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Memory functions, projection operato...

Kenkre, V. M. (Nitant).

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Memory functions, projection operators, and the defect technique = some tools of the trade for the condensed matter physicist /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Memory functions, projection operators, and the defect technique/ by V. M. (Nitant) Kenkre.
其他題名:	some tools of the trade for the condensed matter physicist /
作者:	Kenkre, V. M. (Nitant).
出版者:	Cham :Springer International Publishing : : 2021.,
面頁冊數:	xxii, 374 p. :ill., digital ;24 cm.
內容註:	Chapter 1. The Memory Function Formalism: What and Why -- Chapter 2. Zwanzig's Projection Operators: How They Yield Memories -- Chapter 3. Building Coarse-Graining into Projections and Generalizing Energy Transfer Theory -- Chapter 4. Relations of Memories to Other Entities and GME Solutions for the Linear Chain -- Chapter 5. Direct Determination of Frenkel Exciton Coherence from Ronchi Ruling and Transient Grating Experiments -- Chapter 6. Application to Charges Moving in Crystals: Resolution of the Mobility Puzzle in Naphthalene and Related Results -- Chapter 7. Projections and Memories for Microscopic Treatment of Vibrational Relaxation -- Chapter 8. Projection Operators for Various Contexts -- Chapter 9. Spatial Memories and Granular Compaction -- Chapter 10. Memories and Projections in Nonlinear Equations of Motion -- Chapter 11. The Montroll Defect Technique and its Application to Molecular Crystals -- Chapter 12. The Defect Technique in the Continuum -- Chapter 13. Memory Functions from Static Disorder: Effective Medium Theory -- Chapter 14. Effective Medium Theory Application to Molecular Movement in Cell Membranes -- Chapter 15. A Mathematical Approach to Non-Physical Defects -- Chapter 16. Concluding Remarks.
Contained By:	Springer Nature eBook
標題:	Condensed matter. -
電子資源:	https://doi.org/10.1007/978-3-030-68667-3
ISBN:	9783030686673

Memory functions, projection operators, and the defect technique = some tools of the trade for the condensed matter physicist /
Kenkre, V. M. (Nitant).

Memory functions, projection operators, and the defect techniquesome tools of the trade for the condensed matter physicist /[electronic resource] :by V. M. (Nitant) Kenkre. - Cham :Springer International Publishing :2021. - xxii, 374 p. :ill., digital ;24 cm. - Lecture notes in physics,v.9820075-8450 ;. - Lecture notes in physics ;v.982..

Chapter 1. The Memory Function Formalism: What and Why -- Chapter 2. Zwanzig's Projection Operators: How They Yield Memories -- Chapter 3. Building Coarse-Graining into Projections and Generalizing Energy Transfer Theory -- Chapter 4. Relations of Memories to Other Entities and GME Solutions for the Linear Chain -- Chapter 5. Direct Determination of Frenkel Exciton Coherence from Ronchi Ruling and Transient Grating Experiments -- Chapter 6. Application to Charges Moving in Crystals: Resolution of the Mobility Puzzle in Naphthalene and Related Results -- Chapter 7. Projections and Memories for Microscopic Treatment of Vibrational Relaxation -- Chapter 8. Projection Operators for Various Contexts -- Chapter 9. Spatial Memories and Granular Compaction -- Chapter 10. Memories and Projections in Nonlinear Equations of Motion -- Chapter 11. The Montroll Defect Technique and its Application to Molecular Crystals -- Chapter 12. The Defect Technique in the Continuum -- Chapter 13. Memory Functions from Static Disorder: Effective Medium Theory -- Chapter 14. Effective Medium Theory Application to Molecular Movement in Cell Membranes -- Chapter 15. A Mathematical Approach to Non-Physical Defects -- Chapter 16. Concluding Remarks.

This book provides a graduate-level introduction to three powerful and closely related techniques in condensed matter physics: memory functions, projection operators, and the defect technique. Memory functions appear in the formalism of the generalized master equations that express the time evolution of probabilities via equations non-local in time, projection operators allow the extraction of parts of quantities, such as the diagonal parts of density matrices in statistical mechanics, and the defect technique allows solution of transport equations in which the translational invariance is broken in small regions, such as when crystals are doped with impurities. These three methods combined form an immensely useful toolkit for investigations in such disparate areas of physics as excitation in molecular crystals, sensitized luminescence, charge transport, non-equilibrium statistical physics, vibrational relaxation, granular materials, NMR, and even theoretical ecology. This book explains the three techniques and their interrelated nature, along with plenty of illustrative examples. Graduate students beginning to embark on a research project in condensed matter physics will find this book to be a most fruitful source of theoretical training.

ISBN: 9783030686673

Standard No.: 10.1007/978-3-030-68667-3doiSubjects--Topical Terms:

526213
Condensed matter.

LC Class. No.: QC173.454 / .K465 2021

Dewey Class. No.: 530.41

Memory functions, projection operators, and the defect technique = some tools of the trade for the condensed matter physicist /
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520 $a This book provides a graduate-level introduction to three powerful and closely related techniques in condensed matter physics: memory functions, projection operators, and the defect technique. Memory functions appear in the formalism of the generalized master equations that express the time evolution of probabilities via equations non-local in time, projection operators allow the extraction of parts of quantities, such as the diagonal parts of density matrices in statistical mechanics, and the defect technique allows solution of transport equations in which the translational invariance is broken in small regions, such as when crystals are doped with impurities. These three methods combined form an immensely useful toolkit for investigations in such disparate areas of physics as excitation in molecular crystals, sensitized luminescence, charge transport, non-equilibrium statistical physics, vibrational relaxation, granular materials, NMR, and even theoretical ecology. This book explains the three techniques and their interrelated nature, along with plenty of illustrative examples. Graduate students beginning to embark on a research project in condensed matter physics will find this book to be a most fruitful source of theoretical training.
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