☆ 4.3 Article

Solar coronal heating by plasma waves

JOURNAL OF PLASMA PHYSICS (2010)

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JOURNAL OF PLASMA PHYSICS

卷 76, 期 -, 页码 135-158

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CAMBRIDGE UNIV PRESS

DOI: 10.1017/S0022377809990031

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类别

Physics, Fluids & Plasmas

资金

Centre for Fundamental Physics (CfFP) at Rutherford Appleton Laboratory, Chilton (UK)
Deutsche Forschungsgemeinschaft (Bonn) [SH21/3-I]
Swedish Research Council
Engineering and Physical Sciences Research Council [EP/G04239X/1] Funding Source: researchfish
EPSRC [EP/G04239X/1] Funding Source: UKRI

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摘要

The solar coronal plasma is maintained at temperatures of millions of degrees, much hotter than the photosphere, which is at a temperature of just 6000 K. in this paper: the plasma particle heating based on the kinetic theory of wave particle interactions involving kinetic Alfven waves and lower-hybrid drift modes is presented. The solar coronal plasma is collisionless and therefore the heating must rely on turbulent wave heating models, such as lower-hybrid drift models at reconnection sites or the kinetic Alfven waves. These turbulent wave modes are created by a variety of instabilities driven from below. The transition region at altitudes of about 2000 km is an important boundary chromosphere, since it separates the collision-dominated photosphere/chromosphere and the collision less corona. The collisionless plasma of the corona is ideal for supporting kinetic wave plasma interactions. Wave particle interactions lead to anisotropic non-Maxwellian plasma distribution functions, which may be investigated by using spectral analysis procedures being developed at the present time.

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Ort, Matthew Osborn, Austin Osogwin, Grant Otto, Jessica Oudakker, Igor Overchuk, Hannah M. Padgette, Jacqueline Padilla, Mallory Palizzi, Madeleine L. Palmgren, Adler Palos, Luke J. Pan, Nathan L. Parker, Sasha R. Parker, Evan J. Parkinson, Anish Parulekar, Paige J. Pastor, Kajal Patel, Akhil Patel, Neil S. Patel, Samuel Patti, Catherine Patton, Genevieve K. Payne, Matthew P. Payne, Harrison M. Pearl, Charles B. Beck Von Peccoz, Alexander J. Pedersen, Lily M. Pelster, Munisettha E. Peou, J. S. Perez, Freddy Perez, Anneliese Pesce, Audrey J. Petersen, B. Peterson, Romeo S. L. Petric, Joshua Pettine, Ethan J. Phalen, Alexander V. Pham, Denise M. Phan, Callie C. Pherigo, Lance Phillips, Justin Phillips, Krista Phommatha, Alex Pietras, Tawanchai P. Pine, Sedique Pitsuean-Meier, Andrew M. Pixley, Will Plantz, William C. Plummer, Kaitlyn E. Plutt, Audrey E. Plzak, Kyle Pohle, Hyden Polikoff, Matthew Pollard, Madelyn Polly, Trevor J. Porter, David Price, Nicholas K. Price, Gale H. Prinster, Henry Austin Propper, Josh Quarderer, Megan S. Quinn, Oliver Quinonez, Devon Quispe, Cameron Ragsdale, Anna L. Rahn, M. Rakhmonova, Anoush K. Ralapanawe, Nidhi Ramachandra, Nathaniel Ramirez, Ariana C. Ramirez, Sacha Ramirez, Parker Randolph, Anurag Ranjan, Frederick C. Rankin, Sarah Grace Rapaport, Nicholas O. Ratajczyk, Mia G. V. Ray, Brian D. Reagan, John C. Recchia, Brooklyn J. Reddy, Joseph Reed, Charlie Reed, Justin Reeves, Eileen N. Reh, Ferin J. Von Reich, Andrea B. Reyna, Alexander Reynolds, Hope Reynolds, Matthew Rippel, Guillermo A. Rivas, Anna Linnea Rives, Amanda M. Robert, Samuel M. Robertson, Maeve Rodgers, Stewart Rojec, Andres C. Romero, Ryan Rosasco, Beth Rossman, Michael Rotter, Tyndall Rounsefell, Charlotte Rouse, Allie C. Routledge, Marc G. Roy, Zoe A. Roy, Ryan Ruger, Kendall Ruggles-Delgado, Ian C. Rule, Madigan Rumley, Brenton M. Runyon, Collin Ruprecht, Bowman Russell, Sloan Russell, Diana Ryder, David Saeb, J. Salazar, Violeta Salazar, Maxwell Saldi, Jose A. Salgado, Adam D. Salindeho, Ethan S. Sanchez, Gustavo Sanchez-Sanchez, Darian Sarfaraz, Sucheta Sarkar, Ginn A. Sato, Carl Savage, Marcus T. Schaller, Benjamin T. Scheck, Jared A. W. Schlenker, Matthew J. Schofer, Stephanie H. Schubert, Courtney Schultze, Grace K. Schumacher, Kasper Seglem, Lauren Serio, Octave Seux, Hannan Shahba, Callie D. Shannahan, Shajesh Sharma, Nathan Shaver, Timothy Shaw, Arlee K. Shelby, Emma Shelby, Grace Shelchuk, Tucker Sheldrake, Daniel P. Sherry, Kyle Z. Shi, Amanda M. Shields, Kyungeun Shin, Michael C. Shockley, Dominick Shoha, Jadon Shortman, Mitchell Shuttleworth, Lisa Sibrell, Molly G. Sickler, Nathan Siles, H. K. Silvester, Conor Simmons, Dylan M. Simone, Anna Simone, Savi Singh, Maya A. Singh, Madeline Sinkovic, Leo Sipowicz, Chris Sjoroos, Ryan Slocum, Colin Slyne, Korben Smart, Alexandra N. Smith, Kelly Smith, Corey Smith, Elena K. Smith, Samantha M. Smith, Percy Smith, Trevor J. Smith, G. L. Snyder, Daniel A. Soby, Arman S. Sohail, William J. Solorio, Lincoln Solt, Caitlin Soon, Ava A. Spangler, Benjamin C. Spicer, Ashish Srivastava, Emily Stamos, Peter Starbuck, Ethan K. Stark, Travis Starling, Caitlyn Staudenmier, Sheen L. Steinbarth, Christopher H. Steinsberger, Tyler Stepaniak, Ellie N. Steward, Trey Stewart, T. C. Stewart, Cooper N. Stratmeyer, Grant L. Stratton, Jordin L. Stribling, S. A. Sulaiman, Brandon J. Sullivan, M. E. Sundell, Sohan N. Sur, Rohan Suri, Jason R. Swartz, Joshua D. Sweeney, Konner Syed, Emi Szabo, Philip Szeremeta, Michael-Tan D. Ta, Nolan C. Tanguma, Kyle Taulman, Nicole Taylor, Eleanor Taylor, Liam C. Taylor, K. E. Tayman, Yesica Tellez, Richard Terrile, Corey D. Tesdahl, Quinn N. Thielmann, Gerig Thoman, Daniel Thomas, Jeffrey J. Thomas, William N. Thompson, Noah R. Thornally, Darien P. Tobin, Kelly Ton, Nathaniel J. Toon, Kevin Tran, Bryn Tran, Maedee Trank-Greene, Emily D. Trautwein, Robert B. Traxler, Judah Tressler, Tyson R. Trofino, Thomas Troisi, Benjamin L. Trunko, Joshua K. Truong, Julia Tucker, Thomas D. Umbricht, C. H. Uphoff, Zachary T. Upthegrove, Shreenija Vadayar, Whitney Valencia, Mia M. Vallery, Eleanor Vanetten, John D. Vann, Ilian Varela, Alexandr Vassilyev, Nicholas J. Vaver, Anjali A. Velamala, Evan Vendetti, Nancy Ortiz Venegas, Aditya V. Vepa, Marcus T. Vess, Jenna S. Veta, Andrew Victory, Jessica Vinson, Connor Maklain Vogel, Michaela Wagoner, Steven P. Wallace, Logan Wallace, Caroline Waller, Jiawei Wang, Keenan Warble, N. R. D. Ward-Chene, James Adam Watson, Robert J. Weber, Aidan B. Wegner, Anthony A. Weigand, Amanda M. Weiner, Ayana West, Ethan Benjamin Wexler, Nicola H. Wheeler, Jamison R. White, Zachary White, Oliver S. White, Lloyd C. Whittall, Isaac Wilcove, Blake C. Wilkinson, John S. Willard, Abigail K. Williams, Sajan Williams, Orion K. Wilson, Evan M. Wilson, Timothy R. Wilson, Connor B. Wilson, Briahn Witkoff, Aubrey M. Wolfe, Jackson R. Wolle, Travis M. Wood, Aiden L. Woodard, Katelynn Wootten, Catherine Xiao, Jianing Yang, Zhanchao Yang, Trenton J. Young, Isabel Young, Thomas Zenner, Jiaqi Zhang, Tianwei Zhao, Tiannie Zhao, Noah Y. Zhao, Chongrui Zhou, Josh J. Ziebold, Lucas J. Ziegler, James C. Zygmunt, Jinhua Zhang, H. J. Lewandowski

Summary: Flare frequency distributions are key to solving the problem of the counterintuitive heating of coronae, and this study suggests that Alfven waves, rather than nanoflares, are an important driver of coronal heating. By analyzing over 600 solar flares, the researchers found that the slope of the flare frequency distribution was below the critical threshold, indicating the abundance of Alfven waves. This provides insights into the mechanism behind the heating of coronae.

ASTROPHYSICAL JOURNAL (2023)

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Article Astronomy & Astrophysics

Coronal Heating and Solar Wind Formation in Quiet Sun and Coronal Holes: A Unified Scenario

Durgesh Tripathi, V. N. Nived, Sami K. Solanki

Summary: This study compares the similarities and differences between coronal holes (CHs) and quiet Sun (QS) in the transition region using Si IV 1394 A line, observing differences in Si IV intensities and line profiles in regions with identical magnetic flux densities. Non-thermal velocities increase with increasing magnetic flux in both QS and CHs, suggesting a unified model for coronal heating and solar wind formation in these regions.

ASTROPHYSICAL JOURNAL (2021)

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Article Multidisciplinary Sciences

Time-resolved turbulent dynamo in a laser plasma

Archie F. A. Bott, Petros Tzeferacos, Laura Chen, Charlotte A. J. Palmer, Alexandra Rigby, Anthony R. Bell, Robert Bingham, Andrew Birkel, Carlo Graziani, Dustin H. Froula, Joseph Katz, Michel Koenig, Matthew W. Kunz, Chikang Li, Jena Meinecke, Francesco Miniati, Richard Petrasso, Hye-Sook Park, Bruce A. Remington, Brian Reville, J. Steven Ross, Dongsu Ryu, Dmitri Ryutov, Fredrick H. Seguin, Thomas G. White, Alexander A. Schekochihin, Donald Q. Lamb, Gianluca Gregori

Summary: Understanding magnetic field generation and amplification in turbulent plasma is crucial for explaining observations of magnetic fields in the universe. This study validates a theoretical framework for the origin and sustainment of these fields, and reports an experiment on laboratory plasma dynamo with Pm & 1. By characterizing plasma evolution and measuring various properties, it is shown that plasma turbulence from strong shear can generate fields more efficiently than previously thought, potentially explaining large-scale fields in astrophysical systems.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

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Article Physics, Fluids & Plasmas

Magnetic field amplification by high power lasers in underdense plasma

T. C. Wilson, Z-M Shang, B. Eliasson, P. McKenna

Summary: The process of amplifying an existing magnetic field by an order of magnitude in underdense plasma using an intense laser pulse is investigated. The mechanism, understood to be ponderomotive in nature, is sustained by a combination of magnetic field structures and electron currents, with the main limiting factor identified as ion motion disrupting the necessary electron currents. The induced magnetic field is found to be of sufficient strength and longevity for study in applications related to radiation production and laboratory astrophysics.

PLASMA PHYSICS AND CONTROLLED FUSION (2021)

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Article Chemistry, Multidisciplinary

Anomalous Beam Transport through Gabor (Plasma) Lens Prototype

Toby Nonnenmacher, Titus-Stefan Dascalu, Robert Bingham, Chung Lim Cheung, Hin-Tung Lau, Ken Long, Jurgen Pozimski, Colin Whyte

Summary: The electron plasma lens is a cost-effective and compact focusing element that can efficiently capture low-energy proton and ion beams from laser-driven sources. Experimental results show that the lens can convert pencil beams into rings with position-dependent shape and intensity modulation, suggesting an off-axis rotation similar to the m=1 diocotron instability in the plasma column.

APPLIED SCIENCES-BASEL (2021)

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Article Multidisciplinary Sciences

Strong suppression of heat conduction in a laboratory replica of galaxy-cluster turbulent plasmas

Jena Meinecke, Petros Tzeferacos, James S. Ross, Archie F. A. Bott, Scott Feister, Hye-Sook Park, Anthony R. Bell, Roger Blandford, Richard L. Berger, Robert Bingham, Alexis Casner, Laura E. Chen, John Foster, Dustin H. Froula, Clement Goyon, Daniel Kalantar, Michel Koenig, Brandon Lahmann, Chikang Li, Yingchao Lu, Charlotte A. J. Palmer, Richard D. Petrasso, Hannah Poole, Bruce Remington, Brian Reville, Adam Reyes, Alexandra Rigby, Dongsu Ryu, George Swadling, Alex Zylstra, Francesco Miniati, Subir Sarkar, Alexander A. Schekochihin, Donald Q. Lamb, Gianluca Gregori

Summary: Conventional theories on heat transport fail in magnetized, turbulent, weakly collisional plasmas, leading to a significant suppression of heat transfer. By replicating such a system in a laser laboratory experiment, we observe large temperature variations on small spatial scales.

SCIENCE ADVANCES (2022)

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Article Physics, Applied

Ultrahigh-Amplitude Isolated Attosecond Pulses Generated in the Transmission Regime from Ultrathin Foil

Ruyu Pang, Yunliang Wang, Xueqing Yan, Bengt Eliasson

Summary: A coherent-synchrotron-emission regime of forward high-order harmonics generation is proposed for generating an isolated unipolar half-cycle attosecond pulse using a three-color laser pulse on an ultrathin foil. The study verifies the robustness of this regime and provides a theoretical model for the electron nanobunching mechanism and forward radiation.

PHYSICAL REVIEW APPLIED (2022)

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Article Astronomy & Astrophysics

Electron heating mechanisms at quasi-perpendicular shocks - revisited with magnetospheric multiscale measurements

Krzysztof Stasiewicz, Bengt Eliasson

Summary: We demonstrate that quasi-adiabatic electron heating in quasi-perpendicular shocks is supported by measurements obtained from NASA's MMS mission, with the temperature Tｅ perpendicular to proportional to B1 + α, where B is the magnetic field strength and α represents departure from adiabaticity. Our findings show that most situations exhibit negative α, resulting in a redistribution of perpendicular energy gain from adiabatic heating to the parallel direction, leading to a lower isotropic temperature increase. However, positive α is observed in cases where the stochastic heating of electrons is activated by the E x B wave acceleration mechanism, resulting in a higher temperature increase.

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY (2023)

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Article Physics, Multidisciplinary

The role of transient plasma photonic structures in plasma-based amplifiers

Gregory Vieux, Silvia Cipiccia, Gregor H. Welsh, Samuel R. Yoffe, Felix Gaertner, Matthew P. Tooley, Bernhard Ersfeld, Enrico Brunetti, Bengt Eliasson, Craig Picken, Graeme McKendrick, MinSup Hur, Joao M. Dias, Thomas Kuehl, Gotz Lehmann, Dino A. Jaroszynski

Summary: The authors conduct experiments and simulations to show the possibility of amplifying high power lasers by utilizing transient plasma structures generated from counter propagating pump and seed pulses.

COMMUNICATIONS PHYSICS (2023)

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Article Astronomy & Astrophysics

Detection of high-frequency gravitational waves using high-energy pulsed lasers

Georgios Vacalis, Giacomo Marocco, James Bamber, Robert Bingham, Gianluca Gregori

Summary: We propose a new method using high-energy pulsed lasers to detect high-frequency gravitational waves (GWs). The interaction between the GW and the laser beam creates an electromagnetic signal, which can be detected using single-photon counting techniques. The minimal detectable strain of the GW is computed based on the laser parameters, and a resonance occurs when the GW frequency is twice the laser frequency. This method allows exploration of the frequency range 10(13)-10(19) Hz with strains h ? 10(-20) for current laser systems, and can be extended to h? 10(-26) with future generation facilities.

CLASSICAL AND QUANTUM GRAVITY (2023)

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Article Physics, Multidisciplinary

PIC simulations of stable surface waves on a subcritical fast magnetosonic shock front

M. E. Dieckmann, C. Huete, F. Cobos, A. Bret, D. Folini, B. Eliasson, R. Walder

Summary: We use PIC simulations to study the stability of fast magnetosonic shocks. The shock speed decreases by up to 15% when it enters a layer with reduced mobile ion density. The density variation in the layer does not significantly affect the shock speed, but results in oscillations of ion density and magnetic field along the shock front.

PHYSICA SCRIPTA (2023)

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Article Physics, Fluids & Plasmas

Giant isolated half-cycle attosecond pulses generated in coherent bremsstrahlung emission regime

Qing Xin, Yunliang Wang, Xueqing Yan, Bengt Eliasson

Summary: This paper proposes a method for generating giant half-cycle attosecond pulses using double-foil targets under normal incident laser pulses. The presence of the second opaque target leads to the formation of a relativistic flying electron sheet (RFES) from the first foil target. After passing through the second opaque target, the RFES is sharply decelerated, resulting in bremsstrahlung emission and the generation of an isolated half-cycle attosecond pulse with a duration of 3.6 as and an intensity of approximately 1.4 x 1022 W/cm2. This generation mechanism does not require additional filters and may open up a regime of nonlinear attosecond science.

PHYSICAL REVIEW E (2023)

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Article Physics, Fluids & Plasmas

Plasma dynamics at the Schwinger limit and beyond

Gert Brodin, Haidar Al-Naseri, Jens Zamanian, Greger Torgrimsson, Bengt Eliasson

Summary: In this study, the interplay between classical and quantum mechanical mechanisms in the regime of ultrastrong electric fields is examined using the Dirac-Heisenberg-Wigner formalism. The effects of initial density and temperature on plasma oscillation dynamics are investigated, providing further insights into photon pair production in plasmas. Comparisons with competing mechanisms such as radiation reaction and Breit-Wheeler pair production are also made.

PHYSICAL REVIEW E (2023)

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Article Astronomy & Astrophysics

Light-shining-through-wall axion detection experiments with a stimulating laser

K. A. Beyer, G. Marocco, R. Bingham, G. Gregori

Summary: Investigated a modified light-shining-through-wall experiment to search for axions. Proposed the use of a third beam to stimulate the reconversion of axions into a measurable signal. With the combination of optical lasers and x-ray free electron lasers, the mass range has been extended.

PHYSICAL REVIEW D (2022)

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Article Physics, Fluids & Plasmas

Ultrahigh-amplitude isolated attosecond pulses generated by a two-color laser pulse interacting with a microstructured target

Shengzhan Wei, Yunliang Wang, Xueqing Yan, Bengt Eliasson

Summary: This paper proposes a unique electron nanobunching mechanism using a two-color laser pulse interacting with a microstructured foil, which can directly generate ultraintense isolated attosecond pulses in the transmission direction. The mechanism ensures that only one electron sheet contributes to the transmitted radiation, resulting in unipolar pulses with high intensity.

PHYSICAL REVIEW E (2022)

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Article Physics, Multidisciplinary

Insensitivity of a turbulent laser-plasma dynamo to initial conditions

A. F. A. Bott, L. Chen, P. Tzeferacos, C. A. J. Palmer, A. R. Bell, R. Bingham, A. Birkel, D. H. Froula, J. Katz, M. W. Kunz, C. -K. Li, H-S. Park, R. Petrasso, J. S. Ross, B. Reville, D. Ryu, F. H. Seguin, T. G. White, A. A. Schekochihin, D. Q. Lamb, G. Gregori

Summary: Experimental research has shown that a turbulent plasma generated by the collision of laser-produced plasma jets can produce strong stochastic magnetic fields, provided that the plasma has a sufficiently large magnetic Reynolds number. In this paper, the differences between such a plasma and a pre-magnetized plasma are investigated using various diagnostic techniques. The results suggest that the external magnetic field has limited effects on the plasma dynamics.

MATTER AND RADIATION AT EXTREMES (2022)

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Article Astronomy & Astrophysics

Neutrino-electron magnetohydrodynamics in an expanding universe

L. M. Perrone, G. Gregori, B. Reville, L. O. Silva, R. Bingham

Summary: This study presents a new model for investigating neutrino-plasma interactions in an expanding universe, incorporating collective effects of neutrinos on plasma constituents to describe plasma dynamics. The model is applied to different stages of plasma composition, showing the impact of neutrinos on plasma dynamics in the early Universe.

PHYSICAL REVIEW D (2021)

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