Verfügbarkeit: Fundamentals and applications of heavy ion collisions :

Fundamentals and applications of heavy ion collisions :: below 10 MeV/nucleon energies /

An up-to-date text, covering the concept of incomplete fusion (ICF) in heavy ion (HI) interactions at energies below 10 MeV/ nucleon. Important concepts including the exciton model, the Harp Miller and Berne model, Hybrid model, Sum rule model, Hot spot model and promptly emitted particles model are...

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Hauptverfasser:	Prasad, R. (Emeritus Professor of Physics) (VerfasserIn), Singh, Bhanu Prakash (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge, United Kingdom : Cambridge University Press, [2018]
Schlagworte:	Heavy ion collisions. Particles (Nuclear physics) > Experiments. Collisions d'ions lourds. Particules (Physique nucléaire) > Expériences. SCIENCE > Physics > Quantum Theory. Heavy ion collisions Particles (Nuclear physics) > Experiments
Online-Zugang:	Volltext
Zusammenfassung:	An up-to-date text, covering the concept of incomplete fusion (ICF) in heavy ion (HI) interactions at energies below 10 MeV/ nucleon. Important concepts including the exciton model, the Harp Miller and Berne model, Hybrid model, Sum rule model, Hot spot model and promptly emitted particles model are covered in depth. It studies the ICF and PE-emission in heavy ion reactions at low energies using off-beam and in-beam experimental techniques. Theories of complete fusion (CF) of heavy ions based on Compound Nucleus (CN) mechanism of statistical nuclear reactions, details of the Computer code PACE4 based on CN mechanism, pre-equilibrium (PE) emission, modeling of (ICF) and their limits of application are discussed in detail.
Beschreibung:	1 online resource (xxiv, 294 pages) : illustrations
Bibliographie:	Includes bibliographical references (pages 273-290) and index.
ISBN:	9781108674027 110867402X 9781108628198 1108628192

Internformat

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520			\|a An up-to-date text, covering the concept of incomplete fusion (ICF) in heavy ion (HI) interactions at energies below 10 MeV/ nucleon. Important concepts including the exciton model, the Harp Miller and Berne model, Hybrid model, Sum rule model, Hot spot model and promptly emitted particles model are covered in depth. It studies the ICF and PE-emission in heavy ion reactions at low energies using off-beam and in-beam experimental techniques. Theories of complete fusion (CF) of heavy ions based on Compound Nucleus (CN) mechanism of statistical nuclear reactions, details of the Computer code PACE4 based on CN mechanism, pre-equilibrium (PE) emission, modeling of (ICF) and their limits of application are discussed in detail.
505	0		\|a Cover; Fundamentals and Applications of Heavy Ion Collisions; Title Page; Copyright Page; Contents; Figures; Tables; Preface; Acknowledgements; Chapter 1: Introduction; 1.1 Background; 1.1.1 Artificial radioactivity; 1.1.2 Neutron era; 1.2 Classification of Ions and Research with Accelerated Light Ions; 1.3 Accelerated Heavy Ions; 1.4 Special Features of Heavy Ions; 1.5 Motivation for this Book; Chapter 2: Theoretical Tools, Reaction Mechanism and Computer Codes; 2.1 Complete Fusion of Heavy Ions; 2.1.1 Hauser-Feshbach formalism for spinless particles; 2.1.2 Level width and level separation
505	8		\|a 2.1.3 Evaporation spectra2.1.4 Width fluctuation correction; 2.1.5 Effective transmission coefficients; 2.1.6 De-excitation sequence of the compound nucleus; 2.2 The Pre-equilibrium Emission in Statistical Nuclear Reactions; 2.2.1 The exciton model; 2.2.2 The Harp-Miller-Berne (HMB) model; 2.2.3 The hybrid model; 2.2.4 The intra-nuclear cascade model; 2.2.5 The totally quantum mechanical model of pre-equilibrium emission; 2.3 The Incomplete Fusion of Heavy Ions; 2.3.1 The hot spot model; 2.3.2 The promptly-emitted particles (PEPs) model; 2.3.3 The sum rule model
505	8		\|a 2.3.4 Breakup fusion model (BUF)2.4 Computer Codes; 2.4.1 Computer code PACE 4; 2.4.2 Computer code CASCADE; 2.4.3 Computer codes GNASH and McGNASH; 2.4.4 Computer code ALICE 91 and ALICE IPPE; 2.4.5 The computer code EMPIRE; Chapter 3: Experimental Details and Formulations; 3.1 Introduction; 3.2 Formulations for Measuring Cross-section; 3.3 Experimental Details; 3.3.1 Off-beam experiments; 3.3.2 Pelletron accelerator at the IUAC, New Delhi; 3.3.3 Experimental details for the measurement of excitation functions; 3.4 Target Preparation; 3.5 Sample Irradiation by HI Beam
505	8		\|a 3.6 Post-irradiation Analysis3.6.1 Calibration of HPGe detector and efficiency measurement; 3.6.2 Identification of reaction residues; 3.7 Measurement of Recoil Range Distribution (RRD) of Heavy Residues; 3.7.1 Target and catcher foil preparation for RRD measurements; 3.8 Measurement of Angular Distribution of Residues; 3.9 In-beam Experiments; 3.9.1 Target preparation; 3.9.2 Experimental setup used; 3.9.3 The gamma detector array (GDA) setup; 3.9.4 Charged particle detector array (CPDA) setup; 3.9.5 Irradiations for spin distribution measurement; Chapter 4: Measurements
505	8		\|a 4.1 Measurement of Excitation Functions and their Analysis4.1.1 Reactions initiated by 12C beam; 4.1.2 Reactions initiated by 13C beam; 4.1.3 Reactions initiated by 14N beam; 4.1.4 Reactions initiated by 16O beam; 4.1.5 Reactions initiated by 18O beam; 4.1.6 Reactions initiated by 19F beam; 4.2 Measurement of Recoil Range Distributions (RRD) and their Analysis; 4.2.1 Recoil range distribution for the system 12C+159Tb; 4.2.2 Recoil range distribution for the system 16O+159Tb; 4.2.3 Recoil range distribution for the system 16O+169Tm; 4.2.4 Recoil range distribution for the system 16O+181Ta
650		0	\|a Heavy ion collisions. \|0 http://id.loc.gov/authorities/subjects/sh85059846
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contents	Cover; Fundamentals and Applications of Heavy Ion Collisions; Title Page; Copyright Page; Contents; Figures; Tables; Preface; Acknowledgements; Chapter 1: Introduction; 1.1 Background; 1.1.1 Artificial radioactivity; 1.1.2 Neutron era; 1.2 Classification of Ions and Research with Accelerated Light Ions; 1.3 Accelerated Heavy Ions; 1.4 Special Features of Heavy Ions; 1.5 Motivation for this Book; Chapter 2: Theoretical Tools, Reaction Mechanism and Computer Codes; 2.1 Complete Fusion of Heavy Ions; 2.1.1 Hauser-Feshbach formalism for spinless particles; 2.1.2 Level width and level separation 2.1.3 Evaporation spectra2.1.4 Width fluctuation correction; 2.1.5 Effective transmission coefficients; 2.1.6 De-excitation sequence of the compound nucleus; 2.2 The Pre-equilibrium Emission in Statistical Nuclear Reactions; 2.2.1 The exciton model; 2.2.2 The Harp-Miller-Berne (HMB) model; 2.2.3 The hybrid model; 2.2.4 The intra-nuclear cascade model; 2.2.5 The totally quantum mechanical model of pre-equilibrium emission; 2.3 The Incomplete Fusion of Heavy Ions; 2.3.1 The hot spot model; 2.3.2 The promptly-emitted particles (PEPs) model; 2.3.3 The sum rule model 2.3.4 Breakup fusion model (BUF)2.4 Computer Codes; 2.4.1 Computer code PACE 4; 2.4.2 Computer code CASCADE; 2.4.3 Computer codes GNASH and McGNASH; 2.4.4 Computer code ALICE 91 and ALICE IPPE; 2.4.5 The computer code EMPIRE; Chapter 3: Experimental Details and Formulations; 3.1 Introduction; 3.2 Formulations for Measuring Cross-section; 3.3 Experimental Details; 3.3.1 Off-beam experiments; 3.3.2 Pelletron accelerator at the IUAC, New Delhi; 3.3.3 Experimental details for the measurement of excitation functions; 3.4 Target Preparation; 3.5 Sample Irradiation by HI Beam 3.6 Post-irradiation Analysis3.6.1 Calibration of HPGe detector and efficiency measurement; 3.6.2 Identification of reaction residues; 3.7 Measurement of Recoil Range Distribution (RRD) of Heavy Residues; 3.7.1 Target and catcher foil preparation for RRD measurements; 3.8 Measurement of Angular Distribution of Residues; 3.9 In-beam Experiments; 3.9.1 Target preparation; 3.9.2 Experimental setup used; 3.9.3 The gamma detector array (GDA) setup; 3.9.4 Charged particle detector array (CPDA) setup; 3.9.5 Irradiations for spin distribution measurement; Chapter 4: Measurements 4.1 Measurement of Excitation Functions and their Analysis4.1.1 Reactions initiated by 12C beam; 4.1.2 Reactions initiated by 13C beam; 4.1.3 Reactions initiated by 14N beam; 4.1.4 Reactions initiated by 16O beam; 4.1.5 Reactions initiated by 18O beam; 4.1.6 Reactions initiated by 19F beam; 4.2 Measurement of Recoil Range Distributions (RRD) and their Analysis; 4.2.1 Recoil range distribution for the system 12C+159Tb; 4.2.2 Recoil range distribution for the system 16O+159Tb; 4.2.3 Recoil range distribution for the system 16O+169Tm; 4.2.4 Recoil range distribution for the system 16O+181Ta
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publisher	Cambridge University Press,
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spelling	Prasad, R. (Emeritus Professor of Physics), author. https://id.oclc.org/worldcat/entity/E39PCjDk4qkHQJPhBfHV7tDQFX http://id.loc.gov/authorities/names/no2016096333 Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies / R. Prasad, B.P. Singh. Cambridge, United Kingdom : Cambridge University Press, [2018] 1 online resource (xxiv, 294 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references (pages 273-290) and index. Print version record. An up-to-date text, covering the concept of incomplete fusion (ICF) in heavy ion (HI) interactions at energies below 10 MeV/ nucleon. Important concepts including the exciton model, the Harp Miller and Berne model, Hybrid model, Sum rule model, Hot spot model and promptly emitted particles model are covered in depth. It studies the ICF and PE-emission in heavy ion reactions at low energies using off-beam and in-beam experimental techniques. Theories of complete fusion (CF) of heavy ions based on Compound Nucleus (CN) mechanism of statistical nuclear reactions, details of the Computer code PACE4 based on CN mechanism, pre-equilibrium (PE) emission, modeling of (ICF) and their limits of application are discussed in detail. Cover; Fundamentals and Applications of Heavy Ion Collisions; Title Page; Copyright Page; Contents; Figures; Tables; Preface; Acknowledgements; Chapter 1: Introduction; 1.1 Background; 1.1.1 Artificial radioactivity; 1.1.2 Neutron era; 1.2 Classification of Ions and Research with Accelerated Light Ions; 1.3 Accelerated Heavy Ions; 1.4 Special Features of Heavy Ions; 1.5 Motivation for this Book; Chapter 2: Theoretical Tools, Reaction Mechanism and Computer Codes; 2.1 Complete Fusion of Heavy Ions; 2.1.1 Hauser-Feshbach formalism for spinless particles; 2.1.2 Level width and level separation 2.1.3 Evaporation spectra2.1.4 Width fluctuation correction; 2.1.5 Effective transmission coefficients; 2.1.6 De-excitation sequence of the compound nucleus; 2.2 The Pre-equilibrium Emission in Statistical Nuclear Reactions; 2.2.1 The exciton model; 2.2.2 The Harp-Miller-Berne (HMB) model; 2.2.3 The hybrid model; 2.2.4 The intra-nuclear cascade model; 2.2.5 The totally quantum mechanical model of pre-equilibrium emission; 2.3 The Incomplete Fusion of Heavy Ions; 2.3.1 The hot spot model; 2.3.2 The promptly-emitted particles (PEPs) model; 2.3.3 The sum rule model 2.3.4 Breakup fusion model (BUF)2.4 Computer Codes; 2.4.1 Computer code PACE 4; 2.4.2 Computer code CASCADE; 2.4.3 Computer codes GNASH and McGNASH; 2.4.4 Computer code ALICE 91 and ALICE IPPE; 2.4.5 The computer code EMPIRE; Chapter 3: Experimental Details and Formulations; 3.1 Introduction; 3.2 Formulations for Measuring Cross-section; 3.3 Experimental Details; 3.3.1 Off-beam experiments; 3.3.2 Pelletron accelerator at the IUAC, New Delhi; 3.3.3 Experimental details for the measurement of excitation functions; 3.4 Target Preparation; 3.5 Sample Irradiation by HI Beam 3.6 Post-irradiation Analysis3.6.1 Calibration of HPGe detector and efficiency measurement; 3.6.2 Identification of reaction residues; 3.7 Measurement of Recoil Range Distribution (RRD) of Heavy Residues; 3.7.1 Target and catcher foil preparation for RRD measurements; 3.8 Measurement of Angular Distribution of Residues; 3.9 In-beam Experiments; 3.9.1 Target preparation; 3.9.2 Experimental setup used; 3.9.3 The gamma detector array (GDA) setup; 3.9.4 Charged particle detector array (CPDA) setup; 3.9.5 Irradiations for spin distribution measurement; Chapter 4: Measurements 4.1 Measurement of Excitation Functions and their Analysis4.1.1 Reactions initiated by 12C beam; 4.1.2 Reactions initiated by 13C beam; 4.1.3 Reactions initiated by 14N beam; 4.1.4 Reactions initiated by 16O beam; 4.1.5 Reactions initiated by 18O beam; 4.1.6 Reactions initiated by 19F beam; 4.2 Measurement of Recoil Range Distributions (RRD) and their Analysis; 4.2.1 Recoil range distribution for the system 12C+159Tb; 4.2.2 Recoil range distribution for the system 16O+159Tb; 4.2.3 Recoil range distribution for the system 16O+169Tm; 4.2.4 Recoil range distribution for the system 16O+181Ta Heavy ion collisions. http://id.loc.gov/authorities/subjects/sh85059846 Particles (Nuclear physics) Experiments. Collisions d'ions lourds. Particules (Physique nucléaire) Expériences. SCIENCE Physics Quantum Theory. bisacsh Heavy ion collisions fast Particles (Nuclear physics) Experiments fast Singh, Bhanu Prakash, author. has work: Fundamentals and applications of heavy ion collisions (Text) https://id.oclc.org/worldcat/entity/E39PCFQmdmQrtTqBkXWTbCRPDC https://id.oclc.org/worldcat/ontology/hasWork Print version: Prasad, R. (Emeritus Professor of Physics). Fundamentals and applications of heavy ion collisions. Cambridge, United Kingdom : Cambridge University Press, [2018] 1108499112 9781108499118 (OCoLC)1027362640 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1813273 Volltext
spellingShingle	Prasad, R. (Emeritus Professor of Physics) Singh, Bhanu Prakash Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies / Cover; Fundamentals and Applications of Heavy Ion Collisions; Title Page; Copyright Page; Contents; Figures; Tables; Preface; Acknowledgements; Chapter 1: Introduction; 1.1 Background; 1.1.1 Artificial radioactivity; 1.1.2 Neutron era; 1.2 Classification of Ions and Research with Accelerated Light Ions; 1.3 Accelerated Heavy Ions; 1.4 Special Features of Heavy Ions; 1.5 Motivation for this Book; Chapter 2: Theoretical Tools, Reaction Mechanism and Computer Codes; 2.1 Complete Fusion of Heavy Ions; 2.1.1 Hauser-Feshbach formalism for spinless particles; 2.1.2 Level width and level separation 2.1.3 Evaporation spectra2.1.4 Width fluctuation correction; 2.1.5 Effective transmission coefficients; 2.1.6 De-excitation sequence of the compound nucleus; 2.2 The Pre-equilibrium Emission in Statistical Nuclear Reactions; 2.2.1 The exciton model; 2.2.2 The Harp-Miller-Berne (HMB) model; 2.2.3 The hybrid model; 2.2.4 The intra-nuclear cascade model; 2.2.5 The totally quantum mechanical model of pre-equilibrium emission; 2.3 The Incomplete Fusion of Heavy Ions; 2.3.1 The hot spot model; 2.3.2 The promptly-emitted particles (PEPs) model; 2.3.3 The sum rule model 2.3.4 Breakup fusion model (BUF)2.4 Computer Codes; 2.4.1 Computer code PACE 4; 2.4.2 Computer code CASCADE; 2.4.3 Computer codes GNASH and McGNASH; 2.4.4 Computer code ALICE 91 and ALICE IPPE; 2.4.5 The computer code EMPIRE; Chapter 3: Experimental Details and Formulations; 3.1 Introduction; 3.2 Formulations for Measuring Cross-section; 3.3 Experimental Details; 3.3.1 Off-beam experiments; 3.3.2 Pelletron accelerator at the IUAC, New Delhi; 3.3.3 Experimental details for the measurement of excitation functions; 3.4 Target Preparation; 3.5 Sample Irradiation by HI Beam 3.6 Post-irradiation Analysis3.6.1 Calibration of HPGe detector and efficiency measurement; 3.6.2 Identification of reaction residues; 3.7 Measurement of Recoil Range Distribution (RRD) of Heavy Residues; 3.7.1 Target and catcher foil preparation for RRD measurements; 3.8 Measurement of Angular Distribution of Residues; 3.9 In-beam Experiments; 3.9.1 Target preparation; 3.9.2 Experimental setup used; 3.9.3 The gamma detector array (GDA) setup; 3.9.4 Charged particle detector array (CPDA) setup; 3.9.5 Irradiations for spin distribution measurement; Chapter 4: Measurements 4.1 Measurement of Excitation Functions and their Analysis4.1.1 Reactions initiated by 12C beam; 4.1.2 Reactions initiated by 13C beam; 4.1.3 Reactions initiated by 14N beam; 4.1.4 Reactions initiated by 16O beam; 4.1.5 Reactions initiated by 18O beam; 4.1.6 Reactions initiated by 19F beam; 4.2 Measurement of Recoil Range Distributions (RRD) and their Analysis; 4.2.1 Recoil range distribution for the system 12C+159Tb; 4.2.2 Recoil range distribution for the system 16O+159Tb; 4.2.3 Recoil range distribution for the system 16O+169Tm; 4.2.4 Recoil range distribution for the system 16O+181Ta Heavy ion collisions. http://id.loc.gov/authorities/subjects/sh85059846 Particles (Nuclear physics) Experiments. Collisions d'ions lourds. Particules (Physique nucléaire) Expériences. SCIENCE Physics Quantum Theory. bisacsh Heavy ion collisions fast Particles (Nuclear physics) Experiments fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85059846
title	Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies /
title_auth	Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies /
title_exact_search	Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies /
title_full	Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies / R. Prasad, B.P. Singh.
title_fullStr	Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies / R. Prasad, B.P. Singh.
title_full_unstemmed	Fundamentals and applications of heavy ion collisions : below 10 MeV/nucleon energies / R. Prasad, B.P. Singh.
title_short	Fundamentals and applications of heavy ion collisions :
title_sort	fundamentals and applications of heavy ion collisions below 10 mev nucleon energies
title_sub	below 10 MeV/nucleon energies /
topic	Heavy ion collisions. http://id.loc.gov/authorities/subjects/sh85059846 Particles (Nuclear physics) Experiments. Collisions d'ions lourds. Particules (Physique nucléaire) Expériences. SCIENCE Physics Quantum Theory. bisacsh Heavy ion collisions fast Particles (Nuclear physics) Experiments fast
topic_facet	Heavy ion collisions. Particles (Nuclear physics) Experiments. Collisions d'ions lourds. Particules (Physique nucléaire) Expériences. SCIENCE Physics Quantum Theory. Heavy ion collisions Particles (Nuclear physics) Experiments
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1813273
work_keys_str_mv	AT prasadr fundamentalsandapplicationsofheavyioncollisionsbelow10mevnucleonenergies AT singhbhanuprakash fundamentalsandapplicationsofheavyioncollisionsbelow10mevnucleonenergies

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