Your search keyword '"Rosenzweig G"' showing total 13 results

1. Simulations of nozzle gas flow and gas-puff Z-pinch implosions on the Weizmann Z-pinch.

Author

Tangri, V., Queller, T., Kroupp, E., Dasgupta, A., Rosenzweig, G., Giuliani, J. L., and Maron, Y.

Abstract

We present simulations of an oxygen gas puff Z-pinch on a University scale generator at the Weizmann Institute of Science. The work accounts for the detailed geometry of the nozzle, the initial neutral gas density distribution, and the subsequent implosion. The modeling results show significant improvement with data for the current at the time of stagnation in comparison with a previous effort [Rosenzweig et al., Phys. Plasmas 27, 022705 (2020)]. As a first step, we performed simulations of the flow of neutral diatomic oxygen from a plenum through a nozzle within a recessed cathode, across a gap, and into the anode with a recessed grounded honeycomb. These simulations show an agreement with the measured initial gas density profiles within the region not blocked by the recesses and accessible to visible measurements. The computed neutral gas flow profile serves as the initial condition for a radiation magnetohydrodynamic simulation of the implosion using the MACH2-TCRE code. By considering the specific details of the nozzle and chamber geometry, we find agreement with the measured current profile, including the inductive notch. The simulations predict that the plasma undergoes a strong pinch within the hidden anode recess. The simulations also predict the strongest radiation pulse occurs within the anode recess and at the time of the observed inductive notch. [ABSTRACT FROM AUTHOR]

Published

2024

2. Spectroscopic Determination of Magnetic Fields in Pulsed-Power and High-Energy-Density Plasmas

Author

Maron, Y., primary, Doron, R., additional, Cvejić, M., additional, Stambulchik, E., additional, Mikitchuk, D., additional, Stollberg, C., additional, Queller, T., additional, Kroupp, E., additional, Rosenzweig, G., additional, Rubinstein, B., additional, Biswas, S., additional, Bernshtam, V., additional, Nedostup, O., additional, Litmanovich, V., additional, Fisher, V., additional, Starobinets, A., additional, Fruchtman, A., additional, Fisher, A., additional, Tangri, V., additional, Giuliani, J. L., additional, Velikovich, A. L., additional, Dasgupta, A., additional, Ochs, I. E., additional, Kolmes, E. J., additional, Mlodik, M. E., additional, Davidovits, S., additional, Fisch, N. J., additional, and Johnston, M. D., additional

Published

2023

3. Determination of magnetic fields based on the Zeeman effect in regimes inaccessible by Zeeman-splitting spectroscopy

Author

Doron, R., Mikitchuk, D., Stollberg, C., Rosenzweig, G., Stambulchik, E., Kroupp, E., Maron, Y., and Hammer, D.A.

Published

2014

4. Local measurements of the spatial magnetic field distribution in a z-pinch plasma during and near stagnation using polarization spectroscopy

Author

Rosenzweig, G., primary, Kroupp, E., additional, Queller, T., additional, Starobinets, A., additional, Maron, Y., additional, Tangri, V., additional, Giuliani, J. L., additional, and Fruchtman, A., additional

Published

2020

5. Subterahertz Photonic Crystal Klystron Amplifier

Author

Stephens, J. C., primary, Rosenzweig, G., additional, Shapiro, M. A., additional, Temkin, R. J., additional, Tucek, J. C., additional, and Kreischer, K. E., additional

Published

2019

6. Measurements of the spatial magnetic field distribution in a z-pinch plasma throughout the stagnation process

Author

Rosenzweig, G., primary, Kroupp, E., additional, Fisher, A., additional, and Maron, Y., additional

Published

2017

7. Evolution of MHD Instabilities in Plasma Imploding Under Magnetic Field

Author

Osin, D., primary, Kroupp, E., additional, Starobinets, A., additional, Rosenzweig, G., additional, Alumot, D., additional, Maron, Y., additional, Fisher, A., additional, Yu, E., additional, Giuliani, J. L., additional, and Deeney, C., additional

Published

2011

8. Benefits of integrated packet/circuit/wavelength switches in next-generation optical core networks.

Author

Autenrieth, A., Elbers, J., Schmidtke, H., Macchi, M., and Rosenzweig, G.

Published

2011

9. Scientific Thinking About Legal Truth.

Author

Rosenzweig G

Abstract

In the criminal process, the fact finders assess the validity of impressions reported by witnesses based on their perceptions and determine what has happened in reality. However, these impressions are not subject to any external validity check. The Innocence Project revealed the failure of this subjective method and showed how it can lead to innocent convictions. The legal literature has examined ways to manage the risk of mistakes, but these ways are inconsistent with the scientific understanding of the need for external validity measurements, suggesting the need for new ways of thinking about the legal search for truth and justice., Competing Interests: GR obtained with Prof. Yoram S. Bonneh a U.S patent no Us10568557 that is related to one of the methods mentioned in one reference of the perspective., (Copyright © 2022 Rosenzweig.)

Published

2022

10. Phase Measurements of a 140-GHz Confocal Gyro-Amplifier.

Author

Rosenzweig G, Jawla SK, Picard JF, Shapiro MA, and Temkin RJ

Abstract

The phase stability of a 140GHz, 1kW pulsed gyro-amplifier system and the phase dependence on the cathode voltage were experimentally measured. To optimize the measurement precision, the amplifier was operated at 47 kV and 1 A, where the output power was ∼ 30W. The phase was determined to be stable both pulse-to-pulse and during each pulse, so far as the cathode voltage and electron beam current are constant. The phase variation with voltage was measured and found to be 130±30°/kV, in excellent agreement with simulations. The electron gun used in this device is non-adiabatic, resulting in a steep slope of the beam pitch factor with respect to cathode voltage. This was discovered to be the dominant factor in the phase dependence on voltage. The use of an adiabatic electron gun is predicted to yield a significantly smaller phase sensitivity to voltage, and thus a more phase-stable performance. To our knowledge, these are the first phase measurements reported for a gyro-amplifier operating at a frequency above W-band., Competing Interests: Conflict of Interest The authors declare that they have no conflict of interest.

Published

2021

11. Concealed information revealed by involuntary eye movements on the fringe of awareness in a mock terror experiment.

Author

Rosenzweig G and Bonneh YS

Subjects

Adult, Attention physiology, Criminals, Eye Movement Measurements, Face, Female, Healthy Volunteers, Humans, Male, Middle Aged, Names, Psychological Tests, Terrorism, Awareness physiology, Consciousness physiology, Eye Movements physiology, Facial Recognition physiology, Recognition, Psychology physiology

Abstract

Involuntary eye movements during fixation are typically inhibited following stimulus onset (Oculomotor Inhibition, OMI), depending on the stimulus saliency and attention, with an earlier and longer OMI for barely visible familiar faces. However, it is still unclear whether OMI regarding familiarities and perceptual saliencies differ enough to allow a reliable OMI-based concealed information test (CIT). In a "mock terror" experiment with 25 volunteers, 13 made a concealed choice of a "terror-target" (one of eight), associated with 3 probes (face, name, and residence), which they learned watching text and videos, whereas 12 "innocents" pre-learned nothing. All participants then watched ~ 25 min of repeated brief presentations of barely visible (masked) stimuli that included the 8 potential probes, as well as a universally familiar face as a reference, while their eye movements were monitored. We found prolonged and deviant OMI regarding the probes. Incorporated with the individual pattern of responses to the reference, our analysis correctly identified 100% of the terror targets, and was 95% correct in discriminating "terrorists" from "innocents". Our results provide a "proof of concept" for a novel approach to CIT, based on involuntary oculomotor responses to barely visible stimuli, individually tailored, and with high accuracy and theoretical resistance to countermeasures.

Published

2020

12. Laser-driven semiconductor switch for generating nanosecond pulses from a megawatt gyrotron.

Author

Picard JF, Schaub SC, Rosenzweig G, Stephens JC, Shapiro MA, and Temkin RJ

Abstract

A laser-driven semiconductor switch (LDSS) employing silicon (Si) and gallium arsenide (GaAs) wafers has been used to produce nanosecond-scale pulses from a 3 μ s, 110 GHz gyrotron at the megawatt power level. Photoconductivity was induced in the wafers using a 532 nm laser, which produced 6 ns, 230 mJ pulses. Irradiation of a single Si wafer by the laser produced 110 GHz RF pulses with a 9 ns width and >70% reflectance. Under the same conditions, a single GaAs wafer yielded 24 ns 110 GHz RF pulses with >78% reflectance. For both semiconductor materials, a higher value of reflectance was observed with increasing 110 GHz beam intensity. Using two active wafers, pulses of variable length down to 3 ns duration were created. The switch was tested at incident 110 GHz RF power levels up to 600 kW. A 1-D model is presented that agrees well with the experimentally observed temporal pulse shapes obtained with a single Si wafer. The LDSS has many potential uses in high power millimeter-wave research, including testing of high-gradient accelerator structures., (Copyright © 2019 Author(s).)

Published

2019

13. Familiarity revealed by involuntary eye movements on the fringe of awareness.

Author

Rosenzweig G and Bonneh YS

Subjects

Adult, Attention physiology, Blinking physiology, Female, Fixation, Ocular physiology, Humans, Male, Middle Aged, Photic Stimulation methods, Saccades physiology, Visual Perception physiology, Awareness physiology, Eye Movements physiology, Recognition, Psychology physiology

Abstract

Involuntary eye movements during fixation of gaze are typically transiently inhibited following stimulus onset. This oculomotor inhibition (OMI), which includes microsaccades and spontaneous eye blinks, is modulated by stimulus saliency and anticipation, but it is currently unknown whether it is sensitive to familiarity. To investigate this, we measured the OMI while observers passively viewed a slideshow of one familiar and 7 unfamiliar facial images presented briefly at 1 Hz in random order. Since the initial experiments indicated that OMI was occasionally insensitive to familiarity when the facial images were highly visible, and to prevent top-down strategies and potential biases, we limited visibility by backward masking making the faces barely visible or at the fringe of awareness. Under these conditions, we found prolonged inhibition of both microsaccades and eye-blinks, as well as earlier onset of microsaccade inhibition with familiarity. These findings demonstrate, for the first time, the sensitivity of OMI to familiarity. Because this is based on involuntary eye movements and can be measured on the fringe of awareness and in passive viewing, our results provide direct evidence that OMI can be used as a novel physiological measure for studying hidden memories with potential implications for health, legal, and security purposes.

Published

2019