Emission of Radio Waves in Particle Showers: Validation of Microscopic Simulations with the SLAC T-510 Experiment and their Potential in the Future Square Kilometre Array (Springer Theses)

★★★★★ 4.7 69 reviews

US$37.06
Price when purchased online
Free shipping Free 30-day returns

Sold and shipped by biozipcode.com
We aim to show you accurate product information. Manufacturers, suppliers and others provide what you see here.
US$37.06
Price when purchased online
Free shipping Free 30-day returns

How do you want your item?
You get 30 days free! Choose a plan at checkout.
Shipping
Arrives Jul 21
Free
Pickup
Check nearby
Delivery
Not available

Sold and shipped by biozipcode.com
Free 30-day returns Details

Product details

Management number 233567982 Release Date 2026/06/27 List Price US$37.06 Model Number 233567982
Category

This thesis offers the first laboratory validation of microscopic simulations of radio emission from particle showers, including a detailed description of the simulation study. It presents a potential future avenue for resolving the mass composition of cosmic rays via radio detection of air showers.  Particle showers are created from cascading interactions when high-energy particles collide with matter, e.g. with air in the case of cosmic radiation, or with a particle detector in the case of experiments at CERN. These showers can consist of billions of particles, mostly electrons, positrons and photons. They emit radio waves when the absorbing medium is in a magnetic field, and this radio emission can be used as a novel means of detecting and drawing inferences on the shower and the primary particle. The new method is currently being established in cosmic ray research, where large antenna arrays may soon replace or complement traditional particle detectors. In this study, a complete microscopic simulation of a radio-emission experiment conducted at Stanford Linear Accelerator Center (SLAC), Stanford/USA, is performed, and the underlying physical models are validated. The model is subsequently applied to the Square Kilometre Array (SKA) project, which is a large interferometer for radio astronomy. It is demonstrated that the SKA, with some modifications, might also be used for cosmic ray research based on radio detection of high-energy particles from the cosmos. Read more

ISBN10 3319634100
ISBN13 978-3319634104
Edition 1st ed. 2017
Language English
Publisher Springer
Dimensions 6.14 x 0.38 x 9.21 inches
Item Weight 13.6 ounces
Print length 146 pages
Publication date August 16, 2017

Correction of product information

If you notice any omissions or errors in the product information on this page, please use the correction request form below.

Correction Request Form

Customer ratings & reviews

4.7 out of 5
★★★★★
69 ratings | 28 reviews
How item rating is calculated
View all reviews
5 stars
86% (59)
4 stars
2% (1)
3 stars
1% (1)
2 stars
1% (1)
1 star
10% (7)
Sort by

There are currently no written reviews for this product.