01802nam a2200349 i 450099100329238970753620020509115615.0941117s1983 de ||| | lat 34870735443487073552b11139122-39ule_instPARLA179066ExLDip.to Scienze dell'AntichitàitaAmmianus : Marcellinus256090Index verborum Ammiani Marcellini /edidit Maria ChiabòHildesheim [etc.] :Olms,19832 v. (II, 903 p. compless.) ;22 cm.Alpha-Omega ;44Pars 1.: A-L. Pars 2.: M-Z.Ammiano MarcellinoChiabò, Maria.b1113912223-02-1728-06-02991003292389707536LE007 870.1 Ammianus Marcellinus A-Index 01 v.112015000101518le007-E0.00-l- 00000.i1127878x28-06-02LE007 870.1 Ammianus Marcellinus A-Index 01 v.122015000101525le007-E0.00-l- 00000.i1511592621-04-10LE007 870.1 Ammianus Marcellinus A-Index 01 v.132007000185513le007-E0.00-l- 00000.i1511593821-04-10LE007 870.1 Ammianus Marcellinus A-Index 01v.212015000101532le007-E0.00-l- 00000.i1127879128-06-02LE007 870.1 Ammianus Marcellinus A-Index 01 v.222015000101549le007-E0.00-l- 00000.i1511594x21-04-10LE007 870.1 Ammianus Marcellinus A-Index 01 v.232007000185520le007-E0.00-l- 00000.i1511595121-04-10Index verborum Ammiani Marcellini469260UNISALENTOle00701-01-94ma -latde 0205214nam 2200625Ia 450 991100653190332120200520144314.01-281-11198-897866111119840-08-054721-41-60119-270-3(CKB)1000000000281394(EBL)328563(OCoLC)476125950(SSID)ssj0000072217(PQKBManifestationID)11980019(PQKBTitleCode)TC0000072217(PQKBWorkID)10095686(PQKB)11310010(MiAaPQ)EBC328563(EXLCZ)99100000000028139419840802d1985 uy 0engur|n|---|||||txtccrHandbook of optical constants of solids /edited by Edward D. PalikOrlando Academic Press19851 online resource (824 p.)Academic Press handbook seriesDescription based upon print version of record.0-12-544420-6 Includes bibliographies.Front Cover; Handbook of Optical Constants of Solids; Copyright Page; Table of Contents; List of Contributors; Preface; Part I: DETERMINATION OF OPTICAL CONSTANTS; Chapter 1. Introductory Remarks; I. Introduction; II. The Chapters; III. The Critiques; IV. The Tables; V. The Figures of the Tables; VI. General Remarks; References; Chapter 2. Basic Parameters for Measuring Optical Properties; I. Introduction; II. Intrinsic Material Parameters in Terms of Optical Constants; III. Reflectance, Transmittance, and Absorptanceof Layered StructuresIV. The General Lamelliform-Phase Coherency ThroughoutV. The General Lamelliform-Phase Incoherency in Substrate; VI. Summary; Appendix A. Basic Formulas for Fresnel Coefficients; Appendix B. General Formulas for the Case of a Parallel-Sided Slab; Appendix C. Reflectance, Rjk at j-k Interface; Appendix D. Reflectance of Single Layer on Each Side of a Slab and Single Layer on Either Side of a Slab; Appendix E. Critical Angle of Incidence; Definition of Terms; References; Chapter 3. Dispersion Theory, Sum Rules, and Their Application to the Analysis of Optical Data; I. IntroductionII. Optical Sum Rules and Their Physical InterpretationIII. Finite-Energy Sum Rules; IV. Sum Rules for Reflection Spectroscopy; V. Analysis of Optical Data and Sum-Rule Applications; VI. Summary; References; Chapter 4. Measurement of Optical Constants in the Vacuum Ultraviolet Spectral Region; I. Introduction; II. General Discussion of Reflectance Methods; III. Reflectance Method for Two Media; References; Chapter 5. The Accurate Determination of Optical Properties by Ellipsometry; I. Reflection Techniques; Background and Overview; II. Measurement ConfigurationsIII. Accurate Determination of Optical Properties: Overlayer EffectsIV. Living with Overlayers; V. Eliminating Overlayers; VI. Bulk and Thin-Film Effects; Effective-Medium Theory; VII. Conclusion; References; References; Chapter 6. Interferometric Methods for the Determination of Thin-Film Parameters; I. Introduction; II. Basic Principles; III. Nonlaser Interferometers; IV. Kösters-Prism Interferometers; V. A Self-Calibrating Method; VI. Surface Effects; VII. Conclusions; References; Chapter 7. Thin-Film Absorptance Measurements Using Laser Calorimetry; I. IntroductionII. Single-Layer FilmsIII. Wedged-Film Laser Calorimetry; IV. Electric-Field Considerations in Laser Calorimetry; V. Entrance versus Exit Surface Films; VI. Experimental Determination of αf, aaf, and afs; References; Chapter 8. Complex Index of Refraction Measurements at Near-Millimeter Wavelengths; I. Introduction; II. Fourier Transform Spectroscopy; III. Free-Space Resonant Cavity; IV. Mach-Zehnder Interferometer; V. Direct Birefringence Measurement; VI. Overmoded Nonresonant Cavity; VII. Crystal Quartz as Index Reference; VIII. Conclusion; ReferencesChapter 9. The Quantum Extension of the Drude-Zener Theory in Polar SemiconductorsWhile bits and pieces of the index of refraction n and extinction coefficient k for a given material can be found in several handbooks, the Handbook of Optical Constants of Solids gives for the first time a single set of n and k values over the broadest spectral range (ideally from x-ray to mm-wave region). The critiquers have chosen the numbers for you, based on their own broad experience in the study of optical properties. Whether you need one number at one wavelength or many numbers at many wavelengths, what is available in the literature is condensed downAcademic Press handbook series.SolidsOptical propertiesHandbooks, manuals, etcOptical constantsHandbooks, manuals, etcSolidsOptical propertiesOptical constants530.4/1Palik Edward D462273MiAaPQMiAaPQMiAaPQBOOK9911006531903321Handbook of optical constants of solids187350UNINA05417nam 22007335 450 991101563950332120250703130308.09783031920332(electronic bk.)978303192032510.1007/978-3-031-92033-2(MiAaPQ)EBC32196033(Au-PeEL)EBL32196033(CKB)39578325200041(DE-He213)978-3-031-92033-2(EXLCZ)993957832520004120250703d2025 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierIron Metabolism in Human Health and Disease /edited by Kostas Pantopoulos1st ed. 2025.Cham :Springer Nature Switzerland :Imprint: Springer,2025.1 online resource (811 pages)Advances in Experimental Medicine and Biology,2214-8019 ;1480Print version: Pantopoulos, Kostas Iron Metabolism in Human Health and Disease Cham : Springer,c2025 9783031920325 Chapter 1. BioIron: Origin, Chemical Properties and Biological Functions -- Chapter 2. Cellular Iron Homeostasis -- Chapter 3. Systemic Iron Metabolism -- Chapter 4. The Labile Side of Iron in Health and Disease: a Narrative Review -- Chapter 5. Iron and Cell Death -- Chapter 6. Dietary Iron Absorption: Biochemical and Nutritional Aspects -- Chapter 7. Hepcidin and Tissue-Specific Iron Regulatory Networks -- Chapter 8. Control of Systemic Iron Homeostasis – Insights Gained from Studying Mouse Models -- Chapter 9. Diagnosis and Treatment of HFEC282Y-Linked Hemochromatosis -- Chapter 10. Diagnosis and Management of Non-HFE Hemochromatosis, Ferroportin Disease and Rare Hereditary Iron Loading Disorders -- Chapter 11. Iron-Loading Anemias -- Chapter 12. Iron Deficiency Anemia -- Chapter 13. Anemia of Inflammation -- Chapter 14. Iron, Hepcidin, and Immunity -- Chapter 15. Iron Metabolism in Cardiovascular Disease -- Chapter 16. Iron and Liver Disease -- Chapter 17. The Impact of Iron Homeostasis in Insulin-Sensitive Tissues and Gut Microbiome on Obesity-Driven Metabolic Disorders -- Chapter 18. Iron and Cancer -- Chapter 19. Neurodegeneration with Brain Iron Accumulation -- Chapter 20. Iron and Bone Pathophysiology -- Chapter 21. Iron and Pregnancy -- Chapter 22. Iron and the Intestinal Microbiome -- Chapter 23. Iron Chelation Therapy -- Chapter 24. Oral and Intravenous Iron Therapy -- Chapter 25. Diagnostics: Markers of Body Iron Status -- Chapter 26. Current Landscape of Hepcidin Therapeutics.This book provides a state-of-the-art overview on the role of bioiron in health and disease. Iron is an essential constituent of simple and complex organisms and has played a critical role in the origin of life. Cells utilize iron for energy metabolism, oxygen transport, and several biochemical reactions due to its flexible coordination chemistry and its unique ability to serve both as electron donor and acceptor. The term “bioiron” was coined to emphasize the importance of iron in biology and medicine. Even though iron is an abundant metal, its bioavailability is limiting. This often leads to iron-deficient states, which manifest in anemia and other co-morbidities. In fact, iron deficiency is the most common medical condition worldwide. On the other hand, excess iron is potentially toxic due to its redox reactivity. Iron toxicity is illustrated in pathologies of iron overload disorders, such as hereditary hemochromatosis or iron-loading anemias. Deregulation of iron metabolism is also observed in prevalent metabolic, cardiovascular, or neurological disorders. Our knowledge of iron metabolism has dramatically increased during the last 30-40 years with the discovery of elegant iron homeostatic networks that operate at the cellular and systemic levels. These include the IRE/IRP regulatory system and the hepcidin/ferroportin axis. The iron hormone hepcidin has emerged as a master regulator of systemic iron traffic and as a pharmacological target for iron-related disorders. The book offers a comprehensive overview of the rapidly growing bioiron field and aims to attract the attention of students, basic scientists, and clinicians.Advances in Experimental Medicine and Biology,2214-8019 ;1480MetabolismMetabolismDisordersBiochemistryMetal ionsMedicineResearchBiologyResearchCytologyDiseasesMetabolismMetabolic DiseaseMetal IonsBiomedical ResearchMechanisms of DiseaseMetabolism.MetabolismDisorders.Biochemistry.Metal ions.MedicineResearch.BiologyResearch.Cytology.Diseases.Metabolism.Metabolic Disease.Metal Ions.Biomedical Research.Mechanisms of Disease.572.4Pantopoulos Kostas1833181MiAaPQMiAaPQMiAaPQ9911015639503321Iron Metabolism in Human Health and Disease4408092UNINA