Particle Penetration and Radiation Effects: General Aspects and Stopping of Swift Point ChargesSpringer Science & Business Media, 16. mar. 2006 - 437 síður Drawing on the author’s forty-plus years of experience as a researcher in the interaction of charged particles with matter, this book emphasizes the theoretical description of fundamental phenomena. Special attention is given to classic topics such as Rutherford scattering; the theory of particle stopping; the statistical description of energy loss and multiple scattering and numerous more recent developments. |
Efni
Introduction | 3 |
Elementary Penetration Theory | 27 |
Elastic Scattering 67 | 66 |
Bohr and Bethe Theory 109 | 107 |
Dielectric Stopping Theory | 141 |
Extensions | 181 |
Arriving at Numbers 229 | 228 |
8 | 275 |
EnergyLoss Spectra | 327 |
A Selected Tutorials | 377 |
BBooksandReviews 419 | 422 |
| 429 | |
Aðrar útgáfur - View all
Particle Penetration and Radiation Effects: General Aspects and Stopping of ... Peter Sigmund Takmarkað sýnishorn - 2006 |
Particle Penetration and Radiation Effects: General Aspects and Stopping of ... Peter Sigmund Engin sýnishorn í boði - 2007 |
Particle Penetration and Radiation Effects: General Aspects and Stopping of ... Peter Sigmund Engin sýnishorn í boði - 2006 |
Common terms and phrases
according angle applied approach approximation assumed atom beam becomes Bethe Bohr Born calculation Chapter charge classical close collision compared consider contribution correction Coulomb density dependence derived determined different direction discussed distribution effect elastic scattering electron energy loss energy transfer equation estimate evaluated excitation expansion experimental expression factor field Figure find first formula function given harmonic heavy hence impact parameter important initial integral interaction ions leading limit Lindhard mass material matter mean measurements medium Methods momentum motion oscillator particles Phys Rev physics potential present problem projectile projectile speed quantity quantum quantum mechanics radiation range reference regime relation relativistic represents result scattering Sect seen shell correction shows Sigmund solid solution spectrum stopping cross section stopping force straggling target electron term theory thickness units validity variable velocity volume wave yields