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Rainbows in channeling of charged pa...

Neskovic, Nebojsa.

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Rainbows in channeling of charged particles in crystals and nanotubes

Record Type:	Electronic resources : Monograph/item
Title/Author:	Rainbows in channeling of charged particles in crystals and nanotubes/ by Nebojsa Neskovic, Srdjan Petrovic, Marko Cosic.
Author:	Neskovic, Nebojsa.
other author:	Petrovic, Srdjan.
Published:	Cham :Springer International Publishing : : 2017.,
Description:	x, 194 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	Preface -- Rainbows -- Optical Rainbows -- Particle Rainbows -- Ion Channeling -- Analytical Approach to Ion Channeling -- Computer Simulation of Ion Channeling -- Crystal Rainbows -- Ion Channeling in Very Thin Crystals -- Crystal Rainbows as Elementary Catastrophes -- Theory of Crystal Rainbows -- Zero-Degree Focusing Effect -- Superfocusing Effect -- Rainbows in Proton Channeling in Silicon Crystals -- Rainbow Interaction Potentials -- Multiplicity of the Inverse Process -- Evolution of Crystal Rainbows -- Doughnut Effect -- Rainbows with Protons and Carbon Nanotubes -- Rainbows with a Straight Short Bundle of Nanotubes -- Rainbows with a Straight Short Nanotube with Defects -- Rainbows with a Bent Short Nanotube -- Rainbows with Straight Long Nanotubes -- Rainbows with Positrons and Carbon Nanotubes -- Rainbow Diagrams -- Quantum Theory of the Process -- Spatial Primary Rainbows -- Angular Primary Rainbows -- Anharmonicity of the Interaction.
Contained By:	Springer eBooks
Subject:	Particles (Nuclear physics) -
Online resource:	http://dx.doi.org/10.1007/978-3-319-61524-0
ISBN:	9783319615240

Rainbows in channeling of charged particles in crystals and nanotubes
Neskovic, Nebojsa.

Rainbows in channeling of charged particles in crystals and nanotubes[electronic resource] /by Nebojsa Neskovic, Srdjan Petrovic, Marko Cosic. - Cham :Springer International Publishing :2017. - x, 194 p. :ill. (some col.), digital ;24 cm. - Lecture notes in nanoscale science and technology,v.252195-2159 ;. - Lecture notes in nanoscale science and technology ;v.25..

Preface -- Rainbows -- Optical Rainbows -- Particle Rainbows -- Ion Channeling -- Analytical Approach to Ion Channeling -- Computer Simulation of Ion Channeling -- Crystal Rainbows -- Ion Channeling in Very Thin Crystals -- Crystal Rainbows as Elementary Catastrophes -- Theory of Crystal Rainbows -- Zero-Degree Focusing Effect -- Superfocusing Effect -- Rainbows in Proton Channeling in Silicon Crystals -- Rainbow Interaction Potentials -- Multiplicity of the Inverse Process -- Evolution of Crystal Rainbows -- Doughnut Effect -- Rainbows with Protons and Carbon Nanotubes -- Rainbows with a Straight Short Bundle of Nanotubes -- Rainbows with a Straight Short Nanotube with Defects -- Rainbows with a Bent Short Nanotube -- Rainbows with Straight Long Nanotubes -- Rainbows with Positrons and Carbon Nanotubes -- Rainbow Diagrams -- Quantum Theory of the Process -- Spatial Primary Rainbows -- Angular Primary Rainbows -- Anharmonicity of the Interaction.

This book discusses the effects, modeling, latest results, and nanotechnology applications of rainbows that appear during channeling of charged particles in crystals and nanotubes. The authors begin with a brief review of the optical and particle rainbow effects followed by a detailed description of crystal rainbows, which appear in ion channeling in crystals, and their modeling using catastrophe theory. The effects of spatial and angular focusing of channeled ions are described, with special attention given to the applications of the former effect to subatomic microscopy. The results of a thorough study of the recent high-resolution channeling experiments performed with protons of energies between 2.0 and 0.7 MeV and a 55 nm thick silicon crystal are also provided. This study opens up the potential for accurate analysis of very thin crystals. Also presented are recent results related to rainbows occurring in proton transmission through carbon nanotubes, and a detailed quantum consideration of the transmission of positrons of an energy of 1 MeV through very short carbon nanotubes. This process is determined by the rainbow effect. The initial positron beam is represented as an ensemble of non-interacting Gaussian wave packets, and the principal and supernumerary primary rainbows appearing in the spatial and angular distributions of transmitted positrons are clearly identified. They are explained by the effects of wrinkling, concentration and coordination of the wave packets.

ISBN: 9783319615240

Standard No.: 10.1007/978-3-319-61524-0doiSubjects--Topical Terms:

535550
Particles (Nuclear physics)

LC Class. No.: QC793.2

Dewey Class. No.: 539.72

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100 1 $a Neskovic, Nebojsa. $3 3251028
245 1 0 $a Rainbows in channeling of charged particles in crystals and nanotubes $h [electronic resource] / $c by Nebojsa Neskovic, Srdjan Petrovic, Marko Cosic.
260 $a Cham : $b Springer International Publishing : $b Imprint: Springer, $c 2017.
300 $a x, 194 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a Lecture notes in nanoscale science and technology, $x 2195-2159 ; $v v.25
505 0 $a Preface -- Rainbows -- Optical Rainbows -- Particle Rainbows -- Ion Channeling -- Analytical Approach to Ion Channeling -- Computer Simulation of Ion Channeling -- Crystal Rainbows -- Ion Channeling in Very Thin Crystals -- Crystal Rainbows as Elementary Catastrophes -- Theory of Crystal Rainbows -- Zero-Degree Focusing Effect -- Superfocusing Effect -- Rainbows in Proton Channeling in Silicon Crystals -- Rainbow Interaction Potentials -- Multiplicity of the Inverse Process -- Evolution of Crystal Rainbows -- Doughnut Effect -- Rainbows with Protons and Carbon Nanotubes -- Rainbows with a Straight Short Bundle of Nanotubes -- Rainbows with a Straight Short Nanotube with Defects -- Rainbows with a Bent Short Nanotube -- Rainbows with Straight Long Nanotubes -- Rainbows with Positrons and Carbon Nanotubes -- Rainbow Diagrams -- Quantum Theory of the Process -- Spatial Primary Rainbows -- Angular Primary Rainbows -- Anharmonicity of the Interaction.
520 $a This book discusses the effects, modeling, latest results, and nanotechnology applications of rainbows that appear during channeling of charged particles in crystals and nanotubes. The authors begin with a brief review of the optical and particle rainbow effects followed by a detailed description of crystal rainbows, which appear in ion channeling in crystals, and their modeling using catastrophe theory. The effects of spatial and angular focusing of channeled ions are described, with special attention given to the applications of the former effect to subatomic microscopy. The results of a thorough study of the recent high-resolution channeling experiments performed with protons of energies between 2.0 and 0.7 MeV and a 55 nm thick silicon crystal are also provided. This study opens up the potential for accurate analysis of very thin crystals. Also presented are recent results related to rainbows occurring in proton transmission through carbon nanotubes, and a detailed quantum consideration of the transmission of positrons of an energy of 1 MeV through very short carbon nanotubes. This process is determined by the rainbow effect. The initial positron beam is represented as an ensemble of non-interacting Gaussian wave packets, and the principal and supernumerary primary rainbows appearing in the spatial and angular distributions of transmitted positrons are clearly identified. They are explained by the effects of wrinkling, concentration and coordination of the wave packets.
650 0 $a Particles (Nuclear physics) $3 535550
650 0 $a Rainbows. $2 fast $3 2178301
650 0 $a Crystallography. $3 518393
650 0 $a Nanotubes. $3 604058
650 1 4 $a Physics. $3 516296
650 2 4 $a Nanoscale Science and Technology. $3 1244861
650 2 4 $a Optical and Electronic Materials. $3 891120
650 2 4 $a Nanotechnology and Microengineering. $3 1005737
650 2 4 $a Nanotechnology. $3 526235
700 1 $a Petrovic, Srdjan. $3 3251029
700 1 $a Cosic, Marko. $3 3251030
710 2 $a SpringerLink (Online service) $3 836513
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830 0 $a Lecture notes in nanoscale science and technology ; $v v.25. $3 3251031
856 4 0 $u http://dx.doi.org/10.1007/978-3-319-61524-0
950 $a Physics and Astronomy (Springer-11651)