Physics and engineering of radiation detection [[electronic resource] /] / Syed Naeem Ahmed |
Autore | Ahmed Syed Naeem <1965-> |
Edizione | [1st ed.] |
Pubbl/distr/stampa | San Diego ; ; London, : Academic Press, 2007 |
Descrizione fisica | 1 online resource (789 p.) |
Disciplina | 539.77 |
Soggetto topico |
Radiation - Measurement - Instruments
Physical instruments |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-27265-5
9786611272654 0-08-056964-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Physics and Engineering of Radiation Detection; Copyright Page; Contents; Preface; Chapter 1 Properties and Sources of Radiation; 1.1 Types of Radiation; 1.2 Waves or Particles?; 1.3 Radioactivity and Radioactive Decay; 1.3.A: Decay Energy or Q-Value; 1.3.B: The Decay Equation; 1.3.C: Composite Radionuclides; 1.3.D: Radioactive Chain; 1.3.E: Decay Equilibrium; 1.3.F: Branching Ratio; 1.3.G: Units of Radioactivity; 1.4 Activation; 1.5 Sources of Radiation; 1.5.A: Natural Sources; 1.5.B: Man-Made Sources; 1.6 General Properties and Sources of Particles and Waves; 1.6.A: Photons
1.6.B: Electrons 1.6.C: Positrons; 1.6.D: Protons; 1.6.E: Neutrons; 1.6.F: Alpha Particles; 1.6.G: Fission Fragments; 1.6.H: Muons, Neutrinos and other Particles; Chapter 2 Interaction of Radiation with Matter; 2.1 Some Basic Concepts and Terminologies; 2.1.A: Inverse Square Law; 2.1.B: Cross Section; 2.1.C: Mean Free Path; 2.1.D: Radiation Length; 2.1.E: Conservation Laws; 2.2 Types of Particle Interactions; 2.2.A: Elastic Scattering; 2.2.B: Inelastic Scattering; 2.2.C: Annihilation; 2.2.D: Bremsstrahlung; 2.2.E: Cherenkov Radiation; 2.3 Interaction of Photons with Matter 2.3.A: Interaction Mechanisms 2.3.B: Passage of Photons through Matter; 2.4 Interaction of Heavy Charged Particles with Matter; 2.4.A: Rutherford Scattering; 2.4.B: Passage of Charged Particles through Matter; 2.4.C: Bragg Curve; 2.4.D: Energy Straggling; 2.4.E: Range and Range Straggling; 2.5 Interaction of Electrons with Matter; 2.5.A: Interaction Modes; 2.5.B: Passage of Electrons through Matter; 2.5.C: Energy Straggling; 2.5.D: Range of Electrons; 2.6 Interaction of Neutral Particles with Matter; 2.6.A: Neutrons; 2.7 Problems; Chapter 3 Gas Filled Detectors 3.1 Production of Electron-Ion Pairs 3.2 Diffusion and Drift of Charges in Gases; 3.2.A: Diffusion in the Absence of Electric Field; 3.2.B: Drift of Charges in Electric Field; 3.2.C: Effects of Impurities on Charge Transport; 3.3 Regions of Operation of Gas Filled Detectors; 3.3.A: Recombination Region; 3.3.B: Ion Chamber Region; 3.3.C: Proportional Region; 3.3.D: Region of Limited Proportionality; 3.3.E: Geiger-Mueller Region; 3.3.F: Continuous Discharge; 3.4 Ionization Chambers; 3.4.A: Current Voltage Characteristics; 3.4.B: Mechanical Design; 3.4.C: Choice of Gas 3.4.D: Special Types of Ion Chambers 3.4.E: Applications of Ion Chambers; 3.4.F: Advantages and Disadvantages of Ion Chambers; 3.5 Proportional Counters; 3.5.A: Multiplication Factor; 3.5.B: Choice of Gas; 3.5.C: Special Types of Proportional Counters; 3.6 Geiger-Mueller Counters; 3.6.A: Current-Voltage Characteristics; 3.6.B: Dead Time; 3.6.C: Choice of Gas; 3.6.D: Quenching; 3.6.E: Advantages and Disadvantages of GM Counters; 3.7 Sources of Error in Gaseous Detectors; 3.7.A: Recombination Losses; 3.7.B: Effects of Contaminants; 3.7.C: Effects of Space Charge Buildup; 3.8 Detector Efficiency 3.8.A: Signal-to-Noise Ratio |
Record Nr. | UNINA-9910450567803321 |
Ahmed Syed Naeem <1965-> | ||
San Diego ; ; London, : Academic Press, 2007 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Physics and engineering of radiation detection [[electronic resource] /] / Syed Naeem Ahmed |
Autore | Ahmed Syed Naeem <1965-> |
Edizione | [1st ed.] |
Pubbl/distr/stampa | San Diego ; ; London, : Academic Press, 2007 |
Descrizione fisica | 1 online resource (789 p.) |
Disciplina | 539.77 |
Soggetto topico |
Radiation - Measurement - Instruments
Physical instruments |
ISBN |
1-281-27265-5
9786611272654 0-08-056964-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Physics and Engineering of Radiation Detection; Copyright Page; Contents; Preface; Chapter 1 Properties and Sources of Radiation; 1.1 Types of Radiation; 1.2 Waves or Particles?; 1.3 Radioactivity and Radioactive Decay; 1.3.A: Decay Energy or Q-Value; 1.3.B: The Decay Equation; 1.3.C: Composite Radionuclides; 1.3.D: Radioactive Chain; 1.3.E: Decay Equilibrium; 1.3.F: Branching Ratio; 1.3.G: Units of Radioactivity; 1.4 Activation; 1.5 Sources of Radiation; 1.5.A: Natural Sources; 1.5.B: Man-Made Sources; 1.6 General Properties and Sources of Particles and Waves; 1.6.A: Photons
1.6.B: Electrons 1.6.C: Positrons; 1.6.D: Protons; 1.6.E: Neutrons; 1.6.F: Alpha Particles; 1.6.G: Fission Fragments; 1.6.H: Muons, Neutrinos and other Particles; Chapter 2 Interaction of Radiation with Matter; 2.1 Some Basic Concepts and Terminologies; 2.1.A: Inverse Square Law; 2.1.B: Cross Section; 2.1.C: Mean Free Path; 2.1.D: Radiation Length; 2.1.E: Conservation Laws; 2.2 Types of Particle Interactions; 2.2.A: Elastic Scattering; 2.2.B: Inelastic Scattering; 2.2.C: Annihilation; 2.2.D: Bremsstrahlung; 2.2.E: Cherenkov Radiation; 2.3 Interaction of Photons with Matter 2.3.A: Interaction Mechanisms 2.3.B: Passage of Photons through Matter; 2.4 Interaction of Heavy Charged Particles with Matter; 2.4.A: Rutherford Scattering; 2.4.B: Passage of Charged Particles through Matter; 2.4.C: Bragg Curve; 2.4.D: Energy Straggling; 2.4.E: Range and Range Straggling; 2.5 Interaction of Electrons with Matter; 2.5.A: Interaction Modes; 2.5.B: Passage of Electrons through Matter; 2.5.C: Energy Straggling; 2.5.D: Range of Electrons; 2.6 Interaction of Neutral Particles with Matter; 2.6.A: Neutrons; 2.7 Problems; Chapter 3 Gas Filled Detectors 3.1 Production of Electron-Ion Pairs 3.2 Diffusion and Drift of Charges in Gases; 3.2.A: Diffusion in the Absence of Electric Field; 3.2.B: Drift of Charges in Electric Field; 3.2.C: Effects of Impurities on Charge Transport; 3.3 Regions of Operation of Gas Filled Detectors; 3.3.A: Recombination Region; 3.3.B: Ion Chamber Region; 3.3.C: Proportional Region; 3.3.D: Region of Limited Proportionality; 3.3.E: Geiger-Mueller Region; 3.3.F: Continuous Discharge; 3.4 Ionization Chambers; 3.4.A: Current Voltage Characteristics; 3.4.B: Mechanical Design; 3.4.C: Choice of Gas 3.4.D: Special Types of Ion Chambers 3.4.E: Applications of Ion Chambers; 3.4.F: Advantages and Disadvantages of Ion Chambers; 3.5 Proportional Counters; 3.5.A: Multiplication Factor; 3.5.B: Choice of Gas; 3.5.C: Special Types of Proportional Counters; 3.6 Geiger-Mueller Counters; 3.6.A: Current-Voltage Characteristics; 3.6.B: Dead Time; 3.6.C: Choice of Gas; 3.6.D: Quenching; 3.6.E: Advantages and Disadvantages of GM Counters; 3.7 Sources of Error in Gaseous Detectors; 3.7.A: Recombination Losses; 3.7.B: Effects of Contaminants; 3.7.C: Effects of Space Charge Buildup; 3.8 Detector Efficiency 3.8.A: Signal-to-Noise Ratio |
Record Nr. | UNINA-9910784847303321 |
Ahmed Syed Naeem <1965-> | ||
San Diego ; ; London, : Academic Press, 2007 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Physics and engineering of radiation detection / / Syed Naeem Ahmed |
Autore | Ahmed Syed Naeem <1965-> |
Edizione | [1st ed.] |
Pubbl/distr/stampa | San Diego ; ; London, : Academic Press, 2007 |
Descrizione fisica | 1 online resource (789 p.) |
Disciplina | 539.77 |
Soggetto topico |
Radiation - Measurement - Instruments
Physical instruments |
ISBN |
1-281-27265-5
9786611272654 0-08-056964-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Front Cover; Physics and Engineering of Radiation Detection; Copyright Page; Contents; Preface; Chapter 1 Properties and Sources of Radiation; 1.1 Types of Radiation; 1.2 Waves or Particles?; 1.3 Radioactivity and Radioactive Decay; 1.3.A: Decay Energy or Q-Value; 1.3.B: The Decay Equation; 1.3.C: Composite Radionuclides; 1.3.D: Radioactive Chain; 1.3.E: Decay Equilibrium; 1.3.F: Branching Ratio; 1.3.G: Units of Radioactivity; 1.4 Activation; 1.5 Sources of Radiation; 1.5.A: Natural Sources; 1.5.B: Man-Made Sources; 1.6 General Properties and Sources of Particles and Waves; 1.6.A: Photons
1.6.B: Electrons 1.6.C: Positrons; 1.6.D: Protons; 1.6.E: Neutrons; 1.6.F: Alpha Particles; 1.6.G: Fission Fragments; 1.6.H: Muons, Neutrinos and other Particles; Chapter 2 Interaction of Radiation with Matter; 2.1 Some Basic Concepts and Terminologies; 2.1.A: Inverse Square Law; 2.1.B: Cross Section; 2.1.C: Mean Free Path; 2.1.D: Radiation Length; 2.1.E: Conservation Laws; 2.2 Types of Particle Interactions; 2.2.A: Elastic Scattering; 2.2.B: Inelastic Scattering; 2.2.C: Annihilation; 2.2.D: Bremsstrahlung; 2.2.E: Cherenkov Radiation; 2.3 Interaction of Photons with Matter 2.3.A: Interaction Mechanisms 2.3.B: Passage of Photons through Matter; 2.4 Interaction of Heavy Charged Particles with Matter; 2.4.A: Rutherford Scattering; 2.4.B: Passage of Charged Particles through Matter; 2.4.C: Bragg Curve; 2.4.D: Energy Straggling; 2.4.E: Range and Range Straggling; 2.5 Interaction of Electrons with Matter; 2.5.A: Interaction Modes; 2.5.B: Passage of Electrons through Matter; 2.5.C: Energy Straggling; 2.5.D: Range of Electrons; 2.6 Interaction of Neutral Particles with Matter; 2.6.A: Neutrons; 2.7 Problems; Chapter 3 Gas Filled Detectors 3.1 Production of Electron-Ion Pairs 3.2 Diffusion and Drift of Charges in Gases; 3.2.A: Diffusion in the Absence of Electric Field; 3.2.B: Drift of Charges in Electric Field; 3.2.C: Effects of Impurities on Charge Transport; 3.3 Regions of Operation of Gas Filled Detectors; 3.3.A: Recombination Region; 3.3.B: Ion Chamber Region; 3.3.C: Proportional Region; 3.3.D: Region of Limited Proportionality; 3.3.E: Geiger-Mueller Region; 3.3.F: Continuous Discharge; 3.4 Ionization Chambers; 3.4.A: Current Voltage Characteristics; 3.4.B: Mechanical Design; 3.4.C: Choice of Gas 3.4.D: Special Types of Ion Chambers 3.4.E: Applications of Ion Chambers; 3.4.F: Advantages and Disadvantages of Ion Chambers; 3.5 Proportional Counters; 3.5.A: Multiplication Factor; 3.5.B: Choice of Gas; 3.5.C: Special Types of Proportional Counters; 3.6 Geiger-Mueller Counters; 3.6.A: Current-Voltage Characteristics; 3.6.B: Dead Time; 3.6.C: Choice of Gas; 3.6.D: Quenching; 3.6.E: Advantages and Disadvantages of GM Counters; 3.7 Sources of Error in Gaseous Detectors; 3.7.A: Recombination Losses; 3.7.B: Effects of Contaminants; 3.7.C: Effects of Space Charge Buildup; 3.8 Detector Efficiency 3.8.A: Signal-to-Noise Ratio |
Record Nr. | UNINA-9910808706203321 |
Ahmed Syed Naeem <1965-> | ||
San Diego ; ; London, : Academic Press, 2007 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|