PIIS002342060002495-2-1
DOI10.31857/S002342060002495-2
Publication type Article
Status Published
Authors
 
Affiliation:
Address: Russian Federation
Affiliation:
Address: Russian Federation, Moscow
Affiliation:
Address: Russian Federation, Saint Petersburg
Affiliation:
Address: Russian Federation, Saint Petersburg
Affiliation:
Address: Russian Federation, Moscow
Affiliation:
Address: Russian Federation, Elista
Affiliation:
Address: Russian Federation, Moscow
Affiliation:
Address: Russian Federation, Moscow
Affiliation:
Address: Russian Federation, Moscow
Affiliation:
Address: Russian Federation, Moscow
Affiliation:
Address: Russian Federation, Moscow
Journal nameKosmicheskie issledovaniia
EditionVolume 56 Issue 6
Pages404-409
Abstract

  

Keywords
Received19.12.2018
Publication date25.12.2018
Cite   Download pdf To download PDF you should sign in
Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

views: 616

Readers community rating: votes 0

1. Benz A.O. Flare observations // Living Reviews in Solar Physics. 2017. V. 14. id. 2. P. 59.

2. Bai T., Ramaty R. Hard X-ray time profiles and acceleration processes in large solar flares // Astrophys. J. 1979. V. 227. P. 1072–1081.

3. Aschwanden M.J., Schwartz R.A. Accuracy, uncertainties, and delay distribution of electron time-of-flight measurements in solar flares // Astrophys. J. 1995. V. 455. P. 699–714.

4. Aschwanden M. J., Kosugi T., Hudson H.S., e al. The Scaling law between electron time-offlight distances and loop lengths in solar flares // Astrophys. J. 1996. V. 470. P. 1198–1217.

5. Aschwanden M. J., Bynum R. M., et al. Electron trapping times and trap densities in solar flare loops measured with COMPTON and YOHKOH //Astrophys. J. 1997. V. 487. P. 936–955.

6. Aschwanden M.J. Particle acceleration and kinematics in solar flares. Space Sci. Rev. 2002. V. 101. P. 1–227.

7. Cheng J. X., Qiu J., Ding M. D., et al. Solar flare hard X-ray spikes observed by RHESSI: a statistical study //Astron. Astrophys. 2012. V. 547. id. A73.

8. Charikov Yu.E., Globina V.I., and Sklyarova E.M. Spectra of time delays of hard X-rays of solar flares according to batse spectrometer data. S.-Peterburg State Polytechnical Univ., J. Math. Phys. 2013. V. 3(177). P. 237–244.

9. Charikov Yu.E., Globina V.I., Shabalin A.N., Elfimova E. Localization of electron acceleration in solar flares based on the spectrum analysis of hard X-ray time delays // Geomagnetism and Aeronomy. 2015. V. 55. P. 1000–1007.

10. Kuznetsov S.A., Zimovets I.V., Morgachev A.S., Struminsky A.B. Spatio-temporal dynamics of sources of hard X-ray pulsations in solar flares // Solar Phys. V. 291. P. 3385–3426.

11. Sadovnichiy V.A., Amelyushkin A.M., Angelopoulos V., et al. Space experiments aboard the Lomonosov MSU satellite. 2013. (Cosmic Research. 2013. V. 51. P. 427–433).

12. Svertilov S.I., Panasyuk M.I., Bogomolov V.V., et al. Wide-field gamma-spectrometer BDRG: GRB monitor on-board the Lomonosov mission // Space Sci. Rev. 2018. V. 214. id. 8

13. Brown J. C., Conway A.J., Aschwanden M.J. The Electron injection function and energydependent delays in thick-target hard X-rays // Astrophys. J. 1998. V. 509. P. 911–917.

14. Kennel C.F., Petschek H.E. Limit on stably trapped particle fluxes // J. Geophys. Res. 1966. V. 71. P. 1–28.

15. Беспалов П.А., Трахтенгерц В.Ю. Альфвеновские мазеры. Горький: ИПФАН, 1986.

16. Степанов А.В., Цап Ю.Т. Спектры энергичных электронов и жесткое рентгеновское излучение солнечных вспышек // Астрон. журн. 1999. Т.76. C.949–960.

17. Stepanov A.V., Tsap Y.T. Electron-whistler interaction in coronal loops and radiation signatures // Solar Phys. 2002. V. 211. P. 135–154.

Система Orphus

Loading...
Up