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I 69
International School of Physics "Enrico Fermi" ((201st : ; 2017 : ; Varenna, Italy)).
Nuclear physics with stable and radioactive ion beams = = Fisica nucleare con fasci di ioni stabili e radioattivi / : Fisica nucleare con fasci di ioni stabili e radioattivi / / edited by F. Gramegna, P. Van Duppen and A. Vitturi, directors of the course and S. Pirone. - Amsterdam : : 2019., Б. г. - 1 online resource. - (Proceedings of the International School of Physics Enrico Fermi ; ; course 201). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/E4C9A8FB-D3A7-49B7-88E7-6B6AD63037CB. - ISBN 9781614999577 (electronic bk.). - ISBN 1614999570 (electronic bk.)
Online resource; title from PDF title page (IOS Press, viewed August 5, 2019).
Содержание:
Intro; Title Page; Contents; Preface; Course group shot; Recent developments in shell model studies of atomic nuclei; 1. Introduction; 2. Basic points of the shell model; 3. Computational aspect-Monte Carlo Shell Model; 4. Hamiltonians; 5. Emerging concepts on many-body dynamics; 6. Shell evolution and monopole interaction; 6.1. Monopole interaction; 6.2. Effect of monopole interaction; 7. Shell evolution due to nuclear forces; 7.1. Type-I shell evolution; 7.2. Shell evolution due to tensor force; 8. Nuclear shape; 8.1. Nuclear shapes and quantum phase transition
8.2. Quantum phase transition in Zr isotopes8.3. Quantum self-organization; 9. Summary and perspectives; Algebraic models of quantum many-body systems: The algebraic cluster model; 1. Introduction; 2. Cluster structure of light nuclei; 3. The algebraic cluster model; 3.1. Classification of states; 3.1.1. Dumbbell configuration, k = 2. Z2 symmetry; 3.1.2. Equilateral-triangle configuration, k = 3. D3h symmetry; 3.1.3. Tetrahedral configuration, k = 4. Td symmetry; 3.2. Energy formulas; 3.2.1. Dumbbell configuration. Z2 symmetry; 3.2.2. Equilateral-triangle configuration. D3h symmetry
3.2.3. Tetrahedral configuration. Td symmetry3.3. Form factors and transition probabilities; 3.3.1. Dumbbell configuration. Z2 symmetry; 3.3.2. Equilateral-triangle configuration. D3h symmetry; 3.3.3. Tetrahedral configuration. Td symmetry; 3.4. Cluster densities; 3.4.1. Dumbbell configuration. Z2 symmetry; 3.4.2. Equilateral-triangle configuration. D3h symmetry; 3.4.3. Tetrahedral configuration. Td symmetry; 3.5. Moments of inertia and radii; 3.5.1. Dumbbell configuration. Z2 symmetry; 3.5.2. Equilateral-triangle configuration, k = 3. D3h symmetry
3.5.3. Tetrahedral configuration, k = 4. Td symmetry4. Evidence for cluster structures; 4.1. Energies; 4.1.1. Dumbbell configuration. Z2 symmetry; 4.1.2. Equilateral-triangle configuration. D3h symmetry; 4.1.3. Tetrahedral configuration. Td symmetry; 4.2. Electromagnetic transition rates; 4.2.1. Dumbbell configuration. Z2 symmetry; 4.2.2. Equilateral-triangle configuration. D3h symmetry; 4.2.3. Tetrahedral configuration. Td symmetry; 4.3. Form factors; 4.3.1. Dumbbell configuration. Z2 symmetry; 4.3.2. Equilateral-triangle configuration. D3h symmetry
4.3.3. Tetrahedral configuration. Td symmetry5. Breaking of the cluster structure. Non-cluster states; 6. Softness and higher-order corrections; 6.1. Dumbbell configuration. Z symmetry; 6.2. Equilateral-triangle configuration. D3h symmetry; 6.3. Tetrahedral configuration. Td symmetry; 7. Other geometric configurations; 8. Conclusions; Clustering in light neutron-rich nuclei; 1. Introduction; 2. Antisymmetrized molecular dynamics; 2.1. AMD wave function; 2.2. Cluster correlation; 3. Clustering in neutron-rich Be; 4. Clustering in 12C and neighboring nuclei; 4.1. Cluster structures of 12C
~РУБ DDC 539.7
Рубрики: Nuclear physics
Ion bombardment
Доп.точки доступа:
Gramegna, F., (Fabiana), \editor.\
Duppen, P. Van, \editor.\
Vitturi, Andrea, \editor.\
Pirrone, S., \contributor.\
I 69
International School of Physics "Enrico Fermi" ((201st : ; 2017 : ; Varenna, Italy)).
Nuclear physics with stable and radioactive ion beams = = Fisica nucleare con fasci di ioni stabili e radioattivi / : Fisica nucleare con fasci di ioni stabili e radioattivi / / edited by F. Gramegna, P. Van Duppen and A. Vitturi, directors of the course and S. Pirone. - Amsterdam : : 2019., Б. г. - 1 online resource. - (Proceedings of the International School of Physics Enrico Fermi ; ; course 201). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/E4C9A8FB-D3A7-49B7-88E7-6B6AD63037CB. - ISBN 9781614999577 (electronic bk.). - ISBN 1614999570 (electronic bk.)
Online resource; title from PDF title page (IOS Press, viewed August 5, 2019).
Содержание:
Intro; Title Page; Contents; Preface; Course group shot; Recent developments in shell model studies of atomic nuclei; 1. Introduction; 2. Basic points of the shell model; 3. Computational aspect-Monte Carlo Shell Model; 4. Hamiltonians; 5. Emerging concepts on many-body dynamics; 6. Shell evolution and monopole interaction; 6.1. Monopole interaction; 6.2. Effect of monopole interaction; 7. Shell evolution due to nuclear forces; 7.1. Type-I shell evolution; 7.2. Shell evolution due to tensor force; 8. Nuclear shape; 8.1. Nuclear shapes and quantum phase transition
8.2. Quantum phase transition in Zr isotopes8.3. Quantum self-organization; 9. Summary and perspectives; Algebraic models of quantum many-body systems: The algebraic cluster model; 1. Introduction; 2. Cluster structure of light nuclei; 3. The algebraic cluster model; 3.1. Classification of states; 3.1.1. Dumbbell configuration, k = 2. Z2 symmetry; 3.1.2. Equilateral-triangle configuration, k = 3. D3h symmetry; 3.1.3. Tetrahedral configuration, k = 4. Td symmetry; 3.2. Energy formulas; 3.2.1. Dumbbell configuration. Z2 symmetry; 3.2.2. Equilateral-triangle configuration. D3h symmetry
3.2.3. Tetrahedral configuration. Td symmetry3.3. Form factors and transition probabilities; 3.3.1. Dumbbell configuration. Z2 symmetry; 3.3.2. Equilateral-triangle configuration. D3h symmetry; 3.3.3. Tetrahedral configuration. Td symmetry; 3.4. Cluster densities; 3.4.1. Dumbbell configuration. Z2 symmetry; 3.4.2. Equilateral-triangle configuration. D3h symmetry; 3.4.3. Tetrahedral configuration. Td symmetry; 3.5. Moments of inertia and radii; 3.5.1. Dumbbell configuration. Z2 symmetry; 3.5.2. Equilateral-triangle configuration, k = 3. D3h symmetry
3.5.3. Tetrahedral configuration, k = 4. Td symmetry4. Evidence for cluster structures; 4.1. Energies; 4.1.1. Dumbbell configuration. Z2 symmetry; 4.1.2. Equilateral-triangle configuration. D3h symmetry; 4.1.3. Tetrahedral configuration. Td symmetry; 4.2. Electromagnetic transition rates; 4.2.1. Dumbbell configuration. Z2 symmetry; 4.2.2. Equilateral-triangle configuration. D3h symmetry; 4.2.3. Tetrahedral configuration. Td symmetry; 4.3. Form factors; 4.3.1. Dumbbell configuration. Z2 symmetry; 4.3.2. Equilateral-triangle configuration. D3h symmetry
4.3.3. Tetrahedral configuration. Td symmetry5. Breaking of the cluster structure. Non-cluster states; 6. Softness and higher-order corrections; 6.1. Dumbbell configuration. Z symmetry; 6.2. Equilateral-triangle configuration. D3h symmetry; 6.3. Tetrahedral configuration. Td symmetry; 7. Other geometric configurations; 8. Conclusions; Clustering in light neutron-rich nuclei; 1. Introduction; 2. Antisymmetrized molecular dynamics; 2.1. AMD wave function; 2.2. Cluster correlation; 3. Clustering in neutron-rich Be; 4. Clustering in 12C and neighboring nuclei; 4.1. Cluster structures of 12C
Рубрики: Nuclear physics
Ion bombardment
Доп.точки доступа:
Gramegna, F., (Fabiana), \editor.\
Duppen, P. Van, \editor.\
Vitturi, Andrea, \editor.\
Pirrone, S., \contributor.\
2.
Подробнее
P 56
Phillips, Rob,.
The Molecular Switch : : Signaling and Allostery / / Rob Phillips ; illustrated by Nigel Orme. - Princeton : : Princeton University Press,, [2020]. - 1 online resource (437 p.). - (Studies in physical biology). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/1A756932-BA84-4770-AD60-7478A666BFC3. - ISBN 0691200254 (electronic book). - ISBN 9780691200255 (electronic bk.)
4.4.1 Adaptation by Hand. Description based on online resource; title from digital title page (viewed on September 16, 2020).
Параллельные издания: Print version: : Phillips, Rob The Molecular Switch : Signaling and Allostery. - Princeton : Princeton University Press,c2020. - ISBN 9780691200248
Содержание:
Cover -- Contents -- Preface -- PART I: THE MAKING OF MOLECULAR SWITCHES -- 1. It's An Allosteric World -- 1.1 The Second Secret of Life -- 1.2 The Broad Reach of the Allostery Concept -- 1.2.1 Sculpting Biochemistry via Allostery -- 1.2.2 One- and Two-Component Signal Transduction and the Two-State Philosophy -- 1.3 Reasoning about Feedback: The Rise of Allostery -- 1.3.1 The Puzzle -- 1.3.2 The Resolution of the Molecular Feedback Puzzle -- 1.3.3 Finding the Allosterome -- 1.4 Mathematicizing the Two-State Paradigm -- 1.4.1 Transcendent Concepts in Physics
1.4.2 One Equation to Rule Them All -- 1.5 Beyond the MWC Two-State Concept -- 1.5.1 Molecular Agnosticism: MWC versus KNF versus Eigen -- 1.6 On BeingWrong -- 1.7 Summary -- 1.8 Further Reading -- 1.9 References -- 2. The Allosterician's Toolkit -- 2.1 A Mathematical Microscope: Statistical Mechanics Preliminaries -- 2.1.1 Microstates -- 2.1.2 The Fundamental Law of Statistical Mechanics -- 2.1.3 The Dimensionless Numbers of Thermal Physics -- 2.1.4 Boltzmann and Probabilities -- 2.2 Case Study in Statistical Mechanics: Ligand-Receptor Binding
2.2.1 Ligand Binding and the Lattice Model of Solutions -- 2.3 Conceptual Tools of the Trade: Free Energy and Entropy -- 2.3.1 Resetting Our Zero of Energy Using the Chemical Potential -- 2.4 The MWC Concept in Statistical Mechanical Language -- 2.5 Cooperativity and Allostery -- 2.5.1 Cooperativity and Hill Functions -- 2.5.2 Cooperativity in the MWC Model -- 2.6 Internal Degrees of Freedom and Ensemble Allostery -- 2.7 Beyond Equilibrium -- 2.8 Summary -- 2.9 Further Reading -- 2.10 References -- PART II: THE LONG REACH OF ALLOSTERY -- 3. Signaling at the Cell Membrane: Ion Channels
3.1 How Cells Talk to the World -- 3.2 Biological Processes and Ion Channels -- 3.3 Ligand-Gated Channels -- 3.4 Statistical Mechanics of the MWC Channel -- 3.5 Data Collapse, Natural Variables, and the Bohr Effect -- 3.5.1 Data Collapse and the Ion-Channel Bohr Effect -- 3.6 Rate Equation Description of Channel Gating -- 3.7 Cyclic Nucleotide-Gated Channels -- 3.8 Beyond the MWC Model in Ion Channelology -- 3.8.1 Conductance Substates and Conformational Kinetics -- 3.8.2 The Koshland-Némethy-Filmer Model Revealed -- 3.8.3 Kinetic Proliferation -- 3.8.4 The Question of Inactivation -- 3.9 Summary
3.10 Further Reading -- 3.11 References -- 4. How Bacteria Navigate the World around Them -- 4.1 Bacterial Information Processing -- 4.1.1 Engelmann's Experiment and Bacterial Aerotaxis -- 4.1.2 Love Thy Neighbors: Signaling between Bacteria -- 4.2 Bacterial Chemotaxis -- 4.2.1 The Chemotaxis Phenomenon -- 4.2.2 Wiring Up Chemotaxis through Molecular Switching -- 4.3 MWC Models of Chemotactic Response -- 4.3.1 MWC Model of Chemotaxis Receptor Clusters -- 4.3.2 Heterogenous Clustering -- 4.3.3 Putting It All Together by Averaging -- 4.4 The Amazing Phenomenon of Physiological Adaptation
~РУБ DDC 571.74
Рубрики: Cellular signal transduction.
Cellular control mechanisms.
SCIENCE / Life Sciences / Biophysics.
Cellular control mechanisms
Cellular signal transduction
Аннотация: A signature feature of living organisms is their ability to carry out purposeful actions by taking stock of the world around them. To that end, cells have an arsenal of signaling molecules linked together in signaling pathways, which switch between inactive and active conformations. The Molecular Switch articulates a biophysical perspective on signaling, showing how allostery--a powerful explanation of how molecules function across all biological domains--can be reformulated using equilibrium statistical mechanics, applied to diverse biological systems exhibiting switching behaviors, and successfully unify seemingly unrelated phenomena.Rob Phillips weaves together allostery and statistical mechanics via a series of biological vignettes, each of which showcases an important biological question and accompanying physical analysis. Beginning with the study of ligand-gated ion channels and their role in problems ranging from muscle action to vision, Phillips then undertakes increasingly sophisticated case studies, from bacterial chemotaxis and quorum sensing to hemoglobin and its role in mammalian physiology. He looks at G-protein coupled receptors as well as the role of allosteric molecules in gene regulation. Phillips concludes by surveying problems in biological fidelity and offering a speculative chapter on the relationship between allostery and biological Maxwell demons.Appropriate for graduate students and researchers in biophysics, physics, engineering, biology, and neuroscience, The Molecular Switch presents a unified, quantitative model for describing biological signaling phenomena.
P 56
Phillips, Rob,.
The Molecular Switch : : Signaling and Allostery / / Rob Phillips ; illustrated by Nigel Orme. - Princeton : : Princeton University Press,, [2020]. - 1 online resource (437 p.). - (Studies in physical biology). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/1A756932-BA84-4770-AD60-7478A666BFC3. - ISBN 0691200254 (electronic book). - ISBN 9780691200255 (electronic bk.)
4.4.1 Adaptation by Hand. Description based on online resource; title from digital title page (viewed on September 16, 2020).
Параллельные издания: Print version: : Phillips, Rob The Molecular Switch : Signaling and Allostery. - Princeton : Princeton University Press,c2020. - ISBN 9780691200248
Содержание:
Cover -- Contents -- Preface -- PART I: THE MAKING OF MOLECULAR SWITCHES -- 1. It's An Allosteric World -- 1.1 The Second Secret of Life -- 1.2 The Broad Reach of the Allostery Concept -- 1.2.1 Sculpting Biochemistry via Allostery -- 1.2.2 One- and Two-Component Signal Transduction and the Two-State Philosophy -- 1.3 Reasoning about Feedback: The Rise of Allostery -- 1.3.1 The Puzzle -- 1.3.2 The Resolution of the Molecular Feedback Puzzle -- 1.3.3 Finding the Allosterome -- 1.4 Mathematicizing the Two-State Paradigm -- 1.4.1 Transcendent Concepts in Physics
1.4.2 One Equation to Rule Them All -- 1.5 Beyond the MWC Two-State Concept -- 1.5.1 Molecular Agnosticism: MWC versus KNF versus Eigen -- 1.6 On BeingWrong -- 1.7 Summary -- 1.8 Further Reading -- 1.9 References -- 2. The Allosterician's Toolkit -- 2.1 A Mathematical Microscope: Statistical Mechanics Preliminaries -- 2.1.1 Microstates -- 2.1.2 The Fundamental Law of Statistical Mechanics -- 2.1.3 The Dimensionless Numbers of Thermal Physics -- 2.1.4 Boltzmann and Probabilities -- 2.2 Case Study in Statistical Mechanics: Ligand-Receptor Binding
2.2.1 Ligand Binding and the Lattice Model of Solutions -- 2.3 Conceptual Tools of the Trade: Free Energy and Entropy -- 2.3.1 Resetting Our Zero of Energy Using the Chemical Potential -- 2.4 The MWC Concept in Statistical Mechanical Language -- 2.5 Cooperativity and Allostery -- 2.5.1 Cooperativity and Hill Functions -- 2.5.2 Cooperativity in the MWC Model -- 2.6 Internal Degrees of Freedom and Ensemble Allostery -- 2.7 Beyond Equilibrium -- 2.8 Summary -- 2.9 Further Reading -- 2.10 References -- PART II: THE LONG REACH OF ALLOSTERY -- 3. Signaling at the Cell Membrane: Ion Channels
3.1 How Cells Talk to the World -- 3.2 Biological Processes and Ion Channels -- 3.3 Ligand-Gated Channels -- 3.4 Statistical Mechanics of the MWC Channel -- 3.5 Data Collapse, Natural Variables, and the Bohr Effect -- 3.5.1 Data Collapse and the Ion-Channel Bohr Effect -- 3.6 Rate Equation Description of Channel Gating -- 3.7 Cyclic Nucleotide-Gated Channels -- 3.8 Beyond the MWC Model in Ion Channelology -- 3.8.1 Conductance Substates and Conformational Kinetics -- 3.8.2 The Koshland-Némethy-Filmer Model Revealed -- 3.8.3 Kinetic Proliferation -- 3.8.4 The Question of Inactivation -- 3.9 Summary
3.10 Further Reading -- 3.11 References -- 4. How Bacteria Navigate the World around Them -- 4.1 Bacterial Information Processing -- 4.1.1 Engelmann's Experiment and Bacterial Aerotaxis -- 4.1.2 Love Thy Neighbors: Signaling between Bacteria -- 4.2 Bacterial Chemotaxis -- 4.2.1 The Chemotaxis Phenomenon -- 4.2.2 Wiring Up Chemotaxis through Molecular Switching -- 4.3 MWC Models of Chemotactic Response -- 4.3.1 MWC Model of Chemotaxis Receptor Clusters -- 4.3.2 Heterogenous Clustering -- 4.3.3 Putting It All Together by Averaging -- 4.4 The Amazing Phenomenon of Physiological Adaptation
Рубрики: Cellular signal transduction.
Cellular control mechanisms.
SCIENCE / Life Sciences / Biophysics.
Cellular control mechanisms
Cellular signal transduction
Аннотация: A signature feature of living organisms is their ability to carry out purposeful actions by taking stock of the world around them. To that end, cells have an arsenal of signaling molecules linked together in signaling pathways, which switch between inactive and active conformations. The Molecular Switch articulates a biophysical perspective on signaling, showing how allostery--a powerful explanation of how molecules function across all biological domains--can be reformulated using equilibrium statistical mechanics, applied to diverse biological systems exhibiting switching behaviors, and successfully unify seemingly unrelated phenomena.Rob Phillips weaves together allostery and statistical mechanics via a series of biological vignettes, each of which showcases an important biological question and accompanying physical analysis. Beginning with the study of ligand-gated ion channels and their role in problems ranging from muscle action to vision, Phillips then undertakes increasingly sophisticated case studies, from bacterial chemotaxis and quorum sensing to hemoglobin and its role in mammalian physiology. He looks at G-protein coupled receptors as well as the role of allosteric molecules in gene regulation. Phillips concludes by surveying problems in biological fidelity and offering a speculative chapter on the relationship between allostery and biological Maxwell demons.Appropriate for graduate students and researchers in biophysics, physics, engineering, biology, and neuroscience, The Molecular Switch presents a unified, quantitative model for describing biological signaling phenomena.
3.
Подробнее
L 75
Linde, Werner.
Probability Theory [[electronic resource].] / Werner. Linde. - [Б. м.] : De Gruyter,, [2017]. - 1 online resource. - (De Gruyter Textbook). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/DC3348B3-FFB8-4D11-BC45-5E3FCAE34AB6. - ISBN 3110466198 (electronic bk.). - ISBN 9783110466195 (electronic bk.). - ISBN 9783110466256 (electronic bk.). - ISBN 3110466252 (electronic bk.)
Print version record.
~РУБ DDC 519.2
Рубрики: Probabilities
Mathematical statistics
Measure theory
MATHEMATICS / Applied
MATHEMATICS / Probability & Statistics / General
L 75
Linde, Werner.
Probability Theory [[electronic resource].] / Werner. Linde. - [Б. м.] : De Gruyter,, [2017]. - 1 online resource. - (De Gruyter Textbook). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/DC3348B3-FFB8-4D11-BC45-5E3FCAE34AB6. - ISBN 3110466198 (electronic bk.). - ISBN 9783110466195 (electronic bk.). - ISBN 9783110466256 (electronic bk.). - ISBN 3110466252 (electronic bk.)
Print version record.
Рубрики: Probabilities
Mathematical statistics
Measure theory
MATHEMATICS / Applied
MATHEMATICS / Probability & Statistics / General
Page 1, Results: 3