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84 results on '"Friedland, Lazar"'

1. Resonant Capture of Stars by Black Hole Binaries: Extreme Eccentricity Excitation

Author

Reved, Omri, Friedland, Lazar, and Stone, Nicholas C.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Massive black hole (MBH) binaries in galactic nuclei are one of the leading sources of $\sim$ mHz gravitational waves (GWs) for future missions such as $\rm{\textit{LISA}}$. However, the poor sky localization of GW interferometers will make it challenging to identify the host galaxy of MBH mergers absent an electromagnetic counterpart. One such counterpart is the tidal disruption of a star that has been captured into mean motion resonance with the inspiraling binary. Here we investigate the production of tidal disruption events (TDEs) through capture into, and subsequent evolution in, orbital resonance. We examine the full nonlinear evolution of planar autoresonance for stars that lock in to autoresonance with a shrinking MBH binary. Capture into the 2:1 resonance is guaranteed for any realistic astrophysical parameters (given a relatively small MBH binary mass ratio), and the captured star eventually attains an eccentricity $e\approx 1$, leading to a TDE. Stellar disks can be produced around MBHs following an active galactic nucleus episode, and we estimate the TDE rates from resonant capture produced when a secondary MBH begins inspiralling through such a disk. In some cases, the last resonant TDE can occur within a decade of the eventual $\rm{\textit{LISA}}$ signal, helping to localize the GW event.

Published
2024

2. Multiphase nonlinear electron plasma waves

Author

Munirov, Vadim R., Friedland, Lazar, and Wurtele, Jonathan S.

Subjects
Physics - Plasma Physics, Nonlinear Sciences - Pattern Formation and Solitons, Physics - Optics
Abstract

We present a method for constructing multiphase excitations in the generally non-integrable system of warm fluid equations describing plasma oscillations. It is based on autoresonant excitation of nonlinear electron plasma waves by phase locking with small amplitude chirped-frequency ponderomotive drives. We demonstrate the excitation of these multiphase waves by performing fully nonlinear numerical simulations of the fluid equations. We develop a simplified model based on a weakly nonlinear analytical theory by applying Whitham's averaged Lagrangian procedure. The simplified model predictions are in good agreement with the results from the warm fluid simulations. Such autoresonantly excited multiphase waves form coherent quasicrystalline structures, which can potentially be used as plasma photonic or accelerating devices. Finally, we discuss the laser parameters required for the autoresonant excitation of nonlinear waves in a plasma.

Published
2022
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3. Autoresonant excitation of space-time quasicrystals in plasma

Author

Munirov, Vadim R., Friedland, Lazar, and Wurtele, Jonathan S.

Subjects
Physics - Plasma Physics, Nonlinear Sciences - Pattern Formation and Solitons, Physics - Optics
Abstract

We demonstrate theoretically and numerically that a warm fluid model of a plasma supports space-time quasicrystalline structures. These structures are highly nonlinear, two-phase, ion acoustic waves that are excited autoresonantly when the plasma is driven by two small amplitude chirped-frequency ponderomotive drives. The waves exhibit density excursions that substantially exceed the equilibrium plasma density. Remarkably, these extremely nonlinear waves persist even when the small amplitude drives are turned off. We derive the weakly nonlinear analytical theory by applying Whitham's averaged variational principle to the Lagrangian formulation of the fluid equations. The resulting system of coupled weakly nonlinear equations is shown to be in good agreement with fully nonlinear simulations of the warm fluid model. The analytical conditions and thresholds required for autoresonant excitation to occur are derived and compared to simulations. The weakly nonlinear theory guides and informs numerical study of how the two-phase quasicrystalline structure "melts" into a single phase traveling wave when one drive is below a threshold. These nonlinear structures may have applications to plasma photonics for extremely intense laser pulses, which are limited by the smallness of density perturbations of linear waves.

Published
2022
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4. Quantum versus classical chirps in a Rydberg atom

Author

Armon, Tsafrir and Friedland, Lazar

Subjects
Quantum Physics
Abstract

The interplay between quantum-mechanical and classical evolutions in a chirped driven Rydberg atom is discussed. It is shown that the system allows two continuing resonant excitation mechanisms, i.e., a successive two-level transitions (ladder climbing) and a continuing classical-like nonlinear phase locking (autoresonance). The persistent $1:1$ and $2:1$ resonances between the driving and the Keplerian frequencies are studied in detail and characterized in terms of two dimensionless parameters $P_{1,2}$ representing the driving strength and the nonlinearity in the problem, respectively. The quantum-mechanical rotating wave and the classical single resonance approximations are used to describe the regimes of efficient classical or quantum-mechanical excitation in this two-parameter space.

Published
2020
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5. Quantum versus classical effects in the chirped-drive discrete nonlinear Schrodinger equation

Author

Armon, Tsafrir and Friedland, Lazar

Subjects
Quantum Physics
Abstract

A chirped parametrically driven discrete nonlinear Schrodinger equation is discussed. It is shown that the system allows two resonant excitation mechanisms, i.e., successive two-level transitions (ladder climbing) or a continuous classical-like nonlinear phase-locking (autoresonance). Two-level arguments are used to study the ladder-climbing process, and semiclassical theory describes the autoresonance effect. The regimes of efficient excitation in the problem are identified and characterized in terms of three dimensionless parameters describing the driving strength, the dispersion nonlinearity, and the Kerr-type nonlinearity, respectively. The nonlinearity alters the borderlines between the regimes, and their characteristics.

Published
2019
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6. Quantum versus classical dynamics in the optical centrifuge

Author

Armon, Tsafrir and Friedland, Lazar

Subjects
Quantum Physics, Physics - Atomic and Molecular Clusters
Abstract

The interplay between classical and quantum mechanical evolution in the optical centrifuge (OC) is discussed. The analysis is based on the quantum mechanical formalism starting from either the ground state or a thermal ensemble. Two resonant mechanisms are identified, i.e. the classical autoresonance and the quantum mechanical ladder-climbing, yielding different dynamics and rotational excitation efficiencies. The rotating wave approximation is used to analyze the two resonant regimes in the associated dimensionless two-parameter space and calculate the OC excitation efficiency. The results show good agreement between numerical simulations and theory and are relevant to existing experimental setups., Comment: Corrected a minor Typo In table 1, the right cell of the row matching \Delta l = 2, \Delta m = 0 (third row from the top). Simulations were carried out with the correct value, and no other aspects of the manuscript were affected

Published
2017
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7. Extreme driven ion acoustic waves

Author

Friedland, Lazar and Shagalov, Arkadiy

Subjects
Physics - Plasma Physics
Abstract

Excitation of large amplitude strongly nonlinear ion acoustic waves from a trivial equilibrium by a chirped frequency drive is discussed. Under certain conditions, after passage through the linear resonance in this system, the nonlinearity and the variation of parameters work in tandem to preserve the phase-locking with the driving wave via excursion of the excited ion acoustic wave in its parameter space, yielding controlled growth of the wave amplitude. We study these autoresonant waves via a fully nonlinear warm fluid model and predict formation of sharply peaked (extreme) ion acoustic excitations with local ion density significantly exceeding the unperturbed plasma density. The driven wave amplitude is bounded by the kinetic wave-breaking, as the local maximum fluid velocity of the wave approaches the phase velocity of the drive. The Vlasov-Poisson simulations are used to confirm the results of the fluid model and the Whitham's averaged variational principle is applied in analyzing evolution of the autoresonant ion acoustic waves.

Published
2017
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8. Spin-torque switching and control using chirped oscillating currents

Author

Klughertz, Guillaume, Friedland, Lazar, Hervieux, Paul-Antoine, and Manfredi, Giovanni

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We propose to use oscillating spin currents with slowly varying frequency (chirp) to manipulate and control the magnetization dynamics in a nanomagnet. By recasting the Landau-Lifshitz-Slonczewski equation in a quantum-like two-level formalism, we show that a chirped spin current polarized in the direction normal to the anisotropy axis can induce a stable precession of the magnetic moment at any angle (up to $90^\circ$) with respect to the anisotropy axis. The drive current can be modest ($10^6\,\rm A/cm^2$ or lower) provided the chirp rate is sufficiently slow. The induced precession is stable against thermal noise, even for small nano-objects at room temperature. Complete reversal of the magnetization can be achieved by adding a small external magnetic field antiparallel to the easy axis. Alternatively, a combination of chirped ac and dc currents with different polarization directions can also be used to trigger the reversal.

Published
2016
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9. Capture into resonance and phase space dynamics in optical centrifuge

Author

Armon, Tsafrir and Friedland, Lazar

Subjects
Physics - Atomic and Molecular Clusters
Abstract

The process of capture of a molecular enesemble into rotational resonance in the optical centrifuge is investigated. The adiabaticity and phase space incompressibility are used to find the resonant capture probability in terms of two dimensionless parameters P1,P2 characterising the driving strength and the nonlinearity, and related to three characteristic time scales in the problem. The analysis is based on the transformation to action-angle variables and the single resonance approximation, yielding reduction of the three-dimensional rotation problem to one degree of freedom. The analytic results for capture probability are in a good agreement with simulations. The existing experiments satisfy the validity conditions of the theory.

Published
2016
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10. Chirped-Frequency Excitation of Gravitationally Bound Ultracold Neutrons

Author

Manfredi, Giovanni, Morandi, Omar, Friedland, Lazar, Jenke, Tobias, and Abele, Hartmut

Subjects
Quantum Physics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology
Abstract

Ultracold neutrons confined in the Earth's gravitational field display quantized energy levels that have been observed for over a decade. In recent resonance spectroscopy experiments [T. Jenke et al., Nature Phys. 7, 468 (2011)], the transition between two such gravitational quantum states was driven by the mechanical oscillation of the plates that confine the neutrons. Here we show that, by applying a sinusoidal modulation with slowly varying frequency (chirp), the neutrons can be brought to higher excited states by climbing the energy levels one by one. The proposed experiment should make it possible to observe the quantum-classical transition that occurs at high neutron energies. Furthermore, it provides a technique to realize superpositions of gravitational quantum states, to be used for precision tests of gravity at short distances.

Published
2015
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11. Quantum phenomena in a chirped parametric anharmonic oscillator

Author

Barth, Ido and Friedland, Lazar

Subjects
Quantum Physics
Abstract

The parametric ladder climbing (successive Landau-Zener-type transitions) and the quantum saturation of the threshold for the classical parametric autoresonance due to the zero point fluctuations at low temperatures are discussed. The probability for capture into the chirped parametric resonance is found by solving the Schrodinger equation in the energy basis and the associated resonant phase space dynamics is illustrated via the Wigner distribution. The numerical threshold for the efficient capture into the resonance is compared with the classical and quantum theories in different parameter regimes., Comment: 5 pages, 3 figures

Published
2014
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12. Two-photon ladder climbing and transition to autoresonance in a chirped oscillator

Author

Barth, Ido and Friedland, Lazar

Subjects
Quantum Physics
Abstract

The two-photon ladder climbing (successive two-photon Landau-Zener-type transitions) in a chirped quantum nonlinear oscillator and its classical limit (subharmonic autoresonance) are discussed. An isomorphism between the chirped quantum-mechanical one and two-photon resonances in the system is used in calculating the threshold for the phase-locking transition in both the classical and quantum limits. The theory is tested by solving the Schrodinger equation in the energy basis and illustrated via the Wigner function in phase space., Comment: 5 pages, 3 figures, submitted to PRA

Published
2013
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13. Quantum and Classical Chirps in an Anharmonic Oscillator

Author

Shalibo, Yoni, Rofe, Ya'ara, Barth, Ido, Friedland, Lazar, Bialczack, Radoslaw, Martinis, John M., and Katz, Nadav

Subjects
Quantum Physics, Condensed Matter - Superconductivity
Abstract

We measure the state dynamics of a tunable anharmonic quantum system, the Josephson phase circuit, under the excitation of a frequency-chirped drive. At small anharmonicity, the state evolves like a wavepacket - a characteristic response in classical oscillators; in this regime we report exponentially enhanced lifetimes of highly excited states, held by the drive. At large anharmonicity, we observe sharp steps, corresponding to the excitation of discrete energy levels. The continuous transition between the two regimes is mapped by measuring the threshold of these two effects., Comment: 4 pages, 4 figures. Supplementary material

Published
2011
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18. Extension of Ekman (1905) wind-driven transport theory to the β-plane.

Author

Paldor, Nathan and Friedland, Lazar

Subjects
OCEAN surface topography, VELOCITY measurements, MOMENTUM (Mechanics), LAGRANGE equations, NONLINEAR analysis
Abstract

The seminal, Ekman (1905)'s, f -plane theory of wind driven transport at the ocean surface is extended to the β-plane by substituting the pseudo angular momentum for the zonal velocity in the Lagrangian equation. The addition of the β term implies that equations become nonlinear, which greatly complicates the analysis. Though rotation relates the momentum equations in the zonal and the meridional directions, the transformation to pseudo angular momentum greatly simplifies the longitudinal dynamics, which yields a clear description of the meridional dynamics in terms of a slow drift compounded by fast oscillations, which can then be applied to describe the motion in the zonal direction. Both analytical expressions and numerical calculations underscore the critical role of the equator in determining the trajectories of water columns forced by eastward directed wind stress even when the water columns are far from the equator. Our results demonstrate that the averaged motion in the zonal direction is highly dependent on the meridional oscillations and for some initial conditions can be as large as the meridional mean motion. [ABSTRACT FROM AUTHOR]

Published
2022
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31. Plasma Dynamics

Author

Bekefi, George, Bers, Abraham, Coppi, Bruno, Porkolab, Miklos, Betti, Riccardo, Detragiache, Paolo, Englade, Ronald C., Luckhardt, Stanley C., Migliuolo, Stefano, Ram, Abhay K., Sugiyama, Linda E., Wurtele, Jonathan S., Conde, Manoel E., de Graff, Christian E., Stoner, Richard E., DiRienzo, Anthony C., Aalberts, Daniel P., DiCecca, Salvatore, Xu, Kongyi, Leibovitch, Chaim, Jerby, Eli, Mastovsky, Ivan, Chen, Shien-Chi, Chow, Carson C., Jablonski, Mark K., Kupfer, Kenneth C., Delcroix, Jean-Loup, Fuchs, Vladimir, Friedland, Lazar, Angelini, Sergio, Ehrnst, Darin, Nassi, Marco, Chen, Kuo-In, Coda, Stefano, Colborn, Jeffrey A., Fitzgerald, Edward A., Kirkwood, Robert J., Leon, Alberto, Schroder, Kurt A., Squire, Jared P., Villasenor, Jesus Noel S., Bekefi, George, Bers, Abraham, Coppi, Bruno, Porkolab, Miklos, Betti, Riccardo, Detragiache, Paolo, Englade, Ronald C., Luckhardt, Stanley C., Migliuolo, Stefano, Ram, Abhay K., Sugiyama, Linda E., Wurtele, Jonathan S., Conde, Manoel E., de Graff, Christian E., Stoner, Richard E., DiRienzo, Anthony C., Aalberts, Daniel P., DiCecca, Salvatore, Xu, Kongyi, Leibovitch, Chaim, Jerby, Eli, Mastovsky, Ivan, Chen, Shien-Chi, Chow, Carson C., Jablonski, Mark K., Kupfer, Kenneth C., Delcroix, Jean-Loup, Fuchs, Vladimir, Friedland, Lazar, Angelini, Sergio, Ehrnst, Darin, Nassi, Marco, Chen, Kuo-In, Coda, Stefano, Colborn, Jeffrey A., Fitzgerald, Edward A., Kirkwood, Robert J., Leon, Alberto, Schroder, Kurt A., Squire, Jared P., and Villasenor, Jesus Noel S.

Abstract

Contains table of contents for Section 2 and reports on four research projects., Lawrence Livermore National Laboratory Subcontract 6264005, National Science Foundation Grant ECS 84-13173, National Science Foundation Grant ECS 85-14517, U.S. Air Force - Office of Scientific Research Contract AFOSR 84-0026, U.S. Army - Harry Diamond Laboratories Contract DAAL02-86-C-0050, U.S. Navy - Office of Naval Research Contract N00014-87-K-2001, National Science Foundation Grant ECS 85-15032, National Science Foundation Grant ECS 88-22475, U.S. Department of Energy Contract DE-AC02-ET-51013

Published
2010

33. Autoresonance of coupled nonlinear waves

Author

Yaakobi, Oded, primary, Friedland, Lazar, additional, Vassiliadis, Dimitris, additional, Fung, Shing F., additional, Shao, Xi, additional, Daglis, Ioannis A., additional, and Huba, Joseph D., additional

Published
2011
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39. Autoresonance of coupled nonlinear waves.

Author

Yaakobi, Oded and Friedland, Lazar

Subjects
*NONLINEAR waves, *OSCILLATIONS, *PLASMA gases, *NONLINEAR optics, *RAMAN effect, *POTENTIAL theory (Physics)
Abstract

Resonant three-wave interactions (R3WIs) and their dynamical counterpart, three-oscillator interactions (R3OIs) play a fundamental role in many fields of physics. Consequently, controlling R3WI/R3OIs is an important goal of both basic and applied physics research. We have developed new control schemes based on a recent approach of wave autoresonance. This approach is based on the intrinsic property of many nonlinear waves and oscillations to stay in resonance (phase-lock) even when parameters of the system vary in time and/or space. We review autoresonance in several new coupled wave systems including externally driven R3OI systems and multidimensional R3WIs. Particularly, we have focused on autoresonant stimulated Raman scattering in nonuniform plasmas. This research comprises an important step toward understanding of adiabatic synchronization of nonlinear waves in space-time varying media with a potential of many new applications in plasma physics and related fields, such as fluid dynamics, nonlinear optics, and acoustics. [ABSTRACT FROM AUTHOR]

Published
2011
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45. Gyroresonant absorption from congruent reduction of an anisotropic pressure fluid model.

Author

Friedland, Lazar

Subjects
*FLUID dynamics, *ANISOTROPY
Abstract

A system of Maxwell, multifluid momentum and anisotropic pressure equations for a weakly inhomogeneous magnetized plasma is written in a special Hermitian form. A recently developed congruent reduction technique, for extracting embedded, multidimensional, pairwise mode conversion events, is applied in studying the electron gyroresonant absorption problem. The mode conversion from an electromagnetic mode to a fluid pressure mode near the fundamental and second harmonic gyrofrequency is interpreted as gyroresonant absorption. The transmission coefficient is found in an arbitrary three-dimensional plasma and magnetic field geometry, demonstrating the potential of the approach for systematically reducing the order in general multicomponent wave propagation problems in nonuniform plasmas. [ABSTRACT FROM AUTHOR]

Published
1988
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46. Congruent reduction in geometric optics and mode conversion.

Author

Friedland, Lazar and Kaufman, Allan N.

Subjects
*PLASMA gases, *MATHEMATICAL models
Abstract

Standard eikonal theory reduces, to N = 1, the order of the system of equations underlying wave propagation in inhomogeneous plasmas. The condition for this remarkable reducibility is that only one eigenvalue of the unreduced N × N dispersion matrix D(k,x) vanishes at a time. If, in contrast, two or more eigenvalues of D become simultaneously small, the geometric optics reduction scheme becomes singular. These regions are associated with linear mode conversion and are described by higher-order systems. A new reduction scheme is developed based on congruent transformations of D, and it is shown that, in degenerate regions, a partial reduction of order is still possible. The method comprises a constructive step-by-step procedure, which, in the most frequent (doubly degenerate) case, yields a second-order system, describing the pairwise mode conversion problem in four-dimensional plasmas. This N = 2 case is considered in detail, and dimensionality arguments are used in studying the characteristic ordering of the elements of the reduced dispersion tensor in mode conversion regions. The congruent reduction procedure is illustrated by classifying pairwise degeneracies in cold multispecies magnetized plasmas. [ABSTRACT FROM AUTHOR]

Published
1987
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