ScienceOpen:
research and publishing network
For Publishers
Discovery
Metadata
Peer review
Hosting
Publishing
For Researchers
Join
Publish
Review
Collect
My ScienceOpen
Sign in
Register
Dashboard
Blog
About
Search
Advanced search
My ScienceOpen
Sign in
Register
Dashboard
Search
Search
Advanced search
For Publishers
Discovery
Metadata
Peer review
Hosting
Publishing
For Researchers
Join
Publish
Review
Collect
Blog
About
1
views
38
references
Top references
cited by
1
Cite as...
0 reviews
Review
0
comments
Comment
0
recommends
+1
Recommend
0
collections
Add to
0
shares
Share
Twitter
Sina Weibo
Facebook
Email
3,781
similar
All similar
Record
: found
Abstract
: not found
Book Chapter
: not found
Magnetosphere-Ionosphere Coupling in the Solar System
The Impact of O+on Magnetotail Dynamics
edited_book
Author(s):
Lynn M. Kistler
Publication date
(Online):
October 01 2016
Publisher:
John Wiley & Sons, Inc.
Read this book at
Publisher
Buy book
Review
Review book
Invite someone to review
Bookmark
Cite as...
There is no author summary for this book yet. Authors can add summaries to their books on ScienceOpen to make them more accessible to a non-specialist audience.
Related collections
Collective Dynamics
Most cited references
38
Record
: found
Abstract
: not found
Article
: not found
Changes in magnetospheric configuration during the substorm growth phase
F. V. Coroniti
,
C. Kennel
(1972)
0
comments
Cited
94
times
– based on
0
reviews
Review now
Bookmark
Record
: found
Abstract
: not found
Article
: not found
Near-Earth magnetotail shape and size as determined from the magnetopause flaring angle
C T Russell
,
S. Petrinec
(1996)
0
comments
Cited
93
times
– based on
0
reviews
Review now
Bookmark
Record
: found
Abstract
: not found
Article
: not found
The possible role of ionospheric oxygen in the initiation and development of plasma sheet instabilities
E. W. Hones
,
D Baker
,
J. Birn
…
(1982)
0
comments
Cited
69
times
– based on
0
reviews
Review now
Bookmark
All references
Author and book information
Book Chapter
Publication date (Online):
October 01 2016
Pages
: 79-89
DOI:
10.1002/9781119066880.ch6
SO-VID:
292609f4-1749-4e61-89a2-fc1db9059ac2
History
Data availability:
Comments
Comment on this book
Sign in to comment
Book chapters
pp. i
Front Matter
pp. 1
Magnetosphere-Ionosphere Coupling, Past to Future
pp. 19
Measurements of Ion Outflows from the Earth's Ionosphere
pp. 33
Low-energy Ion Outflow Observed by Cluster
pp. 49
Advances in Understanding Ionospheric Convection at High Latitudes
pp. 61
Energetic and Dynamic Coupling of the Magnetosphere-Ionosphere-Thermosphere System
pp. 79
The Impact of O+on Magnetotail Dynamics
pp. 91
Thermal and Low-energy Ion Outflows in and through the Polar Cap
pp. 101
Ionospheric and Solar Wind Contributions to Magnetospheric Ion Density and Temperature throughout the Magnetotail
pp. 115
How Whistler-Mode Waves and Thermal Plasma Density Control the Global Distribution of the Diffuse Aurora and the Dynamical Evolution of Radiation Belt Electrons
pp. 127
Plasma Wave Measurements from the Van Allen Probes
pp. 145
Ring Current Ions Measured by the RBSPICE Instrument on the Van Allen Probes Mission
pp. 155
Global Modeling of Wave Generation Processes in the Inner Magnetosphere
pp. 167
Modeling Magnetosphere-Ionosphere Coupling via Ion Outflow
pp. 179
Coupling the Generalized Polar Wind Model to Global Magnetohydrodynamics
pp. 195
Coupling Ionospheric Outflow into Magnetospheric Models
pp. 205
Modeling of the Evolution of Storm-Enhanced Density Plume during the 24 to 25 October 2011 Geomagnetic Storm
pp. 215
Forty-Seven Years of the Rice Convection Model
pp. 227
Magnetospheric Model Performance during Conjugate Aurora
pp. 235
Day-to-Day Variability of the Quiet-Time Plasmasphere Caused by Thermosphere Winds
pp. 243
Magnetosphere-Ionosphere Coupling at Planets and Satellites
pp. 259
Plasma Measurements at Non-Magnetic Solar System Bodies
pp. 277
Plasma Wave Observations with Cassini at Saturn
pp. 291
Titan's Interaction with Saturn's Magnetosphere
pp. 307
Magnetosphere-Ionosphere Coupling at Jupiter and Saturn
pp. 319
Global MHD Modeling of the Coupled Magnetosphere-Ionosphere System at Saturn
pp. 335
Simulation Studies of Magnetosphere and Ionosphere Coupling in Saturn's Magnetosphere
pp. 345
Characterizing the Enceladus Torus by Its Contribution to Saturn's Magnetosphere
pp. 355
Future Atmosphere-Ionosphere-Magnetosphere Coupling Study Requirements
pp. 377
A LISTING OF THE DOI URL VIDEO LINKAGES IN THE ORDER THAT THEY APPEAR IN THE MONOGRAPH
pp. 379
INDEX
Similar content
3,781
Some characteristics of rapidly flowing magnetotail plasmas: Further comments on ‘On hot tenuous plasmas, fireballs, and boundary layers in the Earth's magnetotail’ by L. A. Frank, K. L. Ackerson, and R. P. Lepping
Authors:
E. W. Hones
Substorm processes in the magnetotail: Comments on “On hot tenuous plasmas, fireballs, and boundary layers in the Earth's magnetotail” by Frank et al.
Authors:
Edward W. Hones
A Statistical Study on Wide‐Amplitude Kinetic Alfvénic Pulse at 8–12
R
E
in the Magnetotail by THEMIS Spacecraft From 2008 to 2010
Authors:
L. Zhang
,
C. WANG
,
L Dai
…
See all similar
Cited by
1
Recent Advancements and Remaining Challenges Associated With Inner Magnetosphere Cross‐Energy/Population Interactions (IMCEPI)
Authors:
Yiqun Yu
,
Mike Liemohn
,
Vania Jordanova
…
See all cited by