Explore: Electron Acceleration
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Books Results
Source: The Open Library
The Open Library Search Results
Search results from The Open Library
1Correlative analysis of hard and soft X-ray emissions in solar flares using CGRO/BATSE and YOHKOH
By Dominic M. Zarro
“Correlative analysis of hard and soft X-ray emissions in solar flares using CGRO/BATSE and YOHKOH” Metadata:
- Title: ➤ Correlative analysis of hard and soft X-ray emissions in solar flares using CGRO/BATSE and YOHKOH
- Author: Dominic M. Zarro
- Language: English
- Publisher: ➤ National Technical Information Service, distributor - National Aeronautics and Space Administration
- Publish Date: 1996
- Publish Location: ➤ Springfield, Va - [Washington, DC
“Correlative analysis of hard and soft X-ray emissions in solar flares using CGRO/BATSE and YOHKOH” Subjects and Themes:
- Subjects: ➤ Plasma heating - Electric fields - Solar flares - Plasma currents - X rays - Electron acceleration
Edition Identifiers:
- The Open Library ID: OL15501465M
Access and General Info:
- First Year Published: 1996
- Is Full Text Available: No
- Is The Book Public: No
- Access Status: No_ebook
Online Access
Downloads Are Not Available:
The book is not public therefore the download links will not allow the download of the entire book, however, borrowing the book online is available.
Online Borrowing:
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2Effects of spatial gradients on electron runaway acceleration
By Peter MacNeice
“Effects of spatial gradients on electron runaway acceleration” Metadata:
- Title: ➤ Effects of spatial gradients on electron runaway acceleration
- Author: Peter MacNeice
- Language: English
- Publisher: ➤ National Technical Information Service, distributor] - National Aeronautics and Space Administration, Scientific and Technical Information Branch
- Publish Date: 1996
- Publish Location: ➤ [Springfield, Va - [Washington, D.C.]
“Effects of spatial gradients on electron runaway acceleration” Subjects and Themes:
- Subjects: Velocity distribution - Spatial distribution - Electric fields - Electron acceleration - Distribution functions
Edition Identifiers:
- The Open Library ID: OL15505266M
Access and General Info:
- First Year Published: 1996
- Is Full Text Available: No
- Is The Book Public: No
- Access Status: No_ebook
Online Access
Downloads Are Not Available:
The book is not public therefore the download links will not allow the download of the entire book, however, borrowing the book online is available.
Online Borrowing:
Online Marketplaces
Find Effects of spatial gradients on electron runaway acceleration at online marketplaces:
- Amazon: Audiable, Kindle and printed editions.
- Ebay: New & used books.
Wiki
Source: Wikipedia
Wikipedia Results
Search Results from Wikipedia
Plasma acceleration
Plasma acceleration is a technique for accelerating charged particles, such as electrons or ions, using the electric field associated with an electron plasma
Particle accelerator
Plasma Acceleration of electrons and positrons Laser and High-Gradient Structure-Based Acceleration Beam-Driven Acceleration Laser-Plasma Acceleration of
Linear particle accelerator
discs. The 1947 accelerator had an energy of 6 MeV. Over time, electron acceleration at the SLAC National Accelerator Laboratory would extend to a size
Aurora
energy of all of the electrons transiting downward through the acceleration region by the same amount. This accelerates electrons starting from the magnetosphere
Therac-25
for electron acceleration in a more confined space, changing its energy source from klystron to magnetron. In certain techniques, the electrons produced
Electron scattering
Electron scattering occurs when electrons are displaced from their original trajectory. This is due to the electrostatic forces within matter or, if an
Smith–Purcell effect
Acceleration or change of direction of motion: e.g. Bremsstrahlung radiation (e.g. in X-ray tubes), synchrotron radiation (as in FEL due to electron beams
Double layer (plasma physics)
tubes, where sustained energy is provided within the layer for electron acceleration by an external power source. Double layers are claimed to have been
Bohr model
he required that electrons come in pairs so the rotational acceleration of each electron was matched across the orbit. By 1913 Bohr had already shown
Night-vision device
of silver, cesium, and oxygen, and electrostatic inversion with electron acceleration produced gain. An experimental Soviet device called the PAU-2 was