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E-raamat: Solar and Space Physics: A Science for a Technological Society

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  • Formaat: 466 pages
  • Ilmumisaeg: 26-Aug-2013
  • Kirjastus: National Academies Press
  • Keel: eng
  • ISBN-13: 9780309164290
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Solar and Space Physics: A Science for a Technological SocietySuurem pilt
  • Formaat: 466 pages
  • Ilmumisaeg: 26-Aug-2013
  • Kirjastus: National Academies Press
  • Keel: eng
  • ISBN-13: 9780309164290
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From the interior of the Sun, to the upper atmosphere and near-space environment of Earth, and outward to a region far beyond Pluto where the Sun's influence wanes, advances during the past decade in space physics and solar physics--the disciplines NASA refers to as heliophysics--have yielded spectacular insights into the phenomena that affect our home in space. Solar and Space Physics, from the National Research Council's (NRC's) Committee for a Decadal Strategy in Solar and Space Physics, is the second NRC decadal survey in heliophysics. Building on the research accomplishments realized during the past decade, the report presents a program of basic and applied research for the period 2013-2022 that will improve scientific understanding of the mechanisms that drive the Sun's activity and the fundamental physical processes underlying near-Earth plasma dynamics, determine the physical interactions of Earth's atmospheric layers in the context of the connected Sun-Earth system, and enhance greatly the capability to provide realistic and specific forecasts of Earth's space environment that will better serve the needs of society. Although the recommended program is directed primarily at NASA and the National Science Foundation for action, the report also recommends actions by other federal agencies, especially the parts of the National Oceanic and Atmospheric Administration charged with the day-to-day (operational) forecast of space weather. In addition to the recommendations included in this summary, related recommendations are presented in this report.
Summary 1(14)
PART I REPORT FROM THE DECADAL SURVEY COMMITTEE
1 Enabling Discovery In Solar And Space Physics
15(23)
Earth's Dynamic Space Environment
15(2)
Framing the 2013--2022 Decadal Survey
17(4)
Key Science Goals for a Decade
21(1)
Key Science Goal 1
22(3)
Key Science Goal 2
25(2)
Key Science Goal 3
27(1)
Key Science Goal 4
28(2)
Optimizing a Science Program
30(1)
The Enabling Foundation
31(1)
Ground-Based Facilities
31(1)
Small Space Missions
32(1)
Moderate-Scale Space Missions
33(1)
Major Space Missions
34(1)
Implementation Strategies
35(1)
Funding Priorities for NASA's Heliophysics Program
35(1)
Decision Rules
35(2)
A Decade of Transformative Science
37(1)
2 Solar And Space Physics: Recent Discoveries, Future Frontiers
38(29)
Scope and Relevance of the Discipline
38(2)
A Decade of Heliophysics Discovery
40(1)
The Sun and Heliosphere
40(4)
Solar Wind-Magnetosphere Interactions
44(7)
Atmosphere-Ionosphere-Magnetosphere Interactions
51(4)
Key Science Challenges
55(1)
Challenges Related to the Sun and Heliosphere
55(2)
Challenges Related to Solar Wind-Magnetosphere Interactions
57(4)
Challenges Related to Atmosphere-Ionosphere-Magnetosphere Interactions
61(4)
Rising to the Challenges of the Coming Decade
65(2)
3 Addressing Societal Needs
67(8)
Impacts of Earth's Near-Space Environment
67(1)
The Climate System
67(1)
Satellite Infrastructure
68(1)
Ionospheric Variability, Communication, and Navigation
69(1)
Radiation and Human Space Exploration
69(1)
Geomagnetic Effects on the Electric Power Grid
70(1)
Severe Solar Storms
71(1)
The Challenge of Predicting Space Weather Events
71(4)
4 Recommendations
75(41)
Research Recommendations
76(1)
Baseline Priority for NASA and NSF: Complete the Current Program
76(1)
First Research Recommendation [ R1.0], for NASA, NSF, and Other Agencies---Implement the DRIVE Initiative
77(16)
NASA Mission Lines
93(1)
Second Research Recommendation [ R2.0] for NASA---Accelerate and Expand the Heliophysics Explorer Program
94(2)
Third Research Recommendation [ R3.0] for NASA---Restructure Solar-Terrestrial Probes as a Moderate-Scale, Principal-Investigator-led Line
96(10)
Fourth Research Recommendation [ R4.0] for NASA---Implement a Large Living With a Star Mission
106(3)
Applications Recommendations: Space Weather and Space Climatology
109(2)
First Applications Recommendation [ A1.0]---Recharter the National Space Weather Program
111(1)
Benefits of Research-to-Operations and Operations-to-Research Interplay
112(1)
Second Applications Recommendation [ A2.0]---Work in a Multiagency Partnership to Achieve Continuity of Solar and Solar Wind Observations
112(1)
Models and the Transition of Research to Operations
113(3)
5 Nsf Program Implementation
116(1)
Ground-Based Observations
116
Advanced Technology Solar Telescope
11(106)
Midscale Funding Line
117(7)
Candidates for a Midscale Line
118(2)
CubeSats
120(1)
Education
120(1)
Faculty and Curriculum Development
120(1)
Undergraduate and Graduate Training
120(1)
Multidisciplinary Research
121(1)
Funding Cross-Cutting Science
121(1)
Heliophysics Science Centers
121(1)
Solar and Space Physics at NSF
122(1)
International Collaborations
122(2)
6 Nasa Program Implementation
124(11)
The NASA Heliophysics Core Program
124(6)
Decision Rules and Augmentation Priorities
130(1)
Recommended Decision Rules
131(3)
Recommended Augmentation Priorities
134(1)
International Collaborations
134(1)
7 Space Weather And Space Climatology: A Vision For Future Capabilities
135(14)
Motivation---Economic and Societal Value
135(3)
Strengthening the National Capability for Obtaining Space Weather and Climate Information
138(1)
Current National Space Weather Program
138(1)
Research Sources of Space Weather Information
139(1)
A Robust Space Weather and Climatology Program
140(1)
Core Elements
140(1)
New Elements
140(1)
An Illustrative Scenario
141(2)
Implementation Concept
143(3)
Summary Comments
146(3)
PART II REPORTS TO THE SURVEY COMMITTEE FROM THE DISCIPLINE PANELS
8 Report Of The Panel On Atmosphere-Ionosphere-Magnetosphere Interactions
149(60)
8.1 Summary of AIMI Science Priorities and Imperatives for the 2013--2022 Decade
149(4)
8.1.1 Spaceflight Missions
150(1)
8.1.2 Explorers, Suborbital, and Other Platforms
151(1)
8.1.3 Ground-Based Facilities
151(1)
8.1.4 Theory and Modeling
152(1)
8.1.5 Enabling Capabilities
153(1)
8.2 Motivations for Study of Atmosphere-Ionosphere-Magnetosphere Interactions
153(2)
8.3 Significant Accomplishments of the Previous Decade
155(8)
8.3.1 Magnetosphere-Ionosphere Coupling
156(2)
8.3.2 Solar-AIM Coupling
158(1)
8.3.3 Meteorology-AIM Coupling
158(1)
8.3.4 AIM Coupling and Global Change
159(3)
8.3.5 International Programs
162(1)
8.3.6 Current and Future Programs
162(1)
8.4 Science Goals and Priorities for the 2013--2022 Decade
163(19)
8.4.1 AIMI Science Goal
1. Global Behavior of the Ionosphere-Thermosphere
164(4)
8.4.2 AIMI Science Goal
2. Meteorological Driving of the IT System
168(4)
8.4.3 AIMI Science Goal
3. Ionosphere-Thermosphere-Magnetosphere Coupling
172(3)
8.4.4 AIMI Science Goal
4. Plasma-Neutral Coupling in a Magnetic Field
175(3)
8.4.5 AIMI Science Goal
5. Planetary Change
178(4)
8.4.6 Science Priorities
182(1)
8.5 Implementation Strategies and Enabling Capabilities
182(27)
8.5.1 Spaceflight Missions
183(10)
8.5.2 Explorers, Suborbital, and Other Platforms
193(2)
8.5.3 Ground-Based Facilities
195(7)
8.5.4 Theory and Modeling
202(1)
8.5.5 Enabling Capabilities
202(7)
9 Report Of The Panel On Solar Wind-Magnetosphere Interactions
209(52)
9.1 Summary of SWMI Science Priorities and Imperatives
209(3)
9.1.1 Missions
211(1)
9.1.2 DRIVE-Related Actions
211(1)
9.1.3 Space Weather
212(1)
9.2 Introduction to SWMI Science
212(3)
9.2.1 What Is the Magnetosphere?
212(3)
9.3 Significant Accomplishments of the Previous Decade
215(8)
9.3.1 Scientific Progression
215(1)
9.3.2 Regions
216(1)
9.3.3 Processes
217(2)
9.3.4 Linkages
219(1)
9.3.5 System Dynamics
220(3)
9.3.6 Comparative Magnetospheres
223(1)
9.4 Science Goals for the Coming Decade
223(14)
9.4.1 Regions
225(5)
9.4.2 Universal Processes
230(3)
9.4.3 System Dynamics
233(1)
9.4.4 Comparative Magnetospheres
234(2)
9.4.5 Summary
236(1)
9.5 Prioritized Imperatives
237(22)
9.5.1 Introduction
237(2)
9.5.2 Missions
239(13)
9.5.3 DRIVE-Related Actions
252(4)
9.5.4 Space Weather
256(1)
9.5.5 Prioritization
257(2)
9.6 Connections to Other Disciplines
259(2)
9.6.1 Solar and Heliospheric Physics
259(1)
9.6.2 Atmosphere and Ionosphere
260(1)
9.6.3 Planetary Science
260(1)
9.6.4 Physics and Astrophysics
260(1)
9.6.5 Complex Nonlinear System Studies
260(1)
10 Report Of The Panel On Solar And Heliospheric Physics
261(66)
10.1 Physics of the Sun and Heliosphere---Major Science Goals
261(2)
10.2 Solar and Heliospheric Physics Imperatives
263(3)
10.2.1 Prioritized Imperatives for NASA
263(2)
10.2.2 Prioritized Imperatives for NSF
265(1)
10.2.3 Prioritized Multiagency Imperatives
265(1)
10.3 Significant Accomplishments During the Previous Decade
266(17)
10.3.1 Determining How the Sun Generates the Quasi-cyclical Variable Magnetic Field That Extends Throughout the Heliosphere
266(2)
10.3.2 Determining How the Sun's Magnetism Creates Its Dynamic Atmosphere
268(6)
10.3.3 Determining How Magnetic Energy Is Stored and Explosively Released
274(6)
10.3.4 Discovering How the Sun Interacts with the Local Galactic Medium and Protects Earth
280(3)
10.4 Solar and Heliospheric Objectives for the Coming Decade
283(15)
10.4.1 Determine How the Sun Generates the Quasi-cyclical Variable Magnetic Field That Extends Throughout the Heliosphere
283(2)
10.4.2 Determine How the Sun's Magnetism Creates Its Dynamic Atmosphere
285(1)
10.4.3 Determine How Magnetic Energy Is Stored and Explosively Released
286(2)
10.4.4 Discover How the Sun Interacts with the Local Galactic Medium and Protects Earth
288(3)
10.4.5 Contributions of the SHP Panel's Program to Achieving the Decadal Survey's Key Science Goals
291(1)
10.4.6 Goals for the Ongoing Program and Missions in Development
291(6)
10.4.7 Goals for Ground-Based Facilities
297(1)
10.5 Imperatives for the Health and Progress of Solar and Heliospheric Physics
298(25)
10.5.1 NASA Missions in Development
299(1)
10.5.2 New Imperatives for NASA
299(12)
10.5.3 Summary of NASA-Related Imperatives Developed by the Panel on Solar and Heliospheric Physics
311(4)
10.5.4 NSF-Related Initiatives
315(5)
10.5.5 Multiagency Imperatives
320(3)
10.6 Connections to Other Disciplines
323(4)
10.6.1 Earth Science and Climate Change
323(1)
10.6.2 Astrophysics
324(1)
10.6.3 Comparative Planetology and Astrospheres
324(3)
Appendixes
A Statement of Task and Work Plan
327(5)
B Instrumentation, Data Systems, and Technology
332(10)
C Toward a Diversified, Distributed Sensor Deployment Strategy
342(9)
D Education and Workforce Issues in Solar and Space Physics
351(14)
E Mission Development and Assessment Process
365(15)
F Committee, Panels, and Staff Biographical Information
380(21)
G Acronyms
401(8)
H Request for Information from the Community
409(3)
I List of Responses to Request for Information
412
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