The Application of Stable Isotopes - TIB AV-Portal

The Application of Stable Isotopes

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Lindau Nobel Laureate Meetings

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Title

The Application of Stable Isotopes

Title of Series

Lindau Nobel Laureate Meetings

Number of Parts

340

Author

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CC Attribution - NonCommercial - NoDerivatives 4.0 International:
You are free to use, copy, distribute and transmit the work or content in unchanged form for any legal and non-commercial purpose as long as the work is attributed to the author in the manner specified by the author or licensor.

Identifiers

10.5446/41793 (DOI)

Publisher

Lindau Nobel Laureate Meetings

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Content Metadata

Subject Area	Physics
Genre	Conference/Talk

Lindau Nobel Laureate Meetings35 / 340

1

56:34

The Wider Aspects of the Discovery of Atomic Disintegration

2

38:36

Atmospheric nitrogen as a sustainer of life on earth

3

1:06:33

4

12:17

Radiochemistry and the Fission of Uranium

5

1:13:41

The vitamins of milk

6

32:50

The application of radioactive indicators in the investigation of physiological processes in animals (fragment)

7

57:49

Attempt at a Unified Theory of Elementary Particles

8

39:18

X-ray interferences (fragment)

9

52:10

Modern Alchemy - A Way from the Weightless to the Weighty

10

24:43

Developments and Difficulties in the Quantum Theory of Elementary Particles

11

34:46

The Dynamic Equilibrium of Body Proteins Hemoglobin, Plasma Proteins, Organ and Tissue Proteins

12

25:41

Experiments on the Chemistry of Photosynthesis

13

37:02

On the Self-Regulation of the Arterial Pressure and Hypertension

14

33:14

The Most Important Hormones of the Adrenal Cortex

15

1:24:58

Chemotherapy of Tumors

16

48:23

17

1:11:26

The Effect of Radiation and other Present Day Influences Upon the Human Genetic Constitution

18

22:41

Plans for a German reactor

19

43:31

Recent Methods for Measuring Geologic and Biologic Age

20

48:44

Micro- and Macromolecular Chemistry

21

37:24

Path of Atoms Through Generations

22

33:03

Elementary Particles

23

37:06

From Copernicus to Einstein

24

35:28

Physics of Crystals (German and English Presentation)

25

50:06

Scientific and Technical Problems in the Development of Nuclear Power

26

46:59

Problems in the theory of elementary particles

27

47:51

Electrons and the Vacuum

28

52:14

Rock Magnetism and Movement of Continents

29

43:39

The Nobel Foundation: Some Thoughts on Its Work and Function

30

43:07

Chemical Structure and Biochemical Effects

31

56:11

On the Biogenesis of Natural Organic Compounds

32

1:10:51

On the Amadori Compounds

33

50:27

Gravitational Waves

34

55:54

Optical Problems

35

1:05:55

The Application of Stable Isotopes

36

42:30

On Biologically Active Substances in Our Crops

37

36:27

X-Ray Treatment of Chronic Leukemia

38

57:42

The Overcoming of Chemoresistance of Tuberculosis and Other Bacterial Infections

39

1:08:58

From the Biochemistry of the World of the Insects

40

59:15

Opportunities of Nutrition for Mankind and Chemistry

41

44:51

Up-To-Date Account of the Present Situation and the Prospects in the Field of Atomic Energy or Nuclear Power

42

51:08

Recent Results on Nucleon Structure

43

1:01:11

Progress in the unified field theory of elementary particles (fragment)

44

52:52

Atomic Physics and Human Knowledge

45

44:59

The Role of the Thymus in Immunity

46

48:15

The Combustion of Alcohol in the Liver

47

47:24

Milk Production Without Proteins

48

1:08:21

From Triphenylmethyl to Polyethylene - Less Well-Known Facts About the Developments Leading to the Invention Made in Muelheim

49

57:46

Memories of Works that Went Differently than Planned

50

1:03:28

Recent Studies of the Structure of Proteins

51

55:02

The Structure of Molecules in Relation to Medical Problems

52

49:18

Change in meaning of the term "elementary particle"

53

51:44

The Foundations of Quantum Mechanics

54

1:04:12

Discovery of the electron

55

57:30

Build-Up of Fatty Acids in the Cell (Fragment)

56

52:37

On the Primary Causes and on the Secondary Causes of Cancer

57

57:49

RNA Viruses and Protein Synthesis

58

52:53

Protein Biosynthesis

59

44:53

Resonance Spectroscopy of Gamma Rays and its Application on Problems of Solid State Physics

60

35:48

New Detectors for High Energy Physics

61

41:07

Memories of James Franck and the Electron Scattering Experiments

62

44:43

Cosmological Problems in Modern Atomic Physics

63

47:10

History of the Determination of Protein Structure

64

44:44

Particle accelerators with special reference to their early history

65

44:14

Successes and Failures in Search for Antibiotics

66

10:38

Comparative Enzymology of Lipid Biosynthesis

67

27:06

The Corticolytic Hydrocarbons

68

45:36

Enzyme Research Earlier and Today

69

46:28

Molecules, Electrons and Biology

70

37:11

Hippocrates and History

71

53:48

A Review of the Evidence in Regard to the Structure of the Moon

72

51:43

Structure of Insulin

73

38:51

Proteins and Poisons in Plants

74

33:12

Radiocarbon Dating and Calibration with Tree Rings and Lake Sediments

75

51:52

Detectors for High Energy Physics

76

40:11

Physical and political considerations in the construction of large particle accelerators

77

49:16

Cooperation between Politicians and Econometricians on the Formalization of Political Preferences

78

44:54

Sixty Years of Molecular Beams

79

42:35

Cholesterol and Arteriosclerosis

80

27:20

Enzymatic control of glycogen metabolism

81

52:19

Control Aspects of Lipid Biosynthesis

82

39:02

Environmental Protection as an International Mission

83

34:35

Discovery and Understanding

84

30:34

Alfred Nobel and the Foundation

85

46:44

Brain, Speech and Consciousness

86

50:52

The Structure of the Proton

87

27:31

New Ideas of Space and Time

88

32:30

What led Max Planck to write E = h.ν?

89

55:29

Applications of Total Absorption Detectors to High Energy Physics

90

41:03

The Predicament of Mankind

91

48:51

Transition Metal to Carbon Bonds - Stable and Labile

92

16:27

Where are we Drifting to?

93

30:20

Carcinogenesis: Chemical, Physical and Biological

94

51:42

Transition metal-carbonyl-carbine-complexes

95

52:35

Science - A Bond between Nations

96

42:25

Some Thoughts and Results Concerning Hydrocarbon Oxidation

97

45:00

Recognition and Control at the Cell Surface

98

25:51

“Once Upon a Time….” (Questions on the Origin of Life)

99

53:34

The Regulation of Cholesterol Synthesis and its Pathophysiologic Meaning

100

38:52

The Coming Age of the Cell

101

39:08

Mutation, Somatic Mutation and Human Disease

102

42:15

Electronic Biology and Cancer

103

45:19

Surface Physics and Immunology

104

57:08

Extreme Physics in the Sky

105

46:20

Science, Energy, and Armaments

106

46:35

Some Remarks on Superfluidity

107

46:35

The Structure Underlying Physical Reality

108

58:00

Basic Beliefs and Prejudices in Physics

109

47:59

How Possible Becomes Actual in the Quantum Theory

110

53:34

Background for the Spheroidal Nuclear Model Proposal

111

45:36

"Wasteful" Research in Pure and Applied Science

112

52:28

Structure, Conformation and Properties of Macromolecules

113

54:52

Early Days at the Lawrence Laboratory

114

1:24:08

The Origin of Biological Information

115

52:58

Ascorbic Acid and Cancer

116

35:09

The Classification of Crises

117

55:39

Radioimmunoassay: Tool for Biomedical Investigation and Clinical Medicine

118

1:04:07

The Problems of Capital Punishment

119

45:03

Health Crusades and Tropical Disease

120

51:02

Life in a Lethal Society

121

49:16

New Hope for Autistic Children and Their Parents

122

16:56

The New Immunology

123

51:55

Hepatitis B-Virus and Cancer of the Liver

124

56:51

The Elucidation of Chronic Diseases Occuring in High Incidence in Primitive and Isolated Populations

125

31:27

The Properties of Ion Channels in the Endplate Membrane

126

41:03

The Regulation of Protein Synthesis

127

37:44

Light Rays, Massive Light Rays, and new Particles in Nature

128

46:03

The Rebirth of Physics in Italy

129

57:23

Neutrino Stability

130

49:37

The Interstellar Medium

131

38:58

Biology and Solid Surfaces

132

53:49

Does the Gravitational Constant Vary?

133

40:11

Observations and Cosmology

134

43:25

The Human Person: A Scientific and a Philosophical Problem

135

37:44

History and the X-ray Analysis of Protein Crystals

136

58:00

Spectra and Structure of Three-Atomic Hydrogen

137

58:39

Organoboranes - The Modern Miracle

138

50:34

Studies on the Structure and Properties of Human Interferon

139

26:44

An Effective Therapy of Childhood Autism

140

22:40

Varicella: Problems Posed by an Ubiquitous Persistent Virus

141

37:44

Mechanisms of Gene Transfer in Bacteria

142

31:59

Membranes and Transmembrane Channels

143

37:11

Radioactivity in the Service of Man

144

33:39

Vitamin C in the Prevention and Treatment of Cancer

145

32:21

The Foundations of Ethology

146

28:00

The Evolution of the Citric Acid Cycle and Other Metabolic Pathways

147

34:46

The Evolution of Retroviruses

148

36:30

The Nature of Cancer

149

25:00

Science, Scientists and Society

150

37:44

On the Use and Misuse of Quantum Mechanics

151

37:03

Die Quantenmechanische Bedeutung des Begriffes Realität

152

37:44

Prospects for Further Unification in the Theory of Elementary Particles

153

35:13

Aspects of CP-Violation

154

34:35

Quarks, Gluons and New Particles in Nature

155

29:38

Interstellar Molecular Clouds

156

37:44

The World is Full of Neutrinos

157

30:31

Long Range Projections of Alternative Energy Futures

158

26:22

Growth of Mammalian Cells at Liquid Interfaces

159

37:44

The Crystal Ball Experiment

160

29:58

How Space Research Changes our View of the Universe

161

30:35

The Isotopes of the Common Elements on the Earth and in the Galaxy

162

43:30

Creativity in Organic Chemistry

163

47:21

Chemical Reaction and My Life

164

37:44

Structures of Compounds of Transition Metals

165

51:22

166

37:44

Look Back at 118 Semesters of Studying Chemistry

167

33:06

Peptide Synthesis - A Useful Tool in the Study of Protein Structures and Function

168

51:53

Evolution and Spontaneous Order

169

29:32

Control of Growth of Mammalian Cells

170

36:42

Applications of the Principles of CAT Scanning in Science and Medicine

171

45:05

The One-Dimensional Code and the Four-Dimensional Animal: Some Molecular Bases for Embryonic Form

172

38:16

On the Unforeseeability of Foreseeable Manifestations of Life

173

38:26

The Nobility of the Scientist's Enterprise

174

29:06

HLA Antigenes and Diseases

175

34:44

Autoimmune Diseases and Complement Genes

176

31:13

How Some Viruses Cause Cancer

177

23:00

Some Peculiarities of Neutron-Nuclear Interaction

178

1:08:09

Rest Masses of Neutrinos

179

40:07

Search for the Fundamental Building Blocks of Nature

180

34:36

Monitoring Normal and Cancerous Cells with an Electric Field

181

47:59

Schrödinger's Cat

182

28:32

Evolution of Small Molecules

183

41:38

The Role of Motivation in Scientific Research

184

48:52

Hemoglobin as Receptor for Drugs: Stereochemistry of Bonding

185

33:42

The Function of Prices: Three Aspects of the Theory of Economic Equilibrium

186

41:01

The Concept of Human Rationality in Economics and Psychology

187

31:17

Current Activities in Protein Engineering

188

49:54

Cause and Patho - Genesis of Alzheimer's Desease and Aging of the Brain

189

1:03:52

Ideals of Science and Medicine

190

31:47

Can We Observe the Origin of Structure in the Universe?

191

29:50

Plans for Future High Energy Electron Positron Colliders

192

36:54

The Founding of General Relativity and Its Excellence

193

33:23

Electrical Detection of Enzymes and Cells

194

44:23

The Solar Neutrino Problem

195

37:44

Structure and Function of a Biological Light Energy Converter

196

59:35

A New Minimal Principle in X-ray Crystallography

197

24:20

Enzymes of Extreme Thermophilic Bacteria

198

1:05:48

A Life in Science

199

50:19

The Three-Dimensional Structure of a Membrane Protein

200

34:59

Supramolecular Chemistry: Scope and Perspectives

201

28:39

Transgene Mice in Immunology

202

31:29

Brain Mechanisms of Vision

203

52:20

Virus Quasi Species, Pandora's Box

204

34:25

Genetic Strategies Used by the Immune System

205

28:21

Some Thoughts on the Evolution of Proteins

206

41:20

Elements of the Microbial Evolution

207

37:24

Science Education in a Changing World

208

30:34

Astrophysics with Extensive Air Showers

209

38:14

Science - Part of Our Future

210

32:06

Studying the Coulomb State of a Pion and a Muon

211

31:33

Fractal Noise from Normal and Cancer Cells

212

30:39

That I May Know the Inmost Force that Binds the World and Guides It's Course

213

34:33

Pulsars as Physical Laboratories

214

1:19:53

What is so Special about Nuclear Spins?

215

34:36

How do Regulatory Sites Communicate with Active Sites in Regulatory Enzymes?

216

59:43

How Subtile Chemistry Evolving in the Mammalian Brain Opened it to the World of Feeling

217

46:35

The Magna Carta of Duties

218

41:09

The Transduction of Signals

219

35:00

Characteristics of Neutrinos

220

28:54

How to Start a High-Tech-Business

221

36:31

Simplicity, Complexity and Complex Adaptive Systems

222

48:53

Antiviral Chemotherapy: Successes and Challenges

223

39:36

Salute to Röntgen: 100 Years of Internal Imaging

224

19:09

The Search for Fractional Electric Charge

225

35:49

The Theory of Games

226

30:55

Quantum Mechanics and Semiconductor Science

227

38:34

Neutrino Physics

228

22:10

Human Population Growth

229

33:33

Mitigating Global Warming Through Chemistry: Recycling Carbon Dioxide into Useful Fuels and Hydrocarbon Products

230

25:55

The Important Role of the Tropics in the Self-Cleaning Capacity of the Atmosphere

231

31:51

C60-Buckminsterfullerene: Not just a Pretty Molecule

232

30:42

A General Asymmetric Synthesis Based on Chiral Organoboranes

233

38:10

Environmental Challenges for the 21st Century

234

34:20

The Dawn of the Fullerenes: A Research Adventure

235

42:58

From Photosynthesis to Respiration: Structure and Function of Energy Transforming Membrane Protein Complexes

236

30:48

Trace Gas Chemistry in the Cities and Over the Oceans

237

44:41

How we Deal with Virus Infections

238

45:25

Muscular Contraction: Progress and Uncertainties

239

39:56

Glutamine Repeats and Inherited Neurodegenerative Diseases

240

31:28

Cosmic Background Radiation

241

27:43

Masses of the Neutrinos

242

34:12

Changing Concepts of Light and Matter

243

56:38

Heidelberg Lecture: The Origins and Evolution of the Internet

244

29:10

Atmospheric Neutrinos

245

30:53

Optical Microscopy 2.0

246

31:04

Optical Microscopy: the Resolution Revolution

247

26:34

The Alpha Magnetic Spectrometer (AMS) on the International Space Station

248

48:55

Some Recollections of the Manhattan Project 1943-1945

249

37:04

Protein Structures in Translational Medicine and Business Development, My Experience

250

32:04

After Finding the Higgs Particle

251

27:23

NMR in Physics, Structural Biology and Medical Diagnosis

252

25:26

A New International System of Units in 2018!? How my Nobel Prize Contributed to this Development

253

30:50

Photosynthetic Light Reactions, Revisited

254

28:46

Lighting the Earth by LEDs

255

33:36

How One Single Elementary Particle Can Make the Difference

256

32:50

Gravitational Waves, Merging Black Holes

257

30:06

Atomic Ion Clocks

258

35:57

One Hundred Years of General Relativity - The Enduring Legacy of Albert Einstein

259

20:06

The Science and Beauty of Soap Bubbles

260

30:36

The Future of Energy

261

31:57

State of the Universe

262

35:06

The Sudbury Neutrino Observatory: Observation of Flavor Change for Solar Neutrinos

263

36:25

What was First, the Genetic Code or Its Products?

264

32:26

DNA Instability, Endogenous Mutagenesis, and DNA Repair

265

30:17

What Can You Learn from Watching Single Molecules?

266

26:41

Nanoscopy with Focused Light

267

31:37

How Protein Factors Facilitate Protein Synthesis by the Ribosome

268

30:51

The ATP Synthase in Cellular Life and Death

269

28:23

What Can Be Learned about the Enzyme ATPase from Single Molecule Studies of its Subunit F1 and What Not?

270

29:20

Catalytic Reduction of Dinitrogen to Ammonia

271

35:02

New Ways of Vision: Protein Structures in Translational Medicine and Business Development, my Experience

272

31:10

Aquaporin Water Channels: From Atomic Structure to Malaria

273

32:35

Robustness in Cell Development

274

33:31

Climate Change: Science, Policy and Risks

275

58:35

Heidelberg Lecture: On the Nature of Computing

276

35:59

Aromatic Ring Flips in Protein Dynamics

277

29:31

On the Structural Biology of Photosynthetic Light Reactions

278

35:55

Towards Adaptive Chemistry

279

31:59

From Chemical Topology to Molecular Machines

280

34:29

Pathogenicity of Bovine Bacterial Plasmid-Derived Virus-Like Infections

281

30:25

Oxygen Reduction and Energy Conservation by Membrane Integrated Terminal Oxidases

282

33:51

Role of Nitric Oxide and Cyclic GMP in Cell Signaling and Drug Development

283

35:39

Magical Power of d-block Transition Metals as Exemplified by Catalytic Highly Asymmetric C-C Bond Formation

284

32:44

Cosmic Connections

285

24:43

The Science and Beauty of Crystals

286

29:56

In-Situ Ca++ -Imaging and Fluorescent Proteins: Using the Tools of Roger Tsien

287

31:24

The Joy of Discovery

288

31:47

Lessons from the Discovery of the Ubiquitin System

289

31:02

The Revolution of Personalized Medicine: Are we Going to Cure All Diseases and at What Price?

290

31:01

Lessons From Yeast - Autophagy: Intracellular Recycling System

291

45:33

Exploration of the Visual Cortex

292

31:25

Recent Advances in Biomolecular and Biomedical Imaging

293

31:48

G Protein Coupled Receptors

294

32:18

Sorting of Small RNAs Into EVs Secreted by Human Cells

295

30:42

Circadian Rhythms and Their Impact on Physiology and Behaviour

296

27:05

The Circadian Rhythm Story: Past, Present and Future

297

30:15

The Future of Basic Science Research

298

28:54

The Road to Stockholm - A Nobel Mission

299

34:58

Drug Design, Structural Dynamics and Physiological Functions of G Protein-Coupled Receptors (GPCRs)

300

58:20

Heidelberg Lecture - Biology as Computation

301

32:54

Single-Particle Cryo-EM of Biological Molecules – the Sky Is the Limit

302

31:33

The Brain’s Codes for Space and Time

303

29:27

Detecting and Solving Mammalian Phenotypes in Real Time

304

37:56

Search for Alternative Life Forms on Earth

305

40:05

How to Measure Immunological Specificity

306

41:05

The Proteasome, Structure, Mechanism, Ligand-Binding, and Application in Drug Design and Development

307

41:47

Nobel Laureate Campaign Supporting GMOs

308

33:35

Science Communication

309

35:47

Opening Doors Worldwide Through Medical Science

310

37:44

Microbial Drug Resistance

311

46:10

Nitric Oxide and Cyclic GMP in Cell Signaling and Drug Development

312

37:42

Colour of Insects and Colour From Insects

313

39:57

The Revolution of Personalised Medicine: Its Promises and Obstacles

314

38:12

Lessons From the Discovery of the Ubiquitin System

315

31:01

Laser Spectroscopy of Hydrogen and the Proton Radius Puzzle

316

34:56

New Forms of Matter Near Absolute Zero Temperature

317

30:42

Oscillation of Atmospheric Neutrinos

318

34:14

Gravitational Wave Astronomy

319

31:34

Creating New Scientific Knowledge

320

35:20

NMR – From Physics to Biology and Medical Diagnosis

321

29:04

Materials of the Future

322

29:36

The Long Tortuous Path to Gravitational Waves

323

20:57

Visualising Short-Lived States of Biological Molecules by Cryo-Electron Microscopy

324

36:06

Heidelberg Lecture - The Technological Imperative for Ethical Evolution

325

31:36

Passion for Extreme Light

326

31:38

Entanglement and Topological Quantum Matter

327

34:40

The Future of Fundamental Physics

328

29:05

Scientific Blunder

329

25:52

A Brief Description of My Personal and Scientific Itinerary

330

31:05

Direct Detection of Dark Matter With Liquid Argon

331

47:27

Taking a Scientific Approach to Physics Teaching and Learning

332

18:27

What Can You Learn From Single Molecules, Even When Trapped Without Optical Forces?

333

46:51

The Future of Particle Physics

334

43:08

Proteases for Drug Design and Development, My Experience

335

41:07

Reaching Molecular Size Resolution in Lens-Based Microscopy: the Diffraction Limit Blown Away

336

38:09

Will Twenty-First Century Physics Need Biology?

337

40:41

Photosynthesis - Structural Biology and Evolution

338

45:58

Non-Thermal Equilibrium Transport by Dynein Molecular Motors in Live Neurons, and Breakthroughs in Linear and Non-Linear Ultrasound Imaging

339

41:53

Career Planning in Science – Dreaming Allowed?

340

41:08

From the Big Bang to Intelligent Life

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ElectronAtomImpact eventSolar thermal collectorHertz, GustavIsotopeRadionuclideEinrichtenIsotope separationHalyardRadioactive decayParticleMeeting/Interview

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Impact eventAtomElectronSolar thermal collectorHertz, GustavStream gaugeFranz KlammerMeeting/Interview

18:40

Impact eventElectronAtomFranck, JamesHertz, GustavSolar thermal collectorBlauTiger <Panzer>GasLiquidTrainMeeting/Interview

19:30

AtomImpact eventElectronSolar thermal collectorHertz, GustavFranck, JamesKolonneGasSolutionMeeting/Interview

20:20

AtomElectronImpact eventHertz, GustavSolar thermal collectorGasSolutionMeasurementMass spectrometryMeeting/Interview

21:10

ElectronAtomImpact eventHertz, GustavSolar thermal collectorIsotopeIonMole (architecture)Meeting/Interview

22:00

Impact eventAtomElectronHertz, GustavSolar thermal collectorFranck, JamesSpectrometerZuführeinrichtungMeasuring instrumentIsotopenhäufigkeitCombAußenanlageGasketHeavy waterHalyardMeeting/Interview

22:50

Impact eventElectronAtomHertz, GustavSolar thermal collectorGradientTemperatureSauerstoffisotopMeasurementGasketMeeting/Interview

23:40

ElectronAtomImpact eventFranck, JamesSolar thermal collectorHertz, GustavLiquidGasketDrop (liquid)Meeting/Interview

24:30

Impact eventAtomElectronHertz, GustavSolar thermal collectorFranck, JamesNoise pollutionLiquidSolubilityGasketStrömungPhysical lawDrop (liquid)Interface (chemistry)Meeting/Interview

25:20

AtomImpact eventElectronFranck, JamesHertz, GustavSolar thermal collectorJig (tool)PipetteDrop (liquid)DirtCleanlinessMeeting/Interview

26:10

ElectronImpact eventAtomFranck, JamesSolar thermal collectorHertz, GustavList of types of interferometersRefractive indexHalyardDeuteriumMeasurementHeavy waterGasketInterface (chemistry)WasserstoffisotopMetreMeeting/Interview

27:00

Impact eventAtomElectronHertz, GustavSolar thermal collectorFranck, JamesInterface (chemistry)Heavy waterHalyardMeeting/Interview

27:50

ElectronImpact eventAtomSolar thermal collectorFranck, JamesHertz, GustavAtomMoleculeSpectral lineSpectrographEnergy levelMeeting/Interview

28:40

ElectronAtomImpact eventHertz, GustavFranck, JamesSolar thermal collectorMeeting/Interview

29:30

ElectronAtomImpact eventHertz, GustavSolar thermal collectorFranck, JamesHalyardMeasurementVisible spectrumCounterPhysical quantityMeeting/Interview

30:20

Impact eventAtomElectronHertz, GustavFranck, JamesSolar thermal collectorNuclideHalyardProcess (computing)BedienteilIsotopeQuantum stateRadioactive decayMeeting/Interview

31:10

ElectronImpact eventAtomSolar thermal collectorFranck, JamesHertz, GustavClockHalyardIsotopeAtomic massMeeting/Interview

32:00

AtomImpact eventElectronSolar thermal collectorHertz, GustavFranck, JamesDecay chainMeasurementRadionuclideEveningMeeting/Interview

32:50

AtomImpact eventElectronSolar thermal collectorFranck, JamesHertz, GustavIsotopYearErhitzenMeeting/Interview

33:40

ElectronImpact eventAtomFranck, JamesHertz, GustavSolar thermal collectorKohlenstoffisotopCausalityMeeting/Interview

34:30

Impact eventAtomElectronHertz, GustavFranck, JamesSolar thermal collectorStellar atmosphereMeteoriteAtmosphere of EarthSpring (hydrology)DiamondMeeting/Interview

35:20

Impact eventElectronAtomFranck, JamesSolar thermal collectorHertz, GustavHalyardSchwankungMeeting/Interview

36:10

Impact eventElectronAtomHertz, GustavSolar thermal collectorFranck, JamesCounterMeeting/Interview

37:00

AtomElectronImpact eventSolar thermal collectorHertz, GustavFranck, JamesYearMeeting/Interview

37:50

AtomElectronImpact eventFranck, JamesHertz, GustavSolar thermal collectorYearMeeting/Interview

38:40

AtomElectronImpact eventHertz, GustavSolar thermal collectorFranck, JamesMeasurementSway barWater contentHeavy waterField (mathematics)Water cycleMeeting/Interview

39:30

ElectronAtomImpact eventFranck, JamesHertz, GustavSolar thermal collectorIsotopeTritiumRadionuclideLebensdauerYearMeeting/Interview

40:20

AtomElectronImpact eventHertz, GustavSolar thermal collectorFranck, JamesAtomKohlenstoff-14HalyardLebensdauerRadionuclideMeeting/Interview

41:10

Impact eventAtomElectronHertz, GustavSolar thermal collectorFranck, JamesIsotopeDayHalyardMeeting/Interview

42:00

ElectronImpact eventAtomFranck, JamesHertz, GustavSolar thermal collectorOxidationClockCatalytic converterMeeting/Interview

42:50

Impact eventElectronAtomHertz, GustavFranck, JamesSolar thermal collectorProcess (computing)Interface (chemistry)Catalytic converterOxidationMeeting/Interview

43:40

Impact eventAtomElectronSolar thermal collectorHertz, GustavFranck, JamesProcess (computing)Catalytic converterHalyardAcetyleneMeeting/Interview

44:30

AtomImpact eventElectronHertz, GustavSolar thermal collectorFranck, JamesTelephoneStrich <Typographie>HalyardProcess (computing)Meeting/Interview

45:20

Impact eventElectronAtomFranck, JamesHertz, GustavSolar thermal collectorProcess (computing)Alkalische LösungHalyardLebensdauerElectrodeMeeting/Interview

46:10

ElectronAtomImpact eventSolar thermal collectorHertz, GustavFranck, JamesHalyardMeeting/Interview

47:00

ElectronAtomImpact eventHertz, GustavSolar thermal collectorFranck, JamesHalyardFlightRadioactive decayRadionuclideIsotopeYearMeeting/Interview

47:50

Impact eventAtomElectronSolar thermal collectorHertz, GustavFranck, JamesAbbauDayMeasurementMeeting/Interview

48:40

Impact eventAtomElectronHertz, GustavFranck, JamesSolar thermal collectorLuftMeeting/Interview

49:30

AtomImpact eventElectronHertz, GustavSolar thermal collectorFranck, JamesLuftTelevisionMoleculeWandMeeting/Interview

50:20

Impact eventElectronAtomHertz, GustavSolar thermal collectorFranck, JamesHalyardMeeting/Interview

51:10

ElectronImpact eventAtomHertz, GustavFranck, JamesSolar thermal collectorOxidationMeeting/Interview

52:00

AtomElectronImpact eventHertz, GustavFranck, JamesSolar thermal collectorBookbindingIndustrieelektronikMeeting/Interview

52:50

Impact eventAtomElectronHertz, GustavFranck, JamesSolar thermal collectorHandgun holsterMixtureHalyardWeatherMeeting/Interview

53:40

Impact eventAtomElectronSolar thermal collectorFranck, JamesHertz, GustavMoleculeMeeting/Interview

54:30

Impact eventElectronAtomHertz, GustavFranck, JamesSolar thermal collectorForceIsotopHeavy waterCirculation (fluid dynamics)Meeting/Interview

55:20

AtomImpact eventElectronHertz, GustavFranck, JamesSolar thermal collectorMeeting/Interview

56:10

AtomImpact eventElectronFranck, JamesSolar thermal collectorHertz, GustavMixtureMeasurementLimiting oxygen indexMetallurgyMeeting/Interview

57:00

ElectronImpact eventAtomFranck, JamesHertz, GustavSolar thermal collectorCrown (headgear)Limiting oxygen indexMeeting/Interview

57:50

Impact eventAtomElectronSolar thermal collectorHertz, GustavFranck, JamesMass spectrometryIon sourceOrder of magnitudePartial pressurePressureMeeting/Interview

58:40

AtomElectronImpact eventHertz, GustavSolar thermal collectorFranck, JamesOrder of magnitudeIsotopenhäufigkeitClockMeeting/Interview

59:30

Impact eventElectronAtomHertz, GustavFranck, JamesSolar thermal collectorFormerOscillationReaktionskinetikInfraredNuclear physicsRadionuclideMeeting/Interview

01:00:20

AtomImpact eventElectronSolar thermal collectorHertz, GustavFranck, JamesEinrichtenIsotopeRadionuclideHalyardRadioactive decayMeeting/Interview

01:01:10

ElectronAtomImpact eventHertz, GustavSolar thermal collectorFranck, JamesIsotopeCausalityIsotopMeeting/Interview

01:02:00

ElectronAtomImpact eventSolar thermal collectorFranck, JamesHertz, GustavPerturbation theoryRadionuclideCausalityNeutronHalf-lifeMeasurementIsotopeYearHalyardMeeting/Interview

01:02:50

AtomElectronImpact eventFranck, JamesHertz, GustavSolar thermal collectorMass spectrometryStuccoIsotopeRadioactive decayGangMeasurementMeeting/Interview

01:03:40

ElectronImpact eventAtomFranck, JamesSolar thermal collectorHertz, GustavChemical compoundTorMass spectrometryMeasurementEinrichtenMeeting/Interview

01:04:30

Impact eventAtomElectronHertz, GustavFranck, JamesSolar thermal collectorMixtureProcess (computing)IsotopeMeasurementHalyardMeeting/Interview

01:05:19

AtomImpact eventElectronHertz, GustavSolar thermal collectorNabeRother <Familie, Waldsassen>IsotopeMeeting/Interview

Transcript: German(auto-generated)

00:00

habe ich heute außer Betracht gelassen. Zum Schluss möchte ich noch kurz diese Methode der stabilen Isotopen mit der der radioaktiven Isotopen vergleichen, um zu sehen, wie das nun eigentlich zueinander steht. Da möchte ich zunächst einmal die Vorteile der stabilen Isotopen

00:23

und nachher ihre Nachteile kurz sagen. Erstens scheint mir ein sehr wichtiger Vorteil, dass man in einem Laboratorium hierfür keinerlei besondere Einrichtungen braucht. Für die radioaktiven Isotopen braucht man immerhin besondere Räume, besondere Maßnahmen zum Schutz gegen Personenschädigungen

00:43

und zum Schutz gegen die radioaktive Versäuchung der Versuchsräume usw. Man braucht überhaupt nichts von dem, es kann in jedem beliebigen Laboratorium gemacht werden. Das ist der erste Punkt. Zweitens. In gewissen Fällen ist man bei den radioaktiven Isotopen nicht sicher,

01:00

ob nicht doch durch den Einfluss der radioaktiven Strahlung der zu untersuchende Vorgang verändert ist. Es gibt gewisse Fälle, bei denen man das jetzt schon nachgewiesen hat. Auch bei Versuchen am Leben der Menschen ist es sicherer, wenn man Dinge zuführt, die bestimmt nicht schaden können, weil man sich immer noch nicht recht einig ist, wie viel der Mensch eigentlich verträgt.

01:23

Dann ist zu erwähnen, es gibt bei all diesen Markierungsversuchen – da wird zunächst einmal so getan, als behielte sich das Isotop genauso wie das zu untersuchende Element. Ganz genau ist das auch nicht richtig. Wir haben ja vorhin davon gesprochen, dass es Isotopieeffekte gibt,

01:43

dass gewisse Abweichungen im Gleichgewicht vorhanden sind. Die muss man bei feinen Messungen im aktuellen Fall doch berücksichtigen. Ich komme vorher aus der Liste. Im Allgemeinen sind die Massenunterschiede zwischen dem häufigsten Isotop und dem stabilen Isotop geringer als zwischen dem häufigsten Isotop

02:05

und dem geeigneten radioaktiven Isotop. Das liegt einfach daran – das trifft nicht überall zu –, dass die radioaktiven Isotope entweder zu viel oder zu wenig Neutronen haben, also rechts oder links von der mittleren Zahl stehen,

02:21

sodass die Isotopieeffekte, soweit sie stören, bei den stabilen kleiner sind. Dann ist vielleicht ein Vorteil, dass die Messung bei den stabilen Isotopen zu einem beliebigen Zeitpunkt stattfinden kann. Man muss nicht unbedingt innerhalb der Halbwertszeit schnell messen – die ist ja manchmal auch 1.000 Jahre, dann ist sie nicht so gefährlich –,

02:43

aber in anderen Fällen ist sie kürzer. Man kann also z. B. eine längere Versuchsreihe machen, die Proben alle nehmen und dann in einem Stück einen Gang messen. Der Nachteil der stabilen Isotopen, der hauptsächlich wohl auch

03:01

verhindert hat, dass man sie bisher viel benutzt, ist vor allen Dingen, dass die Schwierigkeit der Messung doch größer ist. Die Messung der radioaktiven Strahlung, wenn man die Einrichtung einmal hat, ist im Allgemeinen dann einfach, während die Messung über den Massenspektrometer und auch die anderen Methoden, wenn man genau messen will, doch geschulte Menschen verlangen.

03:21

Da ist es vielleicht ganz interessant, dass man dieses Problem auch auf andere Weise lösen kann. Ich kann da vorläufige Erfahrungen mitteilen, die wir in Leipzig gesammelt haben. Da ist ein Institut, die Leitung von Herrn Dr. Wülfurt, sich speziell mit diesen Fragen beschäftigt.

03:45

Sie erzeugen laufend Isotope, vor allen Dingen von Stickstoff und Sauerstoff, diese angereicheten Isotopen-Gemische. Aus denen werden dann in einer chemischen Fabrik markierte

04:00

Verbindungen hergestellt, die man beziehen kann. Außerdem hat das Institut aber drei Massenspektrometer und einige andere Einrichtungen zur Messung und übernimmt nun auch die zuverlässige Messung von solchen Gemischen. Es hat sich bereits jetzt eine sehr fruchtbare Zusammenarbeit mit der ganzen Reihe von Instituten entwickelt, die nun die Isotopen

04:25

beziehen, benutzen und ihre Proben einschicken. Auf diese Weise bekommen sie zuverlässige Messungen. Der große Vorteil ist, dass das Laboratorium überhaupt nichts Besonderes zu wissen braucht von Isotopen. Es bekommt das angereicherte Gemisch einfach wie ein anderes Reagenz.

04:44

Das geht an einer bestimmten Stelle in den Prozesse hinein. An der anderen Stelle werden Proben entnommen und die werden eingeschickt und man hat das Resultat. Es scheint nach den bisherigen Erfahrungen, dass das Verfahren sich bewährt. Es verlangt natürlich, dass diese Zentralstelle gut arbeitet,

05:01

dass sie auch eher mit der nötigen Schnelligkeit diese Messungen liefert. Das muss man nun sehen. Ich glaube, das Weiteres, was ich hier noch habe, will ich ruhig weglassen. Die Zeit ist rechtlich abgelaufen. Ich hoffe, gezeigt zu haben, dass in vielen Fällen die stabilen Isotopen doch ernstlich in Betracht zu stehen sind, ganz besonders

05:23

in Fragen der Biologie, der organischen Chemie usw., wo die leichten Isotope und Sauerstoff und Stickstoff eine Rolle spielen, die man ohnehin nicht durch andere ersetzen kann.