Standard

Large magnetic reconnection in the earth's magnetotail : Reconstruction method and data analysis. / Penz, T.; Ivanova, V. V.; Semenov, V. S.; Nakamura, R.; Ivanov, I. B.; Biernat, H. K.; Heyn, M. F.; Sergeev, V. A.; Kubyshkin, I. V.

Perspectives in Mathematical Physics. Nova Science Publishers, Inc., 2011. стр. 117-140.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Penz, T, Ivanova, VV, Semenov, VS, Nakamura, R, Ivanov, IB, Biernat, HK, Heyn, MF, Sergeev, VA & Kubyshkin, IV 2011, Large magnetic reconnection in the earth's magnetotail: Reconstruction method and data analysis. в Perspectives in Mathematical Physics. Nova Science Publishers, Inc., стр. 117-140.

APA

Penz, T., Ivanova, V. V., Semenov, V. S., Nakamura, R., Ivanov, I. B., Biernat, H. K., Heyn, M. F., Sergeev, V. A., & Kubyshkin, I. V. (2011). Large magnetic reconnection in the earth's magnetotail: Reconstruction method and data analysis. в Perspectives in Mathematical Physics (стр. 117-140). Nova Science Publishers, Inc..

Vancouver

Penz T, Ivanova VV, Semenov VS, Nakamura R, Ivanov IB, Biernat HK и пр. Large magnetic reconnection in the earth's magnetotail: Reconstruction method and data analysis. в Perspectives in Mathematical Physics. Nova Science Publishers, Inc. 2011. стр. 117-140

Author

Penz, T. ; Ivanova, V. V. ; Semenov, V. S. ; Nakamura, R. ; Ivanov, I. B. ; Biernat, H. K. ; Heyn, M. F. ; Sergeev, V. A. ; Kubyshkin, I. V. / Large magnetic reconnection in the earth's magnetotail : Reconstruction method and data analysis. Perspectives in Mathematical Physics. Nova Science Publishers, Inc., 2011. стр. 117-140

BibTeX

@inbook{4140625577464bc8bec7634c88b29e15,
title = "Large magnetic reconnection in the earth's magnetotail: Reconstruction method and data analysis",
abstract = "Magnetic reconnection is a topological restructuring of magnetic field lines, leading to a conversion of magnetic energy into kinetic energy and a heating of the plasma. It takes place in regions with strong magnetic gradients: the Earth's magnetopause and the plasma sheet in the magnetotail, during solar and stellar flare events, and in laboratory plasmas on the Earth. It is also involved in astrophysical phenomena like the generation of relativistic jets and processes in accretion disks. The Earth's magnetosphere is the only region where signatures of magnetic reconnection can be measured in-situ by satellites. Based on the method developed by Semenov et al. [1], we solve the direct problem of magnetic reconnection and calculate the magnetic field and plasma flow disturbances in a compressible plasma caused by transient reconnection. In order to get the reconnection rate from measured data, we invert the problem. Since the inverse problem is ill-posed, it is treated with the method of regularization. Application of this method to Cluster measurements from September 8th, 2002, where a series of Earth-ward propagating 1-minute scalemagnetic field and plasma flow variationswere observed outside of the plasma sheet, showed good agreement for the z-component of the reconstructed magnetic field. The reconnection rate is about 1 mV/m and the reconnection region is located at about 24-25 Earth radii in the magnetotail.",
keywords = "Cluster, Magnetic reconnection, Magnetohydrodynamics, Magnetotail",
author = "T. Penz and Ivanova, {V. V.} and Semenov, {V. S.} and R. Nakamura and Ivanov, {I. B.} and Biernat, {H. K.} and Heyn, {M. F.} and Sergeev, {V. A.} and Kubyshkin, {I. V.}",
year = "2011",
month = jan,
day = "1",
language = "English",
isbn = "9781611229844",
pages = "117--140",
booktitle = "Perspectives in Mathematical Physics",
publisher = "Nova Science Publishers, Inc.",
address = "United States",

}

RIS

TY - CHAP

T1 - Large magnetic reconnection in the earth's magnetotail

T2 - Reconstruction method and data analysis

AU - Penz, T.

AU - Ivanova, V. V.

AU - Semenov, V. S.

AU - Nakamura, R.

AU - Ivanov, I. B.

AU - Biernat, H. K.

AU - Heyn, M. F.

AU - Sergeev, V. A.

AU - Kubyshkin, I. V.

PY - 2011/1/1

Y1 - 2011/1/1

N2 - Magnetic reconnection is a topological restructuring of magnetic field lines, leading to a conversion of magnetic energy into kinetic energy and a heating of the plasma. It takes place in regions with strong magnetic gradients: the Earth's magnetopause and the plasma sheet in the magnetotail, during solar and stellar flare events, and in laboratory plasmas on the Earth. It is also involved in astrophysical phenomena like the generation of relativistic jets and processes in accretion disks. The Earth's magnetosphere is the only region where signatures of magnetic reconnection can be measured in-situ by satellites. Based on the method developed by Semenov et al. [1], we solve the direct problem of magnetic reconnection and calculate the magnetic field and plasma flow disturbances in a compressible plasma caused by transient reconnection. In order to get the reconnection rate from measured data, we invert the problem. Since the inverse problem is ill-posed, it is treated with the method of regularization. Application of this method to Cluster measurements from September 8th, 2002, where a series of Earth-ward propagating 1-minute scalemagnetic field and plasma flow variationswere observed outside of the plasma sheet, showed good agreement for the z-component of the reconstructed magnetic field. The reconnection rate is about 1 mV/m and the reconnection region is located at about 24-25 Earth radii in the magnetotail.

AB - Magnetic reconnection is a topological restructuring of magnetic field lines, leading to a conversion of magnetic energy into kinetic energy and a heating of the plasma. It takes place in regions with strong magnetic gradients: the Earth's magnetopause and the plasma sheet in the magnetotail, during solar and stellar flare events, and in laboratory plasmas on the Earth. It is also involved in astrophysical phenomena like the generation of relativistic jets and processes in accretion disks. The Earth's magnetosphere is the only region where signatures of magnetic reconnection can be measured in-situ by satellites. Based on the method developed by Semenov et al. [1], we solve the direct problem of magnetic reconnection and calculate the magnetic field and plasma flow disturbances in a compressible plasma caused by transient reconnection. In order to get the reconnection rate from measured data, we invert the problem. Since the inverse problem is ill-posed, it is treated with the method of regularization. Application of this method to Cluster measurements from September 8th, 2002, where a series of Earth-ward propagating 1-minute scalemagnetic field and plasma flow variationswere observed outside of the plasma sheet, showed good agreement for the z-component of the reconstructed magnetic field. The reconnection rate is about 1 mV/m and the reconnection region is located at about 24-25 Earth radii in the magnetotail.

KW - Cluster

KW - Magnetic reconnection

KW - Magnetohydrodynamics

KW - Magnetotail

UR - http://www.scopus.com/inward/record.url?scp=85048535704&partnerID=8YFLogxK

M3 - Chapter

AN - SCOPUS:85048535704

SN - 9781611229844

SP - 117

EP - 140

BT - Perspectives in Mathematical Physics

PB - Nova Science Publishers, Inc.

ER -

ID: 52652904