PUBLICATIONS
of LAZAR FRIEDLAND
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128. |
Autoresonant transition in the
presence of noise and self-fields |
Phys. Rev. Lett. 103, 155001-1:4 (2009). |
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Autoresonant dynamics of
optical guided waves |
Phys. Rev. Lett. 103, 123901-1:4 (2009). |
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126. O. Yaakobi and
L. Friedland |
Equal energy phase space
trajectories in resonant wave interactions |
Phys. Plasmas 16,
052306-1:7 (2009). |
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Autoresonance in nonlinear
systems |
Scholarpedia 4(1), 5473 (2009). |
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Autoresonant excitation of
multi-phase waves in the sine-Gordon model |
Physica D 238,
1561-1568 (2009). |
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123. O. Yaakobi and
L. Friedland |
Multidimensional, autoresonant
three-wave interactions |
Phys. Plasmas 15, 102104-1:9 (2008). |
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Efficient capture of nonlinear
oscillations into resonance |
J. Phys. A: Math. Theor.
41, 415101-1:8 (2008). |
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121. O. Naaman, J.
Aumentado, L. Friedland, J.S. Wurtele, and |
Phase-locking transition in a chirped
superconducting Josephson resonator |
Phys. Rev. Lett. 101, 117005-1:4 (2008). |
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120. |
A water bag model of driven
phase space holes in non-neutral plasmas |
Phys. Plasmas 15, 082110-1:6 (2008) |
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Driven, chirped vorticity
holes |
Phys. Fluids 20,
086602-1:11 (2008) |
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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). |
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117. P. Khain and L.
Friedland |
A water bag theory of
autoresonant BGK modes |
Phys. Plasmas 14, 082110-1:6 (2007). |
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116. |
Multiresonant control of
two-dimensional dynamical systems |
Phys. Rev. E 76, 016211-1:8 (2007). |
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115. O. Yaakobi, L.
Friedland, and Z. Henis |
Driven autoresonant
three-oscillator interactions |
Phys. Rev. E 76, 026205-1:9 (2007). |
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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). |
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Removal of resonances by
rotation in linearly-degenerate 2D oscillator systems |
J. Math. Phys. 48, 042701-1:11 (2007). |
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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). |
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Autoresonant phase-space holes
in plasmas |
Phys. Rev. Lett. 96, 225001-1:4 (2006). |
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Emergence and control of
breather and plasma oscillations by synchronizing perturbations |
Phys. Rev. E 73,
066612-1:8 (2006). |
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Molecular vibrational ladder
climbing using a sub-nanosecond chirped laser pulse |
Europhys. Lett. 74, 43-48 (2006). |
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From the pendulum to Rydberg accelerator and planetary dynamics: autoresonant formation and control of nonlinear states |
Proc. of the Symposium:
PhysCon2005 (invited), |
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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) |
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Autoresonant excitation and control of molecular degrees of freedom in 3D |
Phys. Rev. A 72, 033404-1:9 (2005) |
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Numerical studies of driven, chirped BGK modes |
Phys. Plasmas 12, 062112-1:9 (2005) |
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Excitation of multiphase waves of nonlinear schrodinger equation by capture into resonances |
Phys. Rev. E 71, 036206-1:12 (2005) |
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Autoresonant excitation and control of nonlinear waves |
Proc. of the
Symposium: Frontiers of Nonlinear Physics (invited), |
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Driven phase space holes and synchronized Bernstein, Greene, and Kruskal modes |
Phys. Plasmas 11, 4305-4317 (2004) |
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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) |
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From quantum ladder climbing to classical autoresonance |
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Multiphase control of a nonlinear lattice |
Phys. Rev. E 68, 066214-1:13 (2003) |
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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) |
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Emergence and control of multiphase nonlinear waves by synchronization |
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96. E. Grosfeld and L. Friedland |
Spatial control of a classical electron state in a Rydberg atom by adiabatic synchronization |
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Emergence of nonuniform V-states by synchronization |
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94. J. Fajans, E. Gilson, and L. Friedland |
The effect of damping on autoresonant excitation |
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Migration timescale thresholds for resonant capture in the Plutino problem |
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92. J. Fajans and L. Friedland |
Autoresonant (nonstationary) Excitation of Pendulums, Plutinos, Plasmas, and Other Nonlinear Oscillators |
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Resonant Formation and Control of 2D Symmetric Vortex Waves |
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90. J. Fajans, E. Gilson, and L. Friedland |
Second Harmonic Autoresonant Control of the l=1 Diocotron Mode in Pure Electron Plasmas |
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Subharmonic Autoresonance of the Diocotron Mode |
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Subharmonic Autoresonance |
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87. E. Nakar and L. Friedland |
Passage Through Resonance and Autoresonance in x2n-type Potentials |
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86. J. Fajans, E. Gilson, and L. Friedland |
Autoresonant (Nonstationary) Excitation of a Collective Nonlinear Mode |
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85. J. Fajans, E. Gilson, and L. Friedland |
Autoresonant (Nonstationary) Excitation of the Diocotron Mode in Non-neutral Plasmas |
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84. U. Rokni and L. Friedland |
Double Autoresonance in Two-Dimensional Dynamical Sysytems |
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Control of Kirchhoff Vortices by a Resonant Strain |
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Excitation of Solitons by Adiabatic Multiresonant Forcing |
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Autoresonant Solutions of Nonlinear Schrodinger Equation |
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Resonant Excitation and Control of High Order Dispersive Nonlinear Waves |
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Autoresonance of Coupled Nonlinear Waves |
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Autoresonant Excitation and Evolution of Nonlinear Waves: The Variational Approach |
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Multidimensional Autoresonant Mode Conversion |
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Spatial Autoresonance Cyclotron Accelerator |
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Autoresonant Wave Interactions in Nonuniform Plasmas |
AIP Proceedings 345, 327-334 (1994) |
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Dynamic plasma response in laser-photodetachment experiments in hydrogen plasmas |
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73. S. Yariv and L. Friedland |
Autoresonant Interaction of Three Coupled Nonlinear Oscillators |
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Enhanced Decay Instability and Mode Conversion to a Strongly Damped Wave |
AIP Proceedings (1993) |
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Autoresonant Three-Wave Interactions |
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Spatial Autoresonance: Enhancement of Mode Conversion Due to Nonlinear Phase-Locking |
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Hermitian Description of Interacting Inhomogeneous Electron Beams |
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A Class of Conservative Tunneling Problems |
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67. R. Shpitalnik,
C. Cohen, F. Dothan and |
Autoresonance Microwave Accelerator |
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66. H. Eizenkiet and L. Friedland |
Space and Time Evolution of Electron Distributions in Gases with Large Inelastic-Collision Cross Sections |
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Electron-beam Confinement by Rotational Stabilization in a Linear Wiggler Free Electron Laser |
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64. S. Yariv and L. Friedland |
Electron Beam Transport in Gas Loaded Free Electron Lasers |
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Three-Dimensional Transmission of the Fast Wave in the Ion Cyclotron Resonance Plasma Heating |
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62. B. Meerson and L. Friedland |
Strong Autoresonance Excitation of Rydberg Atoms: The Rydberg Accelerator |
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Congruent Reduction in Parametrically Unstable Space and Time Varying Plasmas |
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60.L. Friedland, J.H. Jacob, and J.A. Mangano |
Volumetric Stability of Two-Step Ionization Dominated Discharges |
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59. H. Eizenkiet andL. Friedland, |
Anisotropy of Velocity Distributions in Weakly Ionized Gases With Large Inelastic Cross Sections |
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58. R. Shpitalnik,
J.L. Hirshfield, and |
Isochronous Electron Cyclotron Acceleration |
Particle Accelerators 25, 1 (1989) |
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Gyroresonant Absorption From Congruent Reduction of an Anisotropic Pressure Fluid Model |
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Nonlinear Dynamics of Dense Electron Beams in the Autoresonance Laser Accelerator |
Phys. Lett. A, 129, 329-332 (1988) |
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55. R.E. Shefer, L.
Friedland, and |
Evolution of High Current, Cold Cathode Diodes to Steady State |
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Congruent Reduction in Geometric Optics and Mode Conversion |
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Acceleration of Electron-Positron Plasmas to High Energies |
IEEE Tr. Plasma Science PS-15, 238-242 (1987) |
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Phase-Space Solution of the Linear Mode Conversion Problem |
Phys. Lett. A123, 387-389 (1987) |
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Congruent Reduction and Mode Conversion in 4-Dimensional Plasmas, |
AIP Proceedings 159 (1987) |
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New Perturbation Expansion for Anisotropic Electron Distribution Functions in Weakly Ionized Plasmas |
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Four-Dimensional Eikonal Theory of Linear Mode Conversion |
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Vacuum Arc Plasma Centrifuge for Element and Isotop Separation |
IEEE Tr. Plasma Science PS-15, 583 (1987) |
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Autoresonance Laser Acceleration of Guided Quasi-Neutral Electron-Positron Beams |
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Reduction of Order in the Geometric Optics of Plasmas |
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Autoresonance Laser Accelerator |
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Linear Mode Conversion and Singularities of Geometric Optics Approximation in Plasmas |
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43. P. Avivi, C. Cohen, and L. Friedland |
Velocity Distribution and Energy Diagnostics in Relativistic Guided Electron Beams |
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42. |
Reduced Kinetic Description of Electron Multiplication in Gases |
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41. H.R. Strauss, L.
Friedland, and |
Toroidally Linked Mirrors |
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Electromagnetically Pumped Free Electron Laser with Guide MagneticField |
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Renormalized Geometric Optics Description of Mode Conversion in Weakly Inhomogeneous Plasmas |
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Diffusion of Electrons in a Gas in the Field of an Intense Coherent Radiation |
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Simplified Small Signal Gain Calculations in Free Electron Lasers |
Int. J. Infrared and Millimeter Waves 5, 683-690 (1984) |
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Correspondence Principle in Free Electron Lasers |
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Theory of Electron Multiplication in Gases in Weakly Nonuniform Strong Electric Fields |
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A Uniform Integral Representation for Geometric Optics Solutions Near Caustics |
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33. P. Avivi, C. Cohen, and L. Friedland |
Drift Velocity Measurements in Relativistic Electron Beams |
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32. I.B. Bernstein and L. Friedland |
Geometric Optics in Space and Time Varying Plasmas |
Chapter |
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Generalized Theory of First Townsend Ionization Coefficient in Strong Electric Fields |
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Theory of Wiggler-Free Collective Free Electron Laser in Uniform Magnetic Field |
IEEE J. Quantum Electron. QE-19, 327-333 (1983) |
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Amplification of Frequency Upshifted Radiation by Cold Relativistic Electron Beams |
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Non-Linear Theory of Free Electron Laser with Guide Magnetic Field |
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27. L. Friedlandand A. Fruchtman |
Amplification on Relativistic Electron Beams in Combined Helical and Axial Magnetic Fields |
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Low Energy Electron Beam Relaxation in Gases in Uniform Electric Fields |
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Ionization Growth in Gases in Strong Uniform Electric Fields |
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On the Electron Cyclotron Resonance Heating in Plasmas with Arbitrary Stratification of the Magnetic Field |
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23. I.B. Bernstein and L. Friedland |
Theory of the Free Electron Laser in Combined Helical Pump and Axial Guide Fields |
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Electron Cyclotron Resonance Heating of Plasmas in TandemMirrors |
Nuclear Fusion 21, 1643-1655 (1981) |
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Geometric Optics in Plasmas Characterized by Non-Hermitian Dielectric Tensors |
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Free Electron Laser With a Strong Axial Magnetic Field |
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Electron Beam Dynamics in Combined Guide and Pump Magnetic Fields for Free Electron Laser Applications |
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General Geometric Optics Formalism in Plasmas |
IEEE Tr. on Plasma Science PS-8, 90-95 (1980) |
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Comparison of Geometric and Wave Optics in an Absorbing Spherical Plasma |
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The Theory of Electron Current to a Spherical Probe at Intermediate Pressures |
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Correspondence Principle in Multiphoton Inverse Bremsstrahlung |
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Novel Computer Simulation of Electron Swarm Motion |
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Quantum Aspects of Laser-Induced Breakdown in Argon |
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On the Zeros of Incomplete Polinomials |
J. Approx. Theory 12, 352-361 (1974) |
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Electron Multiplication in a Gas Discharge at High Values of E/P |
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Light Emission From an Argon Discharge Containing an Admixture of Carbon Monoxide, |
J. Chem. Phys. 60, 3721-3722 (1974) |
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A Semi-Empirical Approach to CO2 Laser Kinetics |
J. Phys. D 7, 303-313 (1974) |
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8. P. Avivi,
F.Dothan, L. Friedland, and |
Influence of CO on the Population Inversion in CO2 Lasers |
J. Appl. Phys., 44, 1719-1721 (1973) |
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7. P. Avivi, F.
Dothan, L. Friedland, |
The Role of CO in CO2 Lasers |
Phys. Lett. 42A, 22-24 (1972) |
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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) |
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Theoretical Determination of the Stoletov Constant for a Mixture of Gases |
Liet. Fiz. Rink.10, 543-552 (1970) |
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A Study of Some Avalanche Characteristics in a Gas |
Liet. Fiz. Rink. 10, 533-541 (1970) |
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Similarity Laws and Distribution Function for Avalanche Type Processes in Gases |
Liet. Fiz. Rink. 10, 521-531 (1970) |
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The Use of |
Izv. VUZ, Fizika ( |
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On the Calculation of Energy Distribution of the Electronic Avalanche in Atomic Hydrogen |
Liet. Fiz. Rink. (Lithuanian Journal of Physics) 9, 889-899 (1969) |
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