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116 results on '"Austin Max"'

1. A Jellyfish Cyborg: Exploiting Natural Embodied Intelligence as Soft Robots

Author

Owaki, Dai, Austin, Max, Ikeda, Shuhei, Okuizumi, Kazuya, and Nakajima, Kohei

Subjects
Computer Science - Robotics
Abstract

Jellyfish cyborgs present a promising avenue for soft robotic systems, leveraging the natural energy-efficiency and adaptability of biological systems. Here we demonstrate a novel approach to predicting and controlling jellyfish locomotion by harnessing the natural embodied intelligence of these animals. We developed an integrated muscle electrostimulation and 3D motion capture system to quantify both spontaneous and stimulus-induced behaviors in Aurelia coerulea jellyfish. Using Reservoir Computing, a machine learning framework, we successfully predicted future movements based on the current body shape and natural dynamic patterns of the jellyfish. Our key findings include the first investigation of self-organized criticality in jellyfish swimming motions and the identification of optimal stimulus periods (1.5 and 2.0 seconds) for eliciting coherent and predictable swimming behaviors. These results suggest that the jellyfish body motion, combined with targeted electrostimulation, can serve as a computational resource for predictive control. Our findings pave the way for developing jellyfish cyborgs capable of autonomous navigation and environmental exploration, with potential applications in ocean monitoring and pollution management.

Published
2024

2. The deteriorating effect of plasma density fluctuations on microwave beam quality

Author

Köhn Alf, Austin Max E., Brookman Michael W., Gentle Kenneth W., Guidi Lorenzo, Holzhauer Eberhard, La Haye Rob J., Leddy Jarrod B., Maj Omar, Petty Craig C., Poli Emanuele, Snicker Antti, Thomas Matthew B., Vann Roddy G. L., and Weber Hannes

Subjects
Physics, QC1-999
Abstract

Turbulent plasma edge density fluctuations can broaden a traversing microwave beam degrading its quality. This can be a problem for scenarios relying on a high spatial localization of the deposition of injected microwave power, like controlling MHD instabilities. Here we present numerical estimations of the scattering of a microwave beam by density fluctuations over a large parameter range, including extrapolations to ITER. Two codes are used, the full-wave code IPF-FDMC and the wave kinetic equation solver WKBeam. A successful comparison between beam broadening obtained from DIII-D experiments and corresponding full-wave simulations is shown.

Published
2019
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3. Investigation of Core Transport Barriers in DIII-D Discharges with off-axis Te Profile Peaks

Author

Xie, Ruifeng, Austin, Max E., Gentle, Kenneth W., and Petty, Craig C.

Subjects
Physics - Plasma Physics
Abstract

DIII-D discharges that transition to H-mode solely with off-axis electron cyclotron heating (ECH) often exhibit strong off-axis peaking of electron temperature profiles at the heating location. Electron heat transport properties near these off-axis temperature peaks have been studied using modulated ECH. The Fourier analyzed electron temperature data have been used to infer electron thermal diffusivity. Comparisons with numerical solutions of the time-dependent electron thermal equation find that the data are consistent with a narrow region with electron diffusivity $\chi_e$ an order of magnitude lower than the average value across the plasma, suggesting an electron internal transport barrier (ITB) near the ECH heating location. Detailed profile analysis and equilibrium reconstructions suggest that the formation of these ITBs are correlated with off-axis values of the safety factor $q$ being near 1. Furthermore, the ECH driven H-mode discharges demonstrate more rapid electron heating rate near the ECH deposition location than L-mode discharges with higher auxiliary ECH heating power. Additional modeling attributes this difference to the modification of electron heat transport in the core at the L-H transition, which also sustains the off-axis electron temperature peaks.

Published
2022

4. Protecting Against Damage from Refraction of High Power Microwaves in the DIII-D Tokamak

Author

Lohr John, Brambila Rigo, Cengher Mirela, Chen Xi, Gorelov Yuri, Grosnickle William, Moeller Charles, Ponce Dan, Prater Ron, Torrezan Antonio, Austin Max, Doyle Edward, Hu Xing, and Dormier Calvin

Subjects
Physics, QC1-999
Abstract

Several new protective systems are being installed on the DIII D tokamak to increase the safety margins for plasma operations with injected ECH power at densities approaching cutoff. Inadvertent overdense operation has previously resulted in reflection of an rf beam back into a launcher causing extensive arcing and melt damage on one waveguide line. Damage to microwave diagnostics, which are located on the same side of the tokamak as the ECH launchers, also has occurred. Developing a reliable microwave based interlock to protect the many vulnerable systems in DIII-D has proved to be difficult. Therefore, multiple protective steps have been taken to reduce the risk of damage in the future. Among these is a density interlock generated by the plasma control system, with setpoint determined by the ECH operators based on rf beam trajectories and plasma parameters. Also installed are enhanced video monitoring of the launchers, and an ambient light monitor on each of the waveguide systems, along with a Langmuir probe at the mouth of each launcher. Versatile rf monitors, measuring forward and reflected power in addition to the mode content of the rf beams, have been installed as the last miter bends in each waveguide line. As these systems are characterized, they are being incorporated in the interlock chains, which enable the ECH injection permits. The diagnostics most susceptible to damage from the ECH waves have also been fitted with a variety of protective devices including stripline filters, thin resonant notch filters tuned to the 110 GHz injected microwave frequency, blazed grating filters and shutters. Calculations of rf beam trajectories in the plasmas are performed using the TORAY ray tracing code with input from kinetic profile diagnostics. Using these calculations, strike points for refracted beams on the vacuum vessel are calculated, which allows evaluation of the risk of damage to sensitive diagnostics and hardware.

Published
2017
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5. Conceptual design of ITER ECE receiver systems and their performance parameters

Author

Austin Max, Vayakis G., Udintsev V.S., and Pandya Hitesh Kumar B.

Subjects
Physics, QC1-999
Abstract

The Electron Cyclotron Emission diagnostic on ITER requires electron temperature profile with 10 μsec time and 6 – 7 cm spatial resolution. The diagnostic is also useful to study many plasma physics phenomenon like temperature fluctuation, non-thermal electrons population and the power loss due to ECE. The conceptual design being considered for ITER ECE consist of a radiometer of frequency range 122 to 220 GHz for O-mode radiation measurement and two Fourier transform spectrometers of frequency range 70 to 1000 GHz as measuring instruments for O-mode and X-mode radiation measurement. There are two lines of sight for the collection of cyclotron radiation. One is radial view and other is oblique view at 10 degree [1]. The radiation collected by both view will be transmitted through the polarization splitter boxes and four transmission lines to the diagnostic area. In this paper we will summarize the conceptual design details and changes proposed at the Conceptual Design Review. The required calibration time for the ECE measuring instrument will be discussed in the paper.

Published
2012
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6. The deteriorating effect of plasma density fluctuations on microwave beam quality

Author

Köhn, Alf, Austin, Max E., Brookman, Michael W., Gentle, Kenneth W., Guidi, Lorenzo, Holzhauer, Eberhard, La Haye, Rob J., Leddy, Jarrod B., Maj, Omar, Petty, Craig C., Poli, Emanuele, Rhodes, Terry L., Snicker, Antti, Thomas, Matthew B., Vann, Roddy G. L., and Weber, Hannes

Subjects
Physics - Plasma Physics
Abstract

Turbulent plasma edge density fluctuations can broaden a traversing microwave beam degrading its quality. This can be a problem for scenarios relying on a high spatial localization of the deposition of injected microwave power, like controlling MHD instabilities. Here we present numerical estimations of the scattering of a microwave beam by density fluctuations over a large parameter range, including extrapolations to ITER. Two codes are used, the full-wave code IPF-FDMC and the wave kinetic equation solver WKBeam. A successful comparison between beam broadening obtained from DIII-D experiments and corresponding full-wave simulations is shown., Comment: EPJ Web of Conferences, EC-20 2018 Proceedings, submitted

Published
2018
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7. The effects of kinetic instabilities on the electron cyclotron emission from runaway electrons

Author

Liu, Chang, Shi, Lei, Hirvijoki, Eero, Brennan, Dylan P., Bhattacharjee, Amitava, Paz-Soldan, Carlos, and Austin, Max E.

Subjects
Physics - Plasma Physics
Abstract

In this paper we show that the kinetic instabilities associated with runaway electron beams play an essential role for the production of high-level non-thermal electron-cyclotron-emission (ECE) radiation. Most of the non-thermal ECE comes from runaway electrons in the low-energy regime with large pitch angle, which are strongly scattered by the excited whistler waves. The power of ECE from runaway electrons is obtained using a synthetic diagnostic model based on the reciprocity method. The electron distribution function is calculated using a kinetic simulation model including the whistler wave instabilities and the quasilinear diffusion effects. Simulations based on DIII-D low-density discharge reproduces the rapid growth of the ECE signals observed in DIII-D experiments. Unlike the thermal ECE where radiation for a certain frequency is strongly localized inside the resonance region, the non-thermal ECE radiation from runaway electrons is nonlocal, and the emission-absorption ratio is higher than that of thermal electrons. The runaway electron tail is more significant for ECE with higher frequencies, and the ECE spectrum becomes flatter as RE population grows. The nonlinear behavior of the kinetic instabilities is illustrated in the osculations of the ECE waves. The good agreement with the DIII-D experimental observations after including the kinetic instabilities clearly illustrate the significance of the scattering effects from wave-particle interactions, which can also be important for runaway electrons produced in disruptions.

Published
2018
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8. Resolving ECRH deposition broadening due to edge turbulence in DIII-D by heat deposition measurement

Author

Brookman, Michael W, Thomas, Matthew B, Leddy, Jarrod, Petty, C Craig, La Haye, Robert J, Barada, K, Rhodes, Terry L, Yan, Zheng, Austin, Max E, and Vann, Roddy G L

Subjects
Physics - Plasma Physics
Abstract

Interaction between microwave power, used for local heating and mode control, and density fluctuations can produce a broadening of the injected beam, as confirmed in experiment and simulation. Increased power deposition width could impact suppression of tearing mode structures on ITER. This work discusses the experimental portion of an effort to understand scattering of injected microwaves by turbulence on the DIII-D tokamak. The corresponding theoretical modeling work can be found in M.B. Thomas et. al.: Submitted to Nuclear Fusion (2017)[Author Note - this paper to be published in same journal]. In a set of perturbative heat transport experiments, tokamak edge millimeter-scale fluctuation levels and microwave heat deposition are measured simultaneously. Beam broadening is separated from heat transport through fitting of modulated fluxes. Electron temperature measurements from a 500 kHz, 48-channel ECE radiometer are Fourier analyzed and used to calculate a deposition-dependent flux. Consistency of this flux with a transport model is evaluated. A diffusive and convective transport solution is linearized and compared with energy conservation-derived fluxes. Comparison between these two forms of heat flux is used to evaluate the quality of ECRF deposition profiles, and fitting finds a significant broadening of 1D equilibrium ray tracing calculations from the benchmarked TORAY-GA ray tracing code is needed. The physical basis, cross-validation, and application of the heat flux method is presented. The method is applied to a range of DIII-D discharges and finds a broadening factor of the deposition profile width which scales linearly with edge density fluctuation level. These experimental results are found to be consistent with the full-wave beam broadening measured by the 3D full wave simulations in the same discharges., Comment: 21 Pages, 9 Figures

Published
2017

9. Resolving ECRH deposition broadening due to edge turbulence in DIII-D by 3D full-wave simulations

Author

Thomas, Matthew B, Brookman, Michael W, Austin, Max E, Köhn, Alf, La Haye, Robert J, Leddy, Jarrod B, Vann, Roddy G L, and Yan, Zheng

Subjects
Physics - Plasma Physics
Abstract

Edge plasma density fluctuations are shown to have a significant effect on the electron cyclotron resonance heating (ECRH) beam in the DIII-D tokamak. Experimental measurements of the ECRH deposition profile have been taken in three operating scenarios: L-mode, H-mode and negative triangularity. Each scenario corresponds to distinct turbulence characteristics in the edge region through which the beam must propagate. The measured ECRH deposition profile is significantly broadened by comparison to the profile predicted by the ray tracing code TORAY-GA and has been shown to scale with the severity of edge turbulence. Conventional ray tracing does not include the effects of turbulence and therefore a 3D full-wave cold plasma finite difference time domain code EMIT-3D is presented and used for the simulations. The turbulence is generated through the Hermes model in the BOUT++ framework which takes as input the measured time averaged electron density, temperature and magnetic field profiles for the specific shot in question. The simulated turbulence is constrained to match the experimentally measured (by use of the BES and DBS systems) correlation length and normalised fluctuation levels. The predictions of the beam broadening from the simulations are found to agree very well with the experimentally-observed broadening in all cases: L-mode, H-mode and negative triangularity. Due to the large gradients within the H-mode edge, the resolution uncertainty and error in the measurement from Thomson scattering and BES diagnostics result in a spread in the simulated turbulence amplitude. In light of this a parameter scan through the range in experimental diagnostic measurement uncertainty has been conducted to explore the impact on beam broadening predictions.

Published
2017

12. Modeling the electron cyclotron emission radiation signature from suprathermal electrons in a tokamak.

Author

Yu, Guanying, Zhu, Yilun, Kramer, Gerrit, Austin, Max, Denk, Severin, Yoo, Min-Gu, Li, Xiaoliang, Zhao, Bingzhe, Xie, Ruifeng, Li, Zeyu, Chen, Ying, Liu, Xianzi, Qiu, Shasha, and Luhmann Jr., N. C.

Abstract

An Electron Cyclotron Emission (ECE) modeling code has been developed to model ECE radiation with an arbitrary electron momentum distribution, a small oblique angle, both ordinary (O-mode) and extraordinary polarizations (X-mode), and multiple cyclotron frequency harmonics. The emission and absorption coefficients are calculated using the Poynting theorem from the cold plasma dispersion and the electron–microwave interaction from the full anti-Hermitian tensor. The modeling shows several ECE radiation signatures that can be used to diagnose the population of suprathermal electrons in a tokamak. First, in an n = 2 X-mode (X2) optically thick plasma and oblique ECE view, the modeling shows that only suprathermal electrons, which reside in a finite region of the velocity and space domains, can effectively generate cyclotron emissions to the ECE receiver. The code also finds that the O1 mode is sensitive to suprathermal electrons of both a high v and v, while the X2 mode is dominantly sensitive to suprathermal electrons of a high v. The modeling shows that an oblique ECE system with both X/O polarization and a broad frequency coverage can be used to effectively yield information of the suprathermal electron population in a tokamak. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Prompt core confinement improvement across the L–H transition in DIII-D: Profile stiffness, turbulence dynamics, and isotope effect

Author

KOBAYASHI, Tatsuya, YAN, Zheng, McKee, George, AUSTIN, Max, GRIERSON, Brian, GOHIL, Punit, KOBAYASHI, Tatsuya, YAN, Zheng, McKee, George, AUSTIN, Max, GRIERSON, Brian, and GOHIL, Punit

Abstract

We elaborate on the nature of the prompt core confinement improvement observed at the L–H transition in DIII-D, which is a long-standing issue unsolved for more than two decades and can impact future fusion reactor performance. Dynamic transport analysis suggests the essential role of the profile stiffness for understanding the mechanism of the prompt core confinement improvement. Beam emission spectroscopy shows that transport reduction at the core cannot be explained only by the ion scale turbulence density fluctuation suppression. Properties of nonlocal confinement improvement across the L–H transition are experimentally assessed in hydrogen (H) and deuterium (D) plasmas. Prompt core confinement improvement is found to be more rapid in the lighter hydrogen isotope., source:https://doi.org/10.1063/5.0137669, identifier:0000-0001-5669-1937

Published
2023

23. Lessons Learned from two iterations of LLAMA, an Electrically Powered, Dynamic Quadruped Robot

Author

Jasper, Jay, primary, Kourchians, Ara, additional, Gonzalez, Mark, additional, Emanuel, Blair, additional, Nicholson, John, additional, McCutcheon, Greg, additional, Austin, Max, additional, Kozlowski, Matt, additional, Holmes, Emma, additional, Hegeman, Rachel, additional, McCrory, Stephen, additional, Zeher, Michael, additional, Handelman, David, additional, Griffin, Robert, additional, Karumanchi, Sisir, additional, Hubicki, Christian, additional, Kennedy, Brett, additional, Clark, Jonathan, additional, Pratt, Jerry, additional, Patel, Dilip, additional, and Pusey, Jason, additional

Published
2022
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28. 'BAAE' instabilities observed without fast ion drive

Author

W Heidbrink, William, A Van Zeeland, Michael, E Austin, Max, Bierwage, Andreas, Chen, Liu, Choi, Gyungjin, Lauber, Philipp, Lin, Zhihong, R McKee, George, A Spong, Donald, W Heidbrink, William, A Van Zeeland, Michael, E Austin, Max, Bierwage, Andreas, Chen, Liu, Choi, Gyungjin, Lauber, Philipp, Lin, Zhihong, R McKee, George, and A Spong, Donald

Abstract

The instability that was previously identified [Phys. Pl. 16 (2009) 056107] as a fast-ion driven beta-induced Alfven-acoustic eigenmode (BAAE) in DIII-D was misidentified. In a dedicated experiment, low frequency modes (LFM) with characteristic ``Christmas light'' patterns of brief instability linked to the safety factor evolution occur in plasmas with electron temperature T_e >= 2.1 keV but modest beta. To isolate the importance of different driving gradients on these modes, the electron cyclotron heating power and 80 keV, sub-Alfvenic neutral beams are altered for 50-100 ms durations in reproducible discharges. Although beta-induced Alfven eigenmodes and reversed-shear Alfven eigenmodes stabilize when beam injection ceases (as expected for a fast-ion driven instability), the low frequency modes that were called BAAEs persist. Data mining reveals that characteristic LFM instabilities can occur in discharges with no beam heating but strong electron cyclotron heating. A large database of over 1000 discharges shows that LFMs are only unstable in plasmas with hot electrons but modest overall beta. The experimental LFMs have low frequencies (comparable to diamagnetic drift frequencies) in the plasma frame, occur near the minimum of the safety factor q_{min}, and appear when q_{min} is close to rational values. Theoretical analysis suggests that the LFMs are a low frequency reactive instability of predominately Alfvenic polarization.

Published
2020

39. The deteriorating effect of plasma density fluctuations on microwave beam quality.

Author

Poli, E., Laqua, H., Oosterbeek, J., Köhn, Alf, Austin, Max E., Brookman, Michael W., Gentle, Kenneth W., Guidi, Lorenzo, Holzhauer, Eberhard, La Haye, Rob J., Leddy, Jarrod B., Maj, Omar, Petty, Craig C., Poli, Emanuele, Snicker, Antti, Thomas, Matthew B., Vann, Roddy G. L., and Weber, Hannes

Subjects
PLASMA density, PLASMA turbulence, FLUCTUATIONS (Physics), MAXWELL equations, BORN approximation
Abstract

Turbulent plasma edge density fluctuations can broaden a traversing microwave beam degrading its quality. This can be a problem for scenarios relying on a high spatial localization of the deposition of injected microwave power, like controlling MHD instabilities. Here we present numerical estimations of the scattering of a microwave beam by density fluctuations over a large parameter range, including extrapolations to ITER. Two codes are used, the full-wave code IPF-FDMC and the wave kinetic equation solver WKBeam. A successful comparison between beam broadening obtained from DIII-D experiments and corresponding full-wave simulations is shown. [ABSTRACT FROM AUTHOR]

Published
2019
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40. Leg design for running and jumping dynamics

Author

Blackman, Daniel J., primary, Nicholson, John V., additional, Pusey, Jason L., additional, Austin, Max P., additional, Young, Charles, additional, Brown, Jason M., additional, and Clark, Jonathan E., additional

Published
2017
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