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200 00$aPediatric anesthesiology $ea comprehensive board review /$fedited by Kai Matthes, Anjolie E. Laubach, Ellen Wang, T. Anthony Anderson
210  1$aOxford :$cOxford University Press,$d[2015]
210  4$dİ2015
215   $a1 online resource (713 p.)
300   $aDescription based upon print version of record.
311   $a0-19-939834-8 
320   $aIncludes bibliographical references and index.
327   $a17. Ophthalmology18. Orthopedic Surgery; 19. Trauma and Burns; 21. Fluid, Electrolyte, and Temperature Management; 22. Regional Anesthesia; 23. General Anesthesia; 24. Complications of Anesthesia; 25. Special Techniques and Situations; 26. Postoperative Period; 27. Professional Issues; 28. Principles of Biostatistics and Study Design; Index
330   $aPediatric Anesthesiology: A Comprehensive Board Review is a high-yield, streamlined study aid. It contains more than 800, realistic, multiple-choice questions tailored to the keywords in the outline of the Pediatric Anesthesiology Certification Examination published by the American Board of Anesthesiology (ABA). To maximize reading efficiency, annotated answers are followed by bulleted key facts and key references. With this book as guide, readers will be able to efficiently prepare for the written primary certification pediatric anesthesiology board exam.
606   $aPediatric anesthesia$vExaminations, questions, etc
606   $aAnesthesiology$vExaminations, questions, etc
615  0$aPediatric anesthesia
615  0$aAnesthesiology
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702   $aWang$b Ellen
702   $aAnderson$b T. Anthony
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200 00$aPhotonics$hVolume IV$iBiomedical photonics, spectroscopy, and microscopy. $escientific foundations, technology, and applications /$fedited by David L. Andrews, School of Chemical Sciences University of East Anglia Norwich, UK ; contributors, Thomas Aabo [and thirty three others]
210  1$aHoboken, New Jersey :$cWiley,$d2015.
210  4$dİ2015
215   $a1 online resource (602 p.)
225 1 $aA Wiley-Science Wise Co-Publication
300   $a"A Wiley-Science Wise Co-Publication"--Cover.
311   $a1-118-22555-4 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aPhotonics; Contents; List of Contributors; Preface; 1 Fluorescence; 1.1 Introduction; 1.2 Spectra; 1.2.1 Background and Theory; 1.2.2 Experimental; 1.2.3 Application Example-Melanin Spectra; 1.3 Quantum Yield; 1.3.1 Theory; 1.3.2 Experimental; 1.3.3 Application Example-ThT Detection of Sheet Structure; 1.4 Lifetime; 1.4.1 Theory; 1.4.2 Experimental; 1.4.3 Application Example-In Vivo Glucose Sensing; 1.5 Quenching; 1.5.1 Theory; 1.5.2 Application-Metal Ion Quenching; 1.6 Anisotropy; 1.6.1 Theory; 1.6.2 Experimental; 1.6.3 Application Example-Nanoparticle Metrology; 1.7 Microscopy
327   $a1.7.1 Systems and Techniques 1.7.2 Application Example-Gold Nanorods in Cells; 1.8 Conclusions; Acknowledgments; 2 Single-Molecule Detection and Spectroscopy; 2.1 Introduction; 2.2 Experimental Setups; 2.2.1 Principles; 2.2.2 Correction of Aberrations; 2.2.3 Polarization Structure at the Focus; 2.2.4 Various Microscopy Methods; 2.3 Fluorescence Spectroscopy; 2.3.1 Introduction, Signal-to-Noise Ratio; 2.3.2 Sample Preparation; 2.3.3 Orientation; 2.3.4 Blinking; 2.3.5 Bleaching; 2.3.6 Superresolution; 2.4 Fluorescence Correlation Spectroscopy; 2.4.1 Photon Counting Histograms, Burst Analysis
327   $a2.4.2 Fluorescence Correlation Spectroscopy 2.4.3 Multiparameter Analysis; 2.5 Fluorescence Excitation Spectroscopy; 2.5.1 Zero-Phonon Line and Phonon Wing; 2.5.2 Inhomogeneous Broadening; 2.5.3 Hole-Burning [30]; 2.5.4 Single-Molecule Spectroscopy; 2.5.5 Scope of Low-Temperature Single-Molecule Spectroscopy; 2.6 Other Detection Methods; 2.6.1 General Considerations on Signal, Background, and Noise; 2.6.2 Dark-Field Scattering, Total Internal Reflection; 2.6.3 Absorption, Extinction, Interference-Based Methods; 2.6.4 Pump-Probe and Photothermal Detections; 2.7 Conclusion; Acknowledgments
327   $aReferences 3 Resonance Energy Transfer; 3.1 Introduction; 3.2 History of RET; 3.2.1 The First Experiments; 3.2.2 Early Developments of Theory; 3.2.3 Fo?rster Theory; 3.3 The Photophysics of RET; 3.3.1 Primary Excitation Processes; 3.3.2 Coupling of Electronic Transitions; 3.3.3 Dissipation and Line Broadening; 3.3.4 Fo?rster Equation; 3.3.5 Orientation Dependence; 3.3.6 Polarization Features; 3.3.7 Diffusion Effects; 3.3.8 Long-Range Transfer; 3.3.9 Dexter Transfer; 3.4 Investigative Applications of RET in Molecular Biology; 3.4.1 Spectroscopic Ruler; 3.4.2 Conformational Change
327   $a3.4.3 Intensity-Based Imaging 3.4.4 Lifetime-Based Imaging; 3.4.5 Other Applications; 3.5 The Role of RET in Light-Harvesting Complexes; 3.5.1 Introduction; 3.5.2 Photosynthetic Excitons; Acknowledgments; References; 4 Biophotonics of Photosynthesis; 4.1 Introduction; 4.2 Structure of Pigment-Protein Complexes and Structure-Function Relationships; 4.2.1 Photosystem I (PS I) and Photosystem II (PS II); 4.2.2 PCs of Purple Bacteria; 4.3 Key Concepts in Physics of Pigment-Protein Complexes; 4.3.1 Excitons; 4.3.2 Excitation Energy Transfer
327   $a4.3.3 Homogeneous and In homogeneous Broadening, Zero-Phonon Lines (ZPLs), and Phonon Sidebands (PSBs)
330   $aComprehensive and accessible coverage of the whole of modern photonics Emphasizes processes and applications that specifically exploit photon attributes of light Deals with the rapidly advancing area of modern optics
410  2$aA Wiley-Science Wise Co-Publication
606   $aPhotonics
606   $aSpectrum analysis
606   $aMicroscopy
615  0$aPhotonics.
615  0$aSpectrum analysis.
615  0$aMicroscopy.
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702   $aAndrews$b David L.
702   $aAabo$b Thomas
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