Berlin, [Germany] ; ; New York, [New York] : , : Walter de Gruyter, , 2003

©2003

3-11-089976-0

1 online resource (610 p.)

SK 430

515/.42

Integrals, Generalized

Measure theory

Potential theory (Mathematics)

Convex sets

Inglese

Description based upon print version of record.

Includes bibliographical references.

Frontmatter -- Preface -- Curriculum vitae -- Ph.D. students of Heinz Bauer -- Contents -- The work of Heinz Bauer in measure and integration / Chatterji, S. D. -- The work of Heinz Bauer in convexity theory / Edwards, D. A. -- The work of Heinz Bauer in potential theory / Netuka, Ivan -- Reguläre und singuläre Abbildungen eines distributiven Verbandes in einen vollständigen Vektorverband, welche der Funktionalgleichung f(x⋁y) + f(x⋀y) = f(x) + f(y) genügen [R3] -- Über die Beziehungen einer abstrakten Theorie des Riemann-Integrals zur Theorie Radonscher Maße [R9] -- Sur l'équivalence des théories de l'intégration selon N. Bourbaki et selon M. H. Stone [R10] -- Minimalstellen von Funktionen und Extremalpunkte [R13] -- Konservative Abbildungen lokal-kompakter Räume [R14] -- Minimalstellen von Funktionen und Extremalpunkte. II [R16] -- Šilovscher Rand und Dirichletsches Problem [R17] -- Axiomatische Behandlung des Dirichletschen Problems für elliptische und parabolische Differentialgleichungen [R19] -- Weiterführung einer axiomatischen Potentialtheorie ohne Kern (Existenz von Potentialen [R20] -- Kennzeichnung kompakter Simplexe mit abgeschlossener Extremalpunktmenge [R21] -- Propriétés fines des fonctions

hyperharmoniques dans une théorie axiomatique du potentiel [R23] -- Zum Cauchyschen und Dirichletschen Problem bei elliptischen und parabolischen Differentialgleichungen [R24] -- Mesures avec une image donnée [R25] -- The part metric in convex sets [R26] -- An open mapping theorem for convex sets with only one part [R27] -- Theorems of Korovkin type for adapted spaces [R29] -- Convergence of monotone operators [R30] -- Korovkin approximation in C0(X) [R32] -- Approximation and abstract boundaries [S12] -- Halbgruppen und Resolventen in der Potentialtheorie [S15] -- Harmonic spaces - a survey [S21] -- Heat balls and Fulks measures [R34] -- Simplicial function spaces and simplexes [R35] -- Fine boundary limits of harmonic and caloric functions [R36] -- Simplices in potential theory [S24] -- Fine boundary limits and maximal sequences [R39] -- Behaviour of solutions of elliptic-parabolic differential equations at irregular boundary points [S26] -- Acknowledgements -- Bibliography

Heinz Bauer (1928-2002) was one of the prominent figures in Convex Analysis and Potential Theory in the second half of the 20th century. The Bauer minimum principle and Bauer's work on Silov's boundary and the Dirichlet problem are milestones in convex analysis. Axiomatic potential theory owes him what is known by now as Bauer harmonic spaces. These Selecta collect more than twenty of Bauer's research papers including his seminal papers in Convex Analysis and Potential Theory. Above his research contributions Bauer is best known for his art of writing survey articles. Five of his surveys on different topics are reprinted in this volume. Among them is the well-known article Approximation and Abstract Boundary, for which he was awarded with the Chauvenet Price by the American Mathematical Association in 1980.

Cham : , : Springer Nature Switzerland : , : Imprint : Springer, , 2024

9783031640414

3031640411

1 online resource (385 pages)

621.044

Plasma (Ionized gases)

Condensed matter

Quantum dots

Basic Plasma Phenomena and Gas Discharges

Two-dimensional Materials

Condensed Matter Physics

Quantum Dots

Inglese

Introduction to Nano Matter and Cold Plasma -- Plasma Overview and the Basics of Cold Plasma: In Material Synthesis -- Cold Plasma Diagnostics: Basics and Working Principles -- Nano Matter: Synthesis Techniques - An Overview -- Cold Plasma-Assisted Nano-matter Synthesis: Basic Principles and Techniques -- Nucleation, Thermodynamics, and Growth Kinetics of 2D Materials -- Nucleation of Nano-Matter and Nano-thermodynamics -- A Brief History and Chronology of Plasma.

This book describes the basic principles and techniques of cold plasma to synthesize nanomaterials, emphasizing the fundamentals. Nanotechnology has matured enough to make inroads into the industry. “Quantum size effects” is the basis of the exotic properties of nanomaterials. The shapes and the size distribution dictate the properties of the nano-matter. The demands of the synthesis technique are to produce nano-matter with uniform size, repeatable shapes, uniform size distribution, stability of the nanostructures (reaching

thermodynamic equilibrium), reproducibility of the particle sizes, and reliability of the process. These demands can be met when the synthesis technique has precise control over the process parameters. Cold plasma techniques possess all the requirements of the needs of nanomaterial synthesis. The cold plasma, an evolving field, has been established to be the most powerful tool not only for micro-electronics (both in the deposition and etching) but in many areas like health care, medicine, agriculture, food processing, etc. The book’s primary emphasis is to explain the basic principles and concepts of cold plasma in nanomaterial synthesis. The target audience is undergraduate and graduate students learning nanomaterial synthesis and plasma technology. It is hoped that this book also is a good source of reference for practicing scientists and engineers involved in synthesizing nanomaterials and nanostructures in the industry.