The Diffusion Coefficient with Displacement Variance of Energetic Particles Caused by Adiabatic Focusing

Wang, J. F.; Qin, Gang

doi:10.3847/1538-4357/ab505e

Cited by 8 publications

(8 citation statements)

References 55 publications

(88 reference statements)

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“…We note that there is some freedom of choosing the shape of the diffusion kernel. Numerical studies on CR transport fit diffusion coefficients using the second moment of their spatial distribution (Qin & Shalchi 2009;Wang & Qin 2019;Xu & Yan 2013;Snodin et al 2016;Seta et al 2018). Based on magnetohydrodynamical turbulence simulations, Sampson et al (2023) find that super-diffusion is ubiquitous in the ISM: super-diffusion would result in kernel shapes that have a narrower core and more extended wings than a Gaussian.…”

Section: Smoothing Experimentsmentioning

confidence: 99%

Diffusion of cosmic-ray electrons in M 51 observed with LOFAR at 54 MHz

Heesen

Gasperin

Schulz

et al. 2023

A&A

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Context. The details of cosmic-ray transport have a strong impact on galaxy evolution. The peak of the cosmic-ray energy distribution is observable in the radio continuum using the electrons as proxy. Aims. We aim to measure the distance that the cosmic-ray electrons (CREs) are transported during their lifetime in the nearby galaxy M 51 across one order of magnitude in cosmic-ray energy (approximately 1–10 GeV). To this end, we use new ultra-low frequency observations from the LOw Frequency ARay (LOFAR) at 54 MHz and ancillary data between 144 and 8350 MHz. Methods. As the CREs originate from supernova remnants, the radio maps are smoothed in comparison to the distribution of the star formation. By convolving the map of the star formation rate (SFR) surface density with a Gaussian kernel, we can linearise the radio–SFR relation. The best-fitting convolution kernel is then our estimate of the CRE transport length. Results. We find that the CRE transport length increases at low frequencies, as expected since the CRE have longer lifetimes. The CRE transport length is lCRE = √4Dtsyn, where D is the isotropic diffusion coefficient and tsyn is the CRE lifetime as given by synchrotron and inverse Compton losses. We find that the data can be well fitted by diffusion, where D = (2.14 ± 0.13)×1028 cm2 s−1. With D ∝ E0.001 ± 0.185, the diffusion coefficient is independent of the CRE energy E in the range considered. Conclusions. Our results suggest that the transport of GeV-cosmic ray electrons in the star-forming discs of galaxies is governed by energy-independent diffusion.

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Section: Smoothing Experimentsmentioning

confidence: 99%

Diffusion of cosmic-ray electrons in M 51 observed with LOFAR at 54 MHz

Heesen

Gasperin

Schulz

et al. 2023

A&A

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“…Meanwhile, Shalchi & Arendt (2020) obtained a transport equation with the fourth-order spatial derivative term for the subdiffusion process. By integrating the Fokker-Planck equation over pitch angle, Wang & Qin (2019) derived the general spatial transport equation, which contains an infinite number of spatial derivative terms T n = κ nz ∂ n F/∂z n with n = 1, 2, 3, L . Although the general spatial transport equation is a generalized form of the transport equation with finite spatial derivative terms and can describe more propagation processes, this equation is too complex to be used in relevant studies.…”

Section: Introductionmentioning

confidence: 99%

“…The topic of this paper is to explore the parallel transport coefficients of various STGEs that describe the parallel propagation of charged particles. For the parallel diffusion coefficient, generally speaking, there are three different definitions (Wang & Qin 2019), i.e., the displacement variance definition d dt lim 2…”

Section: Introductionmentioning

confidence: 99%

“…However, it has been demonstrated that for some scenarios different definitions of parallel diffusion are not equivalent. Wang & Qin (2019) has proved that zz DV k , rather than zz FL k and zz TGK k , is the most appropriate definition. In this paper, the transport coefficients expressed by the moments of distribution function are derived, and their relations with statistical quantities are explored.…”

Section: Introductionmentioning

confidence: 99%

“…In this paper, we list all the simplified equations belonging to the first-, second-, third-, fourth-, and fifth-order spatial transport equations. The transport coefficients expressed by the moments of distribution function can be obtained using the method proposed by Wang & Qin (2019). This paper is organized as follows.…”

Section: Introductionmentioning

confidence: 99%

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Relationship of Transport Coefficients with Statistical Quantities of Charged Particles

Wang,

Qin

2023

ApJ

Self Cite

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In previous studies, a general spatial transport equation was derived from the Fokker–Planck equation. The latter equation contains an infinite number of spatial derivative terms T n = κ nz ∂ n F/∂z n with n = 1, 2, 3, ⋯ . Due to the complexity of the general equation, some simplified equations with finitely many spatial derivative terms have been used by astrophysical researches, e.g., the diffusion equation, the hyperdiffusion equation, subdiffusion transport equation, etc. In this paper, the simplified transport equations with the spatial derivative terms up to the first, second, third, fourth, and fifth order are listed, and their transport coefficient formulas are derived, respectively. We find that most of the transport coefficients are determined by the corresponding statistical quantities. In addition, we find that the well-known statistical quantities, the skewness  and the kurtosis  , are determined by some transport coefficients. The results can help one to use various transport coefficients determined by the statistical quantities, including many that are relatively newfound in this paper, to study charged particle parallel transport processes.

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Effects of Pd- and Ta-buffer layer on magnetic and interfacial perpendicular properties of sputtered Co₂FeSi/MgO heterostructures

Wang

Tang

Xiao

et al. 2020

Surface Engineering

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A series of Co 2 FeSi (CFS)/MgO heterostructures with Pd and Ta buffers are fabricated by sputtering method. Perpendicular magnetic anisotropy (PMA) with energy density of ∼1 × 10 6 erg/cm 3 is demonstrated in the annealed heterostructures deposited onto two heavy metal buffers. Pronounced influence of buffer layers on the magnetic and interfacial PMA properties is observed. Thicker magnetic dead layer and lower saturation magnetization are found in annealed Ta-buffered CFS/MgO heterostructure in contrast to Pd-buffered one. Wide window of MgO thickness exhibiting PMA is witnessed in the Pd-buffered heterostructure, in line with the enhanced PMA. PMA is shown to be insensitive to buffer thickness and is identified to dominantly originate from the heterostructure interface. Our results provide some useful information for design and integration of next-generation perpendicular spintronic devices based on CFS/MgO heterostructures.

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The Diffusion Coefficient with Displacement Variance of Energetic Particles Caused by Adiabatic Focusing

Cited by 8 publications

References 55 publications

Diffusion of cosmic-ray electrons in M 51 observed with LOFAR at 54 MHz

Diffusion of cosmic-ray electrons in M 51 observed with LOFAR at 54 MHz

Relationship of Transport Coefficients with Statistical Quantities of Charged Particles

Effects of Pd- and Ta-buffer layer on magnetic and interfacial perpendicular properties of sputtered Co₂FeSi/MgO heterostructures

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The Diffusion Coefficient with Displacement Variance of Energetic Particles Caused by Adiabatic Focusing

Cited by 8 publications

References 55 publications

Diffusion of cosmic-ray electrons in M 51 observed with LOFAR at 54 MHz

Diffusion of cosmic-ray electrons in M 51 observed with LOFAR at 54 MHz

Relationship of Transport Coefficients with Statistical Quantities of Charged Particles

Effects of Pd- and Ta-buffer layer on magnetic and interfacial perpendicular properties of sputtered Co2FeSi/MgO heterostructures

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Product

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Effects of Pd- and Ta-buffer layer on magnetic and interfacial perpendicular properties of sputtered Co₂FeSi/MgO heterostructures