Induced Breakdown in Argon	Phys. Rev. A12, 2024-2030 (1975)	pdf
1974
12. L. Friedland	On the Zeros of Incomplete Polinomials	J. Approx. Theory 12, 352-361 (1974)	pdf
11. L. Friedland	Electron Multiplication in a Gas Discharge at High Values of E/P	J. Phys. D 7, 2246-2253 (1974)	pdf
10. G. Bekefi, P. Avivi, F. Dothan, L. Friedland, and H.Keren	Light Emission From an Argon Discharge Containing an Admixture of Carbon Monoxide,	J. Chem. Phys. 60, 3721-3722 (1974)	pdf
9. L. Friedland, P.Avivi, F. Dothan, and H. Keren	A Semi-Empirical Approach to CO₂ Laser Kinetics	J. Phys. D 7, 303-313 (1974)	pdf
1973
8. P. Avivi, F.Dothan, L. Friedland, and H. Keren	Influence of CO on the Population Inversion in CO₂ Lasers	J. Appl. Phys., 44, 1719-1721 (1973)	pdf
1972
7. P. Avivi, F. Dothan, L. Friedland, and H. Keren	The Role of CO in CO₂Lasers	Phys. Lett. 42A, 22-24 (1972)	pdf
1971
6. M. Kuzmenko, J. Kuziakov, G. Toker, L. Friedland, and A. Bolotin	Dependence of the Matrix Element of the dipole Moment of Electronic Transition on r-Centroid and Frank-Condon's Factor Calculation for Systems of Silicon Halogenides	Liet. Fiz. Rink. 11, 433-449 (1971)
1970
5. L. Friedland, G. Toker, and A. Bolotin	Theoretical Determination of the Stoletov Constant for a Mixture of Gases	Liet. Fiz. Rink.10, 543-552 (1970)
4. L. Friedland, G. Toker, and A. Bolotin	A Study of Some Avalanche Characteristics in a Gas	Liet. Fiz. Rink. 10, 533-541 (1970)
3. L. Friedland, G. Toker, and A. Bolotin	Similarity Laws and Distribution Function for Avalanche Type Processes in Gases	Liet. Fiz. Rink. 10, 521-531 (1970)
2. L. Friedland, V. Bolotin, G. Toker, N. Poshunaite, and A. Bolotin	The Use of Monte Carlo Method in the Calculation of the First Townsend Ionization Coefficient in Hydrogen	Izv. VUZ, Fizika (USSR) 8, 70-76 (1970)
1969
1. L. Friedland, G. Toker, V. Bolotin, and A. Bolotin	On the Calculation of Energy Distribution of the Electronic Avalanche in Atomic Hydrogen	Liet. Fiz. Rink. (Lithuanian Journal of Physics) 9, 889-899 (1969)