Verfügbarkeit: Atoms, radiation, and radiation protection

Atoms, radiation, and radiation protection:

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1. Verfasser:	Turner, James E. 1930-2008 (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH-Verl. 2007
Ausgabe:	3., completely rev. and enl. ed.
Schriftenreihe:	Physics textbook
Schlagworte:	Dosimétrie Rayonnement Rayonnement - Sécurité - Mesures Ionizing radiation Nuclear Energy Radiation Effects Radiation Protection Radiation > Safety measures Radiometry Ionisierende Strahlung Dosimetrie Strahlenschutz Radiometrie Lehrbuch
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XX, 585 S. Ill., graph. Darst. 24 cm
ISBN:	9783527406067 3527406069

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Datensatz im Suchindex

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adam_text	I Contents Preface to the First Edition XV Preface to the Second Edition XVII Preface to the Third Edition XIX 1 About Atomic Physics and Radiation 1 1.1 Classical Physics 1 1.2 Discovery of X Rays 1 1.3 Some Important Dates in Atomic and Radiation Physics 3 1.4 Important Dates in Radiation Protection 8 1.5 Sources and Levels of Radiation Exposure 11 1.6 Suggested Reading 12 2 Atomic Structure and Atomic Radiation 15 2.1 The Atomic Nature of Matter (ca. 1900) 15 2.2 The Rutherford Nuclear Atom 18 2.3 Bohr's Theory of the Hydrogen Atom 19 2.4 Semidassical Mechanics, 1913 1925 25 2.5 Quantum Mechanics 28 2.6 The Pauli Exclusion Principle 33 2.7 Atomic Theory of the Periodic System 34 2.8 Molecules 36 2.9 Solids and Energy Bands 39 2.10 Continuous and Characteristic X Rays 40 2.11 Auger Electrons 45 2.12 Suggested Reading 47 2.13 Problems 48 2.14 Answers 53 3 The Nucleus and Nuclear Radiation 55 3.1 Nuclear Structure 55 Atoms, Radiation, and Radiation Protection. }ames E. Turner Copyright © 2007 WILEY VCH Verlag GmbH Co. KGaA, Weinheim ISBN: 978 3 527 40606 7 VIII I Contents 3.2 Nuclear Binding Energies 58 3.3 Alpha Decay 62 3.4 Beta Decay (ß~) 65 3.5 Gamma Ray Emission 68 3.6 Internal Conversion 72 3.7 Orbital Electron Capture 72 3.8 Positron Decay (/3+) 75 3.9 Suggested Reading 79 3.10 Problems 80 3.11 Answers 82 4 Radioactive Decay 83 4.1 Activity 83 4.2 Exponential Decay 83 4.3 Specific Activity 88 4.4 Serial Radioactive Decay 89 Secular Equilibrium (Tj » T2) 89 General Case 91 Transient Equilibrium (Ti T%) 91 No Equilibrium (Ti T2) 93 4.5 Natural Radioactivity 96 4.6 Radon and Radon Daughters 97 4.7 Suggested Reading 102 4.8 Problems 103 4.9 Answers Í08 5 Interaction of Heavy Charged Particles with Matter 109 5.1 Energy Loss Mechanisms 109 5.2 Maximum Energy Transfer in a Single Collision 111 5.3 Single Collision Energy Loss Spectra 113 5.4 Stopping Power 115 5.5 Semiclassical Calculation of Stopping Power 116 5.6 The Bethe Formula for Stopping Power 120 5.7 Mean Excitation Energies 121 5.8 Table for Computation of Stopping Powers 123 5.9 Stopping Power of Water for Protons 125 5.10 Range 126 5.11 Slowing Down Time 131 5.12 Limitations of Bethe's Stopping Power Formula 132 5.13 Suggested Reading 133 5.14 Problems 134 5.15 Answers 137 Contents I IX 6 Interaction of Electrons with Matter 139 6.1 Energy Loss Mechanisms 139 6.2 Collisional Stopping Power 139 6.3 Radiative Stopping Power 144 6.4 Radiation Yield 145 6.5 Range 147 6.6 Slowing Down Time 148 6.7 Examples of Electron Tracks in Water 150 6.8 Suggested Reading 155 6.9 Problems 155 6.10 answers 158 7 Phenomena Associated with Charged Particle Tracks 159 7.1 Delta Rays 159 7.2 Restricted Stopping Power 159 7.3 Linear Energy Transfer (LET) 162 7.4 Specific Ionization 163 7.5 Energy Straggling 364 7.6 Range Straggling 167 7.7 Multiple Coulomb Scattering 169 7.8 Suggested Reading 170 7.9 Problems 171 7.10 Answers 172 8 Interaction of Photons with Matter 173 8.1 Interaction Mechanisms 173 8.2 Photoelectric Effect 174 8.3 Energy Momentum Requirements for Photon Absorption by an Electron 176 8.4 Compton Effect 177 8.5 Pair Production 185 8.6 Photonuclear Reactions 186 8.7 Attenuation Coefficients 187 8.8 Energy Transfer and Energy Absorption Coefficients 192 8.9 Calculation of Energy Absorption and Energy Transfer 197 8.10 Suggested Reading 203 8.11 Problems 201 8.12 Answers 207 9 Neutrons, Fission, and Criticality 209 9.1 Introduction 209 9.2 Neutron Sources 209 XI Contents 9.3 Classification of Neutrons 214 9.4 Interactions with Matter 215 9.5 Elastic Scattering 216 9.6 Neutron Proton Scattering Energy Loss Spectrum 219 9.7 Reactions 223 9.8 Energetics of Threshold Reactions 226 9.9 Neutron Activation 228 9.10 Fission 230 9.11 Criticality 232 9.12 Suggested Reading 235 9.13 Problems 235 9.14 Answers 239 10 Methods of Radiation Detection 241 10.1 Ionization in Gases 241 Ionization Current 241 W Values 243 Ionization Pulses 245 Gas Filled Detectors 247 10.2 Ionization in Semiconductors 252 Band Theory of Solids 252 Semiconductors 255 Semiconductor Junctions 259 Radiation Measuring Devices 262 10.3 Scintillation 266 General 266 Organic Scintillators 267 Inorganic Scintillators 268 10.4 Photographic Film 275 10.5 Thermoluminescence 279 10.6 Other Methods 281 Particle Track Registration 281 Optically Stimulated Luminescence 282 Direct Ion Storage (DIS) 283 Radiophotoluminescence 285 Chemical Dosimeters 285 Calorimetry 286 Cerenkov Detectors 286 10.7 Neutron Detection 287 Slow Neutrons 287 Intermediate and Fast Neutrons 290 10.8 Suggested Reading 296 10.9 Problems 296 10.10 Answers 301 Contents I XI 11 Statistics 303 11.1 The Statistical World of Atoms and Radiation 303 11.2 Radioactive Disintegration—Exponential Decay 303 11.3 Radioactive Disintegration—a Bernoulli Process 304 11.4 The Binomial Distribution 307 11.5 The Poisson Distribution 331 11.6 The Normal Distribution 3Î5 11.7 Error and Error Propagation 321 11.8 Counting Radioactive Samples 322 Gross Count Rates 322 Net Count Rates 324 Optimum Counting Times 325 Counting Short Lived Samples 326 11.9 Minimum Significant Measured Activity—Type I Errors 327 11.10 Minimum Detectable True Activity—Type II Errors 331 11.11 Criteria for Radiobioassay, HPS N13.30 1996 335 11.12 Instrument Response 337 Energy Resolution 337 Dead Time 339 11.13 Monte Carlo Simulation of Radiation Transport 342 11.14 Suggested Reading 348 11.15 Problems 349 11.16 Answers 359 12 Radiation Dosimetry 361 12.1 Introduction 361 12.2 Quantities and Units 362 Exposure 362 Absorbed Dose 362 Dose Equivalent 363 12.3 Measurement of Exposure 365 Free Air Ionization Chamber 365 The Air Wall Chamber 367 12.4 Measurement of Absorbed Dose 368 12.5 Measurement of X and Gamma Ray Dose 370 12.6 Neutron Dosimetry 371 12.7 Dose Measurements for Charged Particle Beams 376 12.8 Determination of LET 377 12.9 Dose Calculations 379 Alpha and Low Energy Beta Emitters Distributed in Tissue 379 Charged Partide Beams 380 Point Source of Gamma Rays 381 Neutrons 383 12.10 Other Dosimetric Concepts and Quantities 387 XII I Contents Kerma 387 Microdosimetry 387 Specific Energy 388 Lineal Energy 388 12.11 Suggested Reading 389 12.12 Problems 390 12.13 Answers 398 13 Chemical and Biological Effects of Radiation 399 13.1 Time Frame for Radiation Effects 399 13.2 Physical and Prechemical Chances in Irradiated Water 399 13.3 Chemical Stage 401 13.4 Examples of Calculated Charged Particle Tracks in Water 402 13.5 Chemical Yields in Water 404 13.6 Biological Effects 408 13.7 Sources of Human Data 411 The life Span Study 411 Medical Radiation 413 Radium Dial Painters 415 Uranium Miners 416 Accidents 418 13.8 The Acute Radiation Syndrome 419 13.9 Delayed Somatic Effects 421 Cancer 421 Life Shortening 423 Cataracts 423 13.10 Irradiation of Mammalian Embryo and Fetus 424 13.11 Genetic Effects 424 13.12 Radiation Biology 429 13.13 Dose Response Relationships 430 13.14 Factors Affecting Dose Response 435 Relative Biological Effectiveness 435 Dose Rate 438 Oxygen Enhancement Ratio 439 Chemical Modifiers 439 Dose Fractionation and Radiotherapy 440 13.15 Suggested Reading 441 13.16 Problems 442 13.17 Answers 447 14 Radiation Protection Criteria and Exposure Limits 449 14.1 Objective of Radiation Protection 449 14.2 Elements of Radiation Protection Programs 449 Contents I XIII 14.3 The NCRP and ICRP 453 14.4 NCRP/ICRP Dosimetric Quantities 452 Equivalent Dose 452 Effective Dose 453 Committed Equivalent Dose 455 Committed Effective Dose 455 Collective Quantities 455 Limits on Intake 456 14.5 Risk Estimates for Radiation Protection 457 14.6 Current Exposure Limits of the NCRP and ICRP 458 Occupational Limits 458 Nonoccupational Limits 460 Negligible Individual Dose 460 Exposure of Individuals Under 18 Years of Age 461 14.7 Occupational Limits in the Dose Equivalent System 463 14.8 The "2007 ICRP Recommendations" 465 14.9 ICRU Operational Quantities 466 14.10 Probability of Causation 468 14.11 Suggested Reading 469 14.12 Problems 470 14.13 Answers 473 15 External Radiation Protection 475 15.1 Distance, Time, and Shielding 475 15.2 Gamma Ray Shielding 476 15.3 Shielding in X Ray Installations 482 Design of Primary Protective Barrier 485 Design of Secondary Protective Barrier 491 NCRP Report No. 147 494 15.4 Protection from Beta Radiation 495 15.5 Neutron Shielding 497 15.6 Suggested Reading 500 15.7 Problems 501 15.8 Answers 509 16 Internal Dosimetry and Radiation Protection 511 16.1 Objectives 511 16.2 ICRP Publication 89 512 16.3 Methodology 515 16.4 ICRP 30 Dosimetric Model for the Respiratory System 517 16.5 ICRP 66 Human Respiratory Tract Model 520 16.6 ICRP 30 Dosimetric Model for the Gastrointestinal Tract 523 16.7 Organ Activities as Functions of Time 524 XIVI Contents 16.8 Specific Absorbed Fraction, Specific Effective Energy, and Committed Quantities 530 16.9 Number of Transformations in Source Organs over 50 Y 534 16.10 Dosimetric Model for Bone 537 16.11 ICRP 30 Dosimetric Model for Submersion in a Radioactive Gas Cloud 538 16.12 Selected ICRP 30 Metabolic Data for Reference Man 540 16.13 Suggested Reading 543 16.14 Problems 544 16.15 Answers 550 Appendices A Physical Constants 551 B Units and Conversion Factors 553 C Some Basic Formulas of Physics (MKS and CCS Units) 555 Classical Mechanics 555 Relativistic Mechanics (units same as in classical mechanics) 555 Electromagnetic Theory 556 Quantum Mechanics 556 D Selected Data on Nuclides 557 E Statistical Derivations 569 Binomial Distribution 569 Mean 569 Standard Deviation 569 Poisson Distribution 570 Normalization 571 Mean 571 Standard Deviation 572 Normal Distribution 572 Error Propagation 573 Index 575
adam_txt	I Contents Preface to the First Edition XV Preface to the Second Edition XVII Preface to the Third Edition XIX 1 About Atomic Physics and Radiation 1 1.1 Classical Physics 1 1.2 Discovery of X Rays 1 1.3 Some Important Dates in Atomic and Radiation Physics 3 1.4 Important Dates in Radiation Protection 8 1.5 Sources and Levels of Radiation Exposure 11 1.6 Suggested Reading 12 2 Atomic Structure and Atomic Radiation 15 2.1 The Atomic Nature of Matter (ca. 1900) 15 2.2 The Rutherford Nuclear Atom 18 2.3 Bohr's Theory of the Hydrogen Atom 19 2.4 Semidassical Mechanics, 1913 1925 25 2.5 Quantum Mechanics 28 2.6 The Pauli Exclusion Principle 33 2.7 Atomic Theory of the Periodic System 34 2.8 Molecules 36 2.9 Solids and Energy Bands 39 2.10 Continuous and Characteristic X Rays 40 2.11 Auger Electrons 45 2.12 Suggested Reading 47 2.13 Problems 48 2.14 Answers 53 3 The Nucleus and Nuclear Radiation 55 3.1 Nuclear Structure 55 Atoms, Radiation, and Radiation Protection. }ames E. Turner Copyright © 2007 WILEY VCH Verlag GmbH Co. KGaA, Weinheim ISBN: 978 3 527 40606 7 VIII I Contents 3.2 Nuclear Binding Energies 58 3.3 Alpha Decay 62 3.4 Beta Decay (ß~) 65 3.5 Gamma Ray Emission 68 3.6 Internal Conversion 72 3.7 Orbital Electron Capture 72 3.8 Positron Decay (/3+) 75 3.9 Suggested Reading 79 3.10 Problems 80 3.11 Answers 82 4 Radioactive Decay 83 4.1 Activity 83 4.2 Exponential Decay 83 4.3 Specific Activity 88 4.4 Serial Radioactive Decay 89 Secular Equilibrium (Tj » T2) 89 General Case 91 Transient Equilibrium (Ti T%) 91 No Equilibrium (Ti T2) 93 4.5 Natural Radioactivity 96 4.6 Radon and Radon Daughters 97 4.7 Suggested Reading 102 4.8 Problems 103 4.9 Answers Í08 5 Interaction of Heavy Charged Particles with Matter 109 5.1 Energy Loss Mechanisms 109 5.2 Maximum Energy Transfer in a Single Collision 111 5.3 Single Collision Energy Loss Spectra 113 5.4 Stopping Power 115 5.5 Semiclassical Calculation of Stopping Power 116 5.6 The Bethe Formula for Stopping Power 120 5.7 Mean Excitation Energies 121 5.8 Table for Computation of Stopping Powers 123 5.9 Stopping Power of Water for Protons 125 5.10 Range 126 5.11 Slowing Down Time 131 5.12 Limitations of Bethe's Stopping Power Formula 132 5.13 Suggested Reading 133 5.14 Problems 134 5.15 Answers 137 Contents I IX 6 Interaction of Electrons with Matter 139 6.1 Energy Loss Mechanisms 139 6.2 Collisional Stopping Power 139 6.3 Radiative Stopping Power 144 6.4 Radiation Yield 145 6.5 Range 147 6.6 Slowing Down Time 148 6.7 Examples of Electron Tracks in Water 150 6.8 Suggested Reading 155 6.9 Problems 155 6.10 answers 158 7 Phenomena Associated with Charged Particle Tracks 159 7.1 Delta Rays 159 7.2 Restricted Stopping Power 159 7.3 Linear Energy Transfer (LET) 162 7.4 Specific Ionization 163 7.5 Energy Straggling 364 7.6 Range Straggling 167 7.7 Multiple Coulomb Scattering 169 7.8 Suggested Reading 170 7.9 Problems 171 7.10 Answers 172 8 Interaction of Photons with Matter 173 8.1 Interaction Mechanisms 173 8.2 Photoelectric Effect 174 8.3 Energy Momentum Requirements for Photon Absorption by an Electron 176 8.4 Compton Effect 177 8.5 Pair Production 185 8.6 Photonuclear Reactions 186 8.7 Attenuation Coefficients 187 8.8 Energy Transfer and Energy Absorption Coefficients 192 8.9 Calculation of Energy Absorption and Energy Transfer 197 8.10 Suggested Reading 203 8.11 Problems 201 8.12 Answers 207 9 Neutrons, Fission, and Criticality 209 9.1 Introduction 209 9.2 Neutron Sources 209 XI Contents 9.3 Classification of Neutrons 214 9.4 Interactions with Matter 215 9.5 Elastic Scattering 216 9.6 Neutron Proton Scattering Energy Loss Spectrum 219 9.7 Reactions 223 9.8 Energetics of Threshold Reactions 226 9.9 Neutron Activation 228 9.10 Fission 230 9.11 Criticality 232 9.12 Suggested Reading 235 9.13 Problems 235 9.14 Answers 239 10 Methods of Radiation Detection 241 10.1 Ionization in Gases 241 Ionization Current 241 W Values 243 Ionization Pulses 245 Gas Filled Detectors 247 10.2 Ionization in Semiconductors 252 Band Theory of Solids 252 Semiconductors 255 Semiconductor Junctions 259 Radiation Measuring Devices 262 10.3 Scintillation 266 General 266 Organic Scintillators 267 Inorganic Scintillators 268 10.4 Photographic Film 275 10.5 Thermoluminescence 279 10.6 Other Methods 281 Particle Track Registration 281 Optically Stimulated Luminescence 282 Direct Ion Storage (DIS) 283 Radiophotoluminescence 285 Chemical Dosimeters 285 Calorimetry 286 Cerenkov Detectors 286 10.7 Neutron Detection 287 Slow Neutrons 287 Intermediate and Fast Neutrons 290 10.8 Suggested Reading 296 10.9 Problems 296 10.10 Answers 301 Contents I XI 11 Statistics 303 11.1 The Statistical World of Atoms and Radiation 303 11.2 Radioactive Disintegration—Exponential Decay 303 11.3 Radioactive Disintegration—a Bernoulli Process 304 11.4 The Binomial Distribution 307 11.5 The Poisson Distribution 331 11.6 The Normal Distribution 3Î5 11.7 Error and Error Propagation 321 11.8 Counting Radioactive Samples 322 Gross Count Rates 322 Net Count Rates 324 Optimum Counting Times 325 Counting Short Lived Samples 326 11.9 Minimum Significant Measured Activity—Type I Errors 327 11.10 Minimum Detectable True Activity—Type II Errors 331 11.11 Criteria for Radiobioassay, HPS N13.30 1996 335 11.12 Instrument Response 337 Energy Resolution 337 Dead Time 339 11.13 Monte Carlo Simulation of Radiation Transport 342 11.14 Suggested Reading 348 11.15 Problems 349 11.16 Answers 359 12 Radiation Dosimetry 361 12.1 Introduction 361 12.2 Quantities and Units 362 Exposure 362 Absorbed Dose 362 Dose Equivalent 363 12.3 Measurement of Exposure 365 Free Air Ionization Chamber 365 The Air Wall Chamber 367 12.4 Measurement of Absorbed Dose 368 12.5 Measurement of X and Gamma Ray Dose 370 12.6 Neutron Dosimetry 371 12.7 Dose Measurements for Charged Particle Beams 376 12.8 Determination of LET 377 12.9 Dose Calculations 379 Alpha and Low Energy Beta Emitters Distributed in Tissue 379 Charged Partide Beams 380 Point Source of Gamma Rays 381 Neutrons 383 12.10 Other Dosimetric Concepts and Quantities 387 XII I Contents Kerma 387 Microdosimetry 387 Specific Energy 388 Lineal Energy 388 12.11 Suggested Reading 389 12.12 Problems 390 12.13 Answers 398 13 Chemical and Biological Effects of Radiation 399 13.1 Time Frame for Radiation Effects 399 13.2 Physical and Prechemical Chances in Irradiated Water 399 13.3 Chemical Stage 401 13.4 Examples of Calculated Charged Particle Tracks in Water 402 13.5 Chemical Yields in Water 404 13.6 Biological Effects 408 13.7 Sources of Human Data 411 The life Span Study 411 Medical Radiation 413 Radium Dial Painters 415 Uranium Miners 416 Accidents 418 13.8 The Acute Radiation Syndrome 419 13.9 Delayed Somatic Effects 421 Cancer 421 Life Shortening 423 Cataracts 423 13.10 Irradiation of Mammalian Embryo and Fetus 424 13.11 Genetic Effects 424 13.12 Radiation Biology 429 13.13 Dose Response Relationships 430 13.14 Factors Affecting Dose Response 435 Relative Biological Effectiveness 435 Dose Rate 438 Oxygen Enhancement Ratio 439 Chemical Modifiers 439 Dose Fractionation and Radiotherapy 440 13.15 Suggested Reading 441 13.16 Problems 442 13.17 Answers 447 14 Radiation Protection Criteria and Exposure Limits 449 14.1 Objective of Radiation Protection 449 14.2 Elements of Radiation Protection Programs 449 Contents I XIII 14.3 The NCRP and ICRP 453 14.4 NCRP/ICRP Dosimetric Quantities 452 Equivalent Dose 452 Effective Dose 453 Committed Equivalent Dose 455 Committed Effective Dose 455 Collective Quantities 455 Limits on Intake 456 14.5 Risk Estimates for Radiation Protection 457 14.6 Current Exposure Limits of the NCRP and ICRP 458 Occupational Limits 458 Nonoccupational Limits 460 Negligible Individual Dose 460 Exposure of Individuals Under 18 Years of Age 461 14.7 Occupational Limits in the Dose Equivalent System 463 14.8 The "2007 ICRP Recommendations" 465 14.9 ICRU Operational Quantities 466 14.10 Probability of Causation 468 14.11 Suggested Reading 469 14.12 Problems 470 14.13 Answers 473 15 External Radiation Protection 475 15.1 Distance, Time, and Shielding 475 15.2 Gamma Ray Shielding 476 15.3 Shielding in X Ray Installations 482 Design of Primary Protective Barrier 485 Design of Secondary Protective Barrier 491 NCRP Report No. 147 494 15.4 Protection from Beta Radiation 495 15.5 Neutron Shielding 497 15.6 Suggested Reading 500 15.7 Problems 501 15.8 Answers 509 16 Internal Dosimetry and Radiation Protection 511 16.1 Objectives 511 16.2 ICRP Publication 89 512 16.3 Methodology 515 16.4 ICRP 30 Dosimetric Model for the Respiratory System 517 16.5 ICRP 66 Human Respiratory Tract Model 520 16.6 ICRP 30 Dosimetric Model for the Gastrointestinal Tract 523 16.7 Organ Activities as Functions of Time 524 XIVI Contents 16.8 Specific Absorbed Fraction, Specific Effective Energy, and Committed Quantities 530 16.9 Number of Transformations in Source Organs over 50 Y 534 16.10 Dosimetric Model for Bone 537 16.11 ICRP 30 Dosimetric Model for Submersion in a Radioactive Gas Cloud 538 16.12 Selected ICRP 30 Metabolic Data for Reference Man 540 16.13 Suggested Reading 543 16.14 Problems 544 16.15 Answers 550 Appendices A Physical Constants 551 B Units and Conversion Factors 553 C Some Basic Formulas of Physics (MKS and CCS Units) 555 Classical Mechanics 555 Relativistic Mechanics (units same as in classical mechanics) 555 Electromagnetic Theory 556 Quantum Mechanics 556 D Selected Data on Nuclides 557 E Statistical Derivations 569 Binomial Distribution 569 Mean 569 Standard Deviation 569 Poisson Distribution 570 Normalization 571 Mean 571 Standard Deviation 572 Normal Distribution 572 Error Propagation 573 Index 575
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genre_facet	Lehrbuch
id	DE-604.BV022870323
illustrated	Illustrated
index_date	2024-07-02T18:46:59Z
indexdate	2024-07-20T09:24:43Z
institution	BVB
isbn	9783527406067 3527406069
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016075432
oclc_num	82672521
open_access_boolean
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physical	XX, 585 S. Ill., graph. Darst. 24 cm
publishDate	2007
publishDateSearch	2007
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publisher	Wiley-VCH-Verl.
record_format	marc
series2	Physics textbook
spelling	Turner, James E. 1930-2008 Verfasser (DE-588)111121078 aut Atoms, radiation, and radiation protection James E. Turner 3., completely rev. and enl. ed. Weinheim Wiley-VCH-Verl. 2007 XX, 585 S. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Physics textbook Dosimétrie Rayonnement Rayonnement - Sécurité - Mesures Ionizing radiation Nuclear Energy Radiation Effects Radiation Protection Radiation Safety measures Radiometry Ionisierende Strahlung (DE-588)4027633-8 gnd rswk-swf Dosimetrie (DE-588)4127470-2 gnd rswk-swf Strahlenschutz (DE-588)4057826-4 gnd rswk-swf Radiometrie (DE-588)4048219-4 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Ionisierende Strahlung (DE-588)4027633-8 s Dosimetrie (DE-588)4127470-2 s DE-604 Strahlenschutz (DE-588)4057826-4 s Radiometrie (DE-588)4048219-4 s 1\p DE-604 text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2909589&prov=M&dok_var=1&dok_ext=htm Inhaltstext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016075432&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Turner, James E. 1930-2008 Atoms, radiation, and radiation protection Dosimétrie Rayonnement Rayonnement - Sécurité - Mesures Ionizing radiation Nuclear Energy Radiation Effects Radiation Protection Radiation Safety measures Radiometry Ionisierende Strahlung (DE-588)4027633-8 gnd Dosimetrie (DE-588)4127470-2 gnd Strahlenschutz (DE-588)4057826-4 gnd Radiometrie (DE-588)4048219-4 gnd
subject_GND	(DE-588)4027633-8 (DE-588)4127470-2 (DE-588)4057826-4 (DE-588)4048219-4 (DE-588)4123623-3
title	Atoms, radiation, and radiation protection
title_auth	Atoms, radiation, and radiation protection
title_exact_search	Atoms, radiation, and radiation protection
title_exact_search_txtP	Atoms, radiation, and radiation protection
title_full	Atoms, radiation, and radiation protection James E. Turner
title_fullStr	Atoms, radiation, and radiation protection James E. Turner
title_full_unstemmed	Atoms, radiation, and radiation protection James E. Turner
title_short	Atoms, radiation, and radiation protection
title_sort	atoms radiation and radiation protection
topic	Dosimétrie Rayonnement Rayonnement - Sécurité - Mesures Ionizing radiation Nuclear Energy Radiation Effects Radiation Protection Radiation Safety measures Radiometry Ionisierende Strahlung (DE-588)4027633-8 gnd Dosimetrie (DE-588)4127470-2 gnd Strahlenschutz (DE-588)4057826-4 gnd Radiometrie (DE-588)4048219-4 gnd
topic_facet	Dosimétrie Rayonnement Rayonnement - Sécurité - Mesures Ionizing radiation Nuclear Energy Radiation Effects Radiation Protection Radiation Safety measures Radiometry Ionisierende Strahlung Dosimetrie Strahlenschutz Radiometrie Lehrbuch
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work_keys_str_mv	AT turnerjamese atomsradiationandradiationprotection

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