1  70
 Sinha, Dhiraj, author.
 Second edition  Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2022]
 Description
 Book — 1 online resource (various pagings) : illustrations (some color)
 Summary

 1. Introduction
 2. Symmetries and conservation theorems
 2.1. Symmetry : a brief historical introduction
 2.2. Symmetry in science
 2.3. Symmetries in dynamic systems
 2.4. From symmetry to gauge theory
 2.5. Conclusion
 3. Spontaneous symmetry breaking
 3.1. Symmetry breaking
 3.2. Historical overview and early evolution
 3.3. Symmetry breaking in particle physics
 3.4. Condensed matter, superfluidity and BoseEinstein condensate
 3.5. Spontaneously broken global symmetry
 3.6. Higgs mechanism
 4. Explicit symmetry breaking and electromagnetic radiation
 4.1. Explicit symmetry breaking of electrodynamic systems
 4.2. Electromagnetic radiation under nonconserved Noether current
 4.3. Explicit symmetry breaking and free electron lasers
 4.4. Electromagnetic radiation under explicit symmetry breaking of filter circuits
 5. Symmetry breaking in transformation of force fields
 5.1. Introduction
 5.2. Broken symmetry in electrodynamic systems, Gauge symmetry and radiation
 5.3. Symmetry breaking and reversibility
 6. Piezoelectric antennas
 7. Radiation from a superconducting loop
 7.1. Superconducting antennas
 7.2. Experimental setup
 7.3. Results
 7.4. Analysis
 8. Broken symmetries in thermodynamics
 8.1. Introduction
 8.2. Entropy changes under potential gradients
 8.3. Entropy production
 8.4. Entropy changes under symmetry breaking
 8.5. Entropy reduction in dissipative systems
 8.6. Conclusion
3. Engineering electrodynamics : a collection of theorems, principles and field representations [2020]
 Janaswamy, Ramakrishna, 1958 author.
 Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2020]
 Description
 Book — 1 online resource (various pagings) : illustrations (some color)
 Summary

 1. Maxwell's equations, potentials, and boundary conditions
 1.1. The timedomain Maxwell's equations
 1.2. Frequency domain Maxwell's equations
 1.3. Field determination by radial components
 2. Electrostatics and magnetostatics
 2.1. Energy related theorems in electrostatics
 2.2. Principle of virtual displacement for static fields
 2.3. Theorems related to harmonic functions
 3. Gauge invariance for electromagnetic fields
 3.1. Gauge invariance for general material media
 3.2. Gauge invariance in homogenized media
 4. Causality and dispersion
 4.1. Causal systems
 4.2. Dispersive systems
 4.3. Causal properties of scattering amplitude
 5. Uniqueness, energy, and momentum
 5.1. Uniqueness theorem
 5.2. Energy and momentum
 6. Duality principle and Babinet's principle
 6.1. Duality principle and Babinet's principle
 7. Electromagnetic reciprocity
 7.1. Reciprocity theorems in the frequency and time domains
 7.2. Compensation theorem
 8. Reactance theorems
 8.1. Reactance theorems for networks and antennas
 9. Geometrical optics and Fermat's principle
 9.1. Geometrical optics and Fermat's principle
 9.2. Gradient metasurfaces and the generalized Snell's law
 10. Integral field representations
 10.1. Integral representation of fields
 10.2. Integral equations, physical optics, and Bojarski's identity
 11. Induction theorem and optical theorem
 11.1. Induction and forward scattering theorems
 12. Eigenfunctions, Green's functions, and completeness
 12.1. Hilbert space
 12.2. SturmLiouville problem and Green's functions
 12.3. Classification of operators and their properties
 12.4. Sum of two commutative operators
 13. Electromagnetic degrees of freedom
 13.1. DoF between communicating volumes in free space
 13.2. Antenna gain limitations due to finite DoF
 14. Projection slice theorem and computed tomography
 14.1. Radon transform and projection slice theorem
 14.2. Computed tomography
 15. Freespace Green's function and its application in various coordinates
 15.1. Various forms of the freespace Green's function
 15.2. Canonical problems in various coordinate systems
 16. Asymptotic analysis
 16.1. Branch cuts for wave propagation
 16.2. Complex waves
 16.3. Asymptotic evaluation of integrals
 16.4. Examples in wave propagation
 16.5. Modified saddle point technique
 17. Covariant formulation of Maxwell's equations
 17.1. Preliminaries of tensor calculus
 17.2. The covariant form of Maxwell's equations in Euclidean pseudospace
 17.3. Maxwell's equations in an arbitrary spacetime
 17.4. Covariant form of Maxwell's equations in stationary matter
 17.5. Transformational electromagnetics
 18. Maxwell's equations in the sense of distributions
 18.1. Preliminaries of distributions
 18.2. Derivation of boundary conditions using distributions
 19. Stochastic representations of wave phenomena
 19.1. Preliminaries of stochastic calculus
 19.2. Stochastic processes and Brownian motion
 19.3. Itô integral and ItôDoeblin formula
 19.4. Solution of PDEs by stochastic technique, FeynmanKac formulas
 Allen, J. B., 1942 author.
 Cham, Switzerland : Springer, [2020]
 Description
 Book — 1 online resource
 Summary

 Introduction
 Number Systems
 Algebraic Equations
 Scalar Calculus
 Vector Calculus.
 International Conference on the Application of Accelerators in Research and Industry (25th : 2018 : Grapevine, Texas)
 [Melville, New York] : AIP Publishing LLC, 2019.
 Description
 Book — 1 online resource : illustrations (some color). Digital: text file; PDF.
 International Conference on Mechanics, Materials and Structural Engineering (3rd : 2018 : Okinawa, Japan)
 [Melville, New York] : AIP Publishing LLC, 2018.
 Description
 Book — 1 online resource : illustrations (some color). Digital: text file.
 Senthilkumaran, Paramasivam, author.
 Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2018]
 Description
 Book — 1 online resource (various pagings) : illustrations (some color)
 Summary

 1. Introduction
 1.1. Singularity
 1.2. Singularities in science and engineering
 1.3. Acoustic vortex
 1.4. Singularities in optics
 1.5. Amplitude, phase and polarization
 1.6. Brief historical account of optical phase singularities
 2. Topological features
 2.1. Introduction
 2.2. Wavefront shape
 2.3. Amplitude and phase distribution of an optical vortex beam
 2.4. Topological charge
 2.5. Phase contours and zero crossings
 2.6. Phase gradients of an optical vortex beam
 2.7. Critical points
 2.8. Zero crossings and bifurcation lines
 2.9. Charge, order and index
 2.10. Sign rules
 2.11. Disintegrations or explosions
 2.12. Charge conservation
 2.13. Index conservation
 2.14. Limitation on vortex density
 2.15. Threads of darkness
 2.16. Berry's paradox
 2.17. Manifolds and trajectories
 2.18. Links and knots
 2.19. Different types of phase defects
 3. Generation and detection methods
 3.1. Introduction
 3.2. Generation
 3.3. Detection
 4. Propagation characteristics
 4.1. Introduction
 4.2. Wave equations and solutions
 4.3. Slowly varying envelope approximationparaxial Helmholtz equation
 4.4. Gouy phase
 4.5. Divergence of singular beams
 4.6. Near core vortex structure and propagation
 4.7. Propagation dynamics of optical phase singularities
 4.8. Propagation of vortices in nonlinear media
 5. Internal energy flows
 5.1. Energy flow
 5.2. Internal energy flows
 5.3. Visualizing internal energy flow
 5.4. Focusing of singular beamseffect of aberrations
 5.5. Experimental detection
 5.6. Energy circulations in diffraction patterns
 6. Vortices in computational optics
 6.1. Introduction
 6.2. Diffused illumination in holography
 6.3. Synthesized diffusers
 6.4. Phase synthesis in computer generated holograms
 6.5. Stagnation problem in IFTA
 6.6. Solution to the speckle problem
 6.7. Phase unwrapping in the presence of vortices
 6.8. NonBryngdahl transforms using branch points
 6.9. Diffraction of singular beams
 6.10. Phase retrieval
 7. Angular momentum of light
 7.1. Introduction
 7.2. Linear momentum
 7.3. Angular momentum
 7.4. Orbital and spin angular momentum of light
 7.5. Intrinsic and extrinsic angular momenta
 8. Applications
 8.1. Metrology
 8.2. Collimation testing
 8.3. Spiral interferometry
 8.4. Spatial filtering
 8.5. Focal plane intensity manipulation
 8.6. STED microscopy
 8.7. Optical trapping and tweezers
 8.8. Optically driven micromotors
 8.9. Communications
 8.10. Phase retrieval methods
 9. Polarization singularities
 9.1. Polarization of light
 9.2. Stokes parameters and Poincare sphere representation
 9.3. Stokes fields
 9.4. Ellipse field singularities
 9.5. Vector field singularities
 9.6. Stokes phase
 9.7. Topological features of polarization singularities
 9.8. Angular momentum in polarization singularities
 9.9. Generation
 9.10. Detection
 9.11. Inversion and conversion methods
 9.12. Polarization singularity distributions
 9.13. Applications
 IEEE International Conference on Science Technology Engineering and Management (2nd : 2016 : Chennai, India)
 [Piscataway, New Jersey] : [IEEE], [2016?]
 Description
 Book — 1 online resource (various pagings) : illustrations
 Summary

Annotation The scope of this International Conference is to bring together researches, academicians, industrialists and students from a wide range of disciplines This will endow with a benevolent opportunity of extensive platform to explore and impart intensive pioneer ideas to the world. The technical program of the conference will include tutorials, key note address, contributed paper presentations and Posters Experts in the field from India and around the globe are expected to attend the conference. Business and Management researchers are increasingly being encouraged to develop new and innovative ways of investigating, understanding and theorizing the practice and performance of management within a fast moving and challenging global environment Innovative management leads to exceptional business performance at the core of economic and social development.
9. Nuclearpumped lasers [2016]
 Prelas, Mark A., 1953 author.
 Cham : Springer, [2016]
 Description
 Book — 1 online resource (xiv, 417 pages : 265 illustrations, 93 illustrations in color Digital: text file.PDF.
 Summary

 1 Introduction to NuclearPumped Lasers 2 Radiation Interaction With Matter 3 Direct Energy Conversion Principles as Applied to Lasers 4 NuclearPumped Lasers 5 Reactor and Laser Coupling 6 Applications
 Appendix 1: Neutron Cross Sections from Neutron Resonance Parameters and Thermal Cross Sections
 Appendix 2: Plasma Basics
 Appendix 3: Maxwell Boltzmann Distribution Function
 Appendix 4: Thermal Neutron Cross Sections for Some Elements and Compounds (from Reactor Physics Constants ANL 5800 1963 for 2200 m/s Neutron Speed.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Hanson, Ronald K., author.
 Heidelberg : Springer, 2016.
 Description
 Book — 1 online resource (xxv, 279 pages) : illustrations (some color) Digital: text file.PDF.
 Summary

 Introduction. Diatomic Molecular Spectra. Bond Dissociation Energies. Polyatomic Molecular Spectra. Effects of Nuclear Spin. Rayleigh & Raman Spectra. Quantitative Emission and Absorption. Spectral Lineshapes. Electronic Spectra of Atoms. Electronic Spectra of Diatomics. LaserInduced Fluorescence. Diagnostic Techniques. Spectroscopy Equipment. Case Studies. Glossary. Voigt Tables. Voigt Fitting Program. HITRAN Database. Center of Symmetry. Fluorescence Yield: Multilevel Models.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
11. New horizons in nanoscience and engineering [2015]
 Bellingham, Washington (1000 20th St. Bellingham WA 982256705 USA) : SPIE, 2015.
 Description
 Book — 1 online resource (xxvi, 446 pages) : illustrations.
 Summary

 Increasing the density and functionality of photonic integration with nanowaveguides and nanostructures / Sailing He, Tuo Chen, Li Jiang, Qiangsheng Huang, and Jiao Lin
 Silicon microresonators: how to give a new twist to silicon photonics / Massimo Borghi, Davide Gandolfi, Mher Ghulinyan, Romain Guider, Mattia Mancinelli, Georg Pucker, Fernando RamiroManzano, Fabio Turri, and Lorenzo Pavesi
 Twophoton 3D microfabrication of polymeric, organic, and inorganic materials / Prem Prabhakaran, Ran Hee Kim, and KwangSup Lee
 Noncovalent interactions in polymer nanocomposites / A. Douglas Winter, Eduardo Larous, Cherno Jaye, Conan Weiland, Edward Principe, Mária Omastová, Daniel A. Fischer, and Eva M. Campo
 Molecular engineering for solar energy conversion and lighting materials / Filippo Monti and Nicola Armaroli
 The material genome for organic electrooptics and silicon/plasmonicorganic hybrid technology / Philip A. Sullivan and Larry R. Dalton
 Biologybased nanomaterials for photonic applications: Biotronics / Fahima Ouchen, Donna M. Joyce, Emily M. Heckman, Carrie M. Bartsch, Roberto S. Aga, Jr., Jack P. Lombard III, Saima Husaini, Robert G. Bedford, Emily M. Fehrman Cory, Steve S. Kim, Rajesh R. Naik, Perry P. Yaney, Ileanu Rau, Francois Kajzar, Guru Subramanyam, Adrienne D. Williams, and James Grote
 Biologybased nanomaterials for electronic applications: biotronics / Fahima Ouchen, Donna M. Joyce, Emily M. Heckman, Carrie M. Bartsch, Roberto S. Aga, Jr., Jack P. Lombard III, Saima Husaini, Robert G. Bedford, Emily M. Fehrman Cory, Steve S. Kim, Rajesh R. Naik, Perry P. Yaney, Ileanu Rau, Francois Kajzar, Guru Subramanyam, Adrienne D. Williams, and James Grote
 Organic materialssilk fibroin synergies: a chemical point of view / Manuela Melucci and Roberto Zamboni
 Index.
(source: Nielsen Book Data)
12. The PionNucleon System [2015]
 Bransden, B. H., author.
 Princeton, N.J. : Princeton University Press, [2015]
 Description
 Book — 1 online resource(552 p.) : illustrations. Digital: text file; PDF.
 Summary

 Frontmatter
 PREFACE
 CONTENTS
 A NOTE ON UNITS AND CONVENTIONS
 CHAPTER 1. INTRODUCTION
 CHAPTER 2. LOW ENERGY PION SCATTERING BY NUCLEONS AND THE PHOTOPRODUCTION OF PIONS
 CHAPTER 3. FORWARD AND FIXED MOMENTUM TRANSFER DISPERSION RELATIONS
 CHAPTER 4. ANALYTIC PROPERTIES OF SCATTERING AMPLITUDES
 CHAPTER 5. FORMATION OF NUCLEON RESONANCES
 CHAPTER 6. SYMMETRIES AND CLASSIFICATION OF PARTICLES AND RESONANCES
 CHAPTER 7. CURRENT ALGEBRA AND SUM RULES
 CHAPTER 8. SCATTERING AT HIGHER ENERGIES
 CHAPTER 9. PIONNUCLEON DYNAMICS
 CHAPTER 10. PIONNUCLEON INELASTIC SCATTERING
 CHAPTER 11. THE FORM FACTORS OF THE NUCLEON AND PION
 APPENDIX A
 APPENDIX B
 AUTHOR INDEX
 SUBJECT INDEX.
13. Scientific Foundations of Engineering [2015]
 McKnight, Stephen, author.
 Cambridge : Cambridge University Press, 2015.
 Description
 Book — 1 online resource (398 pages) : digital, PDF file(s).
 Summary

 1. Kinematics and vectors
 2. Newton's laws, energy, and momentum
 3. Rotational motion
 4. Rotation matrices
 5. Material properties  elasticity
 6. Harmonic oscillators
 7. Waves
 8. The quantum puzzle
 9. Quantum mechanics
 10. Quantum electrons
 11. Quantum electrons in solids
 12. Thermal physics
 13. Quantum statistics
 14. Electromagnetic phenomena
 15. Fluids.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
14. COMSOL for engineers [2014]
 Tabatabaian, Mehrzad.
 Dulles, VA : Mercury Learning and Information, ©2014.
 Description
 Book — 1 online resource
 Summary

 Cover page; Half title; LICENSE, DISCLAIMER OF LIABILITY, AND LIMITED WARRANTY; Title Page; Copyright; Dedication; CONTENTS; Preface;
 Chapter 1: Introduction;
 Chapter 2: Finite Element MethodA Summary; Overview; FEM Formulation; Matrix Approach; Example 2.1: Analysis of a 2D Truss; General Procedure for Global Matrix Assembly; Example 2.2: Global Matrix for Triangular Elements; Weighted Residual Approach; Galerkin Method; Shape Functions; Convergence and Stability; Example2.3: Heat Transfer in a Slender Steel Bar; Exercise Problems; References;
 Chapter 3: COMSOLA Modeling Tool for Engineers.
 OverviewCOMSOL Interface; COMSOL Modules; COMSOL Model Library and Tutorials; General Guidelines for Building a Model;
 Chapter 4: COMSOL Models for Physical Systems; Overview; Section 4.1: Static and Dynamic Analysis of Structures; Example 4.1: Stress Analysis for a Thin Plate Under Stationary Loads; Example 4.2: Dynamic Analysis for a Thin Plate: Eigenvalues and Modal Shapes; Example 4.3: Parametric Study for a Bracket Assembly: 3D Stress Analysis; Example 4.4: Buckling of a Column with Triangular Crosssection: Linearized Buckling Analysis.
 Example 4
 .5: Static and Dynamic Analysis for a 2D Bridgesupport TrussExample 4
 .6: Static and Dynamic Analysis for a 3D Truss Tower; Section 4
 .2: Dynamic Analysis and Models of Internal Flows: Laminar and Turbulent; Example 4
 .7: Axisymmetric Flow in a Nozzle: Simplified Waterjet; Example 4
 .8: Swirl Flow Around a Rotating Disk: Laminar Flow; Example 4
 .9: Swirl Flow Around a Rotating Disk: Turbulent Flow; Example 4
 .10: Flow in a Ushape Pipe with Square Crosssectional Area: Laminar Flow; Example 4
 .11: Doubledriven Cavity Flow: Moving Boundary Conditions.
 Example 4
 .12: Water Hammer Model: Transient Flow AnalysisExample 4
 .13: Static Fluid Mixer Model; Section 4
 .3: Modeling of Steady and Unsteady Heat Transfer in Media; Example 4
 .14: Heat Transfer in a Multilayer Sphere; Example 4
 .15: Heat Transfer in a Hexagonal Fin; Example 4
 .16: Transient Heat Transfer Through a Nonprismatic Fin with Convective Cooling; Example 4
 .17: Heat Conduction Through a Multilayer Wall with Contact Resistance; Section 4
 .4: Modeling of Electrical Circuits; Example 4
 .18: Modeling an RC Electrical Circuit; Example 4
 .19: Modeling an RLC Electrical Circuit.
 Section 4
 .5: Modeling Complex and Multiphysics ProblemsExample 4
 .20: Stress Analysis for an Orthotropic Thin Plate; Example 4
 .21: Thermal Stress Analysis and Transient Response of a Bracket; Example 4
 .22: Static Fluid Mixer with Flexible Baffles; Example 4
 .23: Double Pendulum: Multibody Dynamics; Example 4
 .24: Multiphysics Model for Thermoelectric Modules; Example 4
 .25: Acoustic Pressure Wave Propagation in an Automotive Muffler; Exercise Problems; References; Suggested Further Readings; Trademark References; Index.
15. COMSOL for engineers [2014]
 Tabatabaian, Mehrzad.
 Dulles, VA : Mercury Learning and Information, ©2014.
 Description
 Book — 1 online resource
 Summary

 1: Introduction.
 2: Finite Element Method (FEM)A Summary.
 3: COMSOL  A Modeling Tool For Engineers.
 4: Modeling SinglePhysics Problems.
 5: Modeling MultiPhysics Problems.
 6: Modeling Energy Systems With COMSOL.
 7: Advanced Features Of COMSOL.
 Appendices.
 Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Online
 International Conference on the Application of Accelerators in Research and Industry (22nd : 2012 : Fort Worth, Tex.)
 Melville, N.Y. : AIP Publishing, 2013.
 Description
 Book — 1 online resource (xvii, 762 p.) : ill. (some col.).
17. Boiling heat transfer in dilute emulsions [2013]
 Roesle, Matthew Lind.
 New York ; London : Springer, ©2013.
 Description
 Book — 1 online resource Digital: PDF.text file.
 Summary

 Introduction
 Status of the Field
 Boiling of a Single Droplet
 A Model of Boiling in Emulsions
 Measurement of Heat Transfer Coefficients in a Boiling Emulsion
 Simulation of Boiling in a Dilute Emulsion
 Closure.
 Machine generated contents note: 1. Introduction
 1.1. Introduction
 References
 2. Status of the Field
 2.1. MetaStable Liquid and Spontaneous Nucleation
 2.2. Continuum Models of Multiphase Flow
 2.3. Boiling in Emulsions
 2.4. Boiling in Dilute Emulsions
 References
 3. Boiling of a Single Droplet
 3.1. Prior Work
 3.2. Boiling Model
 3.3. Solution
 3.4. Results
 References
 4. Model of Boiling in Emulsions
 4.1. Balance Equations
 4.2. Closure Equations: Momentum, Mass, and Energy
 4.2.1. Momentum Transfer
 4.2.2. Mass Transfer in Chain Boiling
 4.2.3. Mass Transfer in Boiling by Contact with Heated Surfaces
 4.2.4. Mass Transfer in Boiling by BubbleDroplet Collisions
 4.2.5. Mass Transfer in Spontaneous Nucleation
 4.2.6. Mass Transfer in Condensation
 4.2.7. PseudoTurbulent Effects: μT and μT
 4.2.8. Effective Viscosity
 4.2.9. Effective Thermal Conductivity
 4.3. Numerical Model and Solution
 4.3.1. Momentum Equations
 4.3.2. Phase Continuity Equations
 4.3.3. Internal Energy and Phase Change Equations
 4.3.4. Solution Procedure
 4.4. Drag at High Dispersed Phase Volume Fraction
 References
 5. Measurement of Heat Transfer Coefficients in a Boiling Emulsion
 5.1. Experimental Design and Procedure
 5.2. Measured Heat Transfer Coefficients
 5.2.1. Water
 5.2.2. FC72 in Water Emulsions
 5.2.3. Pentane in Water Emulsions
 5.3. Visualization
 5.3.1. Boiling of Water
 5.3.2. Boiling of 0.1 % FC72 in Water Emulsion
 5.3.3. Boiling of 0.2 % FC72 in Water Emulsion
 5.3.4. Boiling of 0.1 % Pentane in Water Emulsion
 5.3.5. Boiling of 0.2 % Pentane in Water Emulsion
 5.4. General Observations on Heat Transfer
 5.4.1. Single Phase Heat Transfer in Emulsions
 5.4.2. Boiling of the Continuous Component Versus Dispersed Component Boiling
 5.4.3. Surface Temperature Overshoot
 5.4.4. Attached Bubbles
 5.4.5. Pressure Jump Due to Interfacial Tension
 5.4.6. Comparison to Earlier Experiments
 References
 6. Simulation of Boiling in a Dilute Emulsion
 6.1. Water
 6.2. FC72 in Water Emulsions
 6.3. PseudoTurbulent Effects
 6.4. Collision Efficiency
 6.5. Interfacial Force Scaling
 References
 7. Closure
 References.
(source: Nielsen Book Data)
 Steinhauser, M. O. (Martin Oliver), author.
 Berlin : Walter de Gruyter GmbH & Co. KG, 2013.
 Description
 Book — 1 online resource (xix, 508 pages) : illustrations
 Summary

 Preface
 1. Introduction to Computer Simulation 1.1 Historical Background 1.2 Theory, Modeling and Simulation in Physics 1.3 Reductionism in Physics 1.4 Basics of Ordinary and Partial Differential Equations in Physics 1.5 Numerical Solution of Differential Equations: MeshBased vs. Particle Methods 1.6 The Role of Algorithms in Scientific Computing 1.7 Remarks on Software Design 1.8 Summary
 2. Fundamentals of Statistical Physics 2.1 Introduction 2.2 Elementary Statistics 2.3 Introduction to Classical Statistical Mechanics 2.4 Introduction to Thermodynamics 2.5 Summary
 3. Inter and Intramolecular ShortRange Potentials 3.1 Introduction 3.2 Quantum Mechanical Basis of Intermolecular Interactions 3.2.1 Perturbation Theory 3.3 Classical Theories of Intermolecular Interactions 3.4 Potential Functions 3.5 Molecular Systems 3.6 Summary
 4. Molecular Dynamics Simulation 4.1 Introduction 4.2 Basic Ideas of MD 4.3 Algorithms for Calculating Trajectories 4.4 Link between MD and Quantum Mechanics 4.5 Basic MD Algorithm: Implementation Details 4.6 Boundary Conditions 4.7 The Cutoff Radius for ShortRange Potentials 4.8 Neighbor Lists: The LinkedCell Algorithm 4.9 The Method of Ghost Particles 4.10 Implementation Details of the Ghost Particle Method 4.11 Making Measurements 4.12 Ensembles and Thermostats 4.13 Case Study: Impact of Two Different Bodies 4.14 Case Study: RayleighTaylor Instability 4.15 Case Study: LiquidSolid Phase Transition of Argon
 5. Advanced MD Simulation 5.1 Introduction 5.2 Parallelization 5.3 More Complex Potentials and Molecules 5.4 Many Body Potentials 5.5 Coarse Grained MD for Mesoscopic Systems
 6. Outlook on Monte Carlo Simulations 6.1 Introduction 6.2 The Metropolis MonteCarlo Method 6.2.1 Calculation of Volumina and Surfaces 6.2.2 Percolation Theory 6.3 Basic MC Algorithm: Implementation Details 6.3.1 Case Study: The 2D Ising Magnet 6.3.2 Trial Moves and Pivot Moves 6.3.3 Case Study: Combined MD and MC for Equilibrating a Gaussian Chain 6.3.4 Case Study: MC of Hard Disks 6.3.5 Case Study: MC of Hard Disk Dumbbells in 2D 6.3.6 Case Study: Equation of State for the LennardJones Fluid 6.4 Rosenbluth and Rosenbluth Method 6.5 Bond Fluctuation Model 6.6 Monte Carlo Simulations in Different Ensembles 6.7 Random Numbers Are Hard to Find
 7. Applications from Soft Matter and Shock Wave Physics 7.1 Biomembranes 7.2 Scaling Properties of Polymers 7.3 Polymer Melts 7.4 Polymer Networks as a Model for the Cytoskeleton of Cells 7.5 Shock Wave Impact in Brittle Solids
 8. Concluding Remarks A Appendix A.1 Quantum Statistics of Ideal Gases A.2 MaxwellBoltzmann, BoseEinstein and FermiDirac Statistics A.3 Stirling's Formula A.4 Useful Integrals in Statistical Physics A.3 Useful Conventions for Implementing Simulation Programs A.4 Quicksort and Heapsort Algorithms A.4 Selected Solutions to Exercises Abbreviations Bibliography Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Online
 Steinhauser, M. O. (Martin Oliver), author.
 Berlin : Walter de Gruyter GmbH & Co. KG, 2013.
 Description
 Book — 1 online resource (xix, 508 pages) : illustrations
 Summary

 Preface
 1. Introduction to Computer Simulation 1.1 Historical Background 1.2 Theory, Modeling and Simulation in Physics 1.3 Reductionism in Physics 1.4 Basics of Ordinary and Partial Differential Equations in Physics 1.5 Numerical Solution of Differential Equations: MeshBased vs. Particle Methods 1.6 The Role of Algorithms in Scientific Computing 1.7 Remarks on Software Design 1.8 Summary
 2. Fundamentals of Statistical Physics 2.1 Introduction 2.2 Elementary Statistics 2.3 Introduction to Classical Statistical Mechanics 2.4 Introduction to Thermodynamics 2.5 Summary
 3. Inter and Intramolecular ShortRange Potentials 3.1 Introduction 3.2 Quantum Mechanical Basis of Intermolecular Interactions 3.2.1 Perturbation Theory 3.3 Classical Theories of Intermolecular Interactions 3.4 Potential Functions 3.5 Molecular Systems 3.6 Summary
 4. Molecular Dynamics Simulation 4.1 Introduction 4.2 Basic Ideas of MD 4.3 Algorithms for Calculating Trajectories 4.4 Link between MD and Quantum Mechanics 4.5 Basic MD Algorithm: Implementation Details 4.6 Boundary Conditions 4.7 The Cutoff Radius for ShortRange Potentials 4.8 Neighbor Lists: The LinkedCell Algorithm 4.9 The Method of Ghost Particles 4.10 Implementation Details of the Ghost Particle Method 4.11 Making Measurements 4.12 Ensembles and Thermostats 4.13 Case Study: Impact of Two Different Bodies 4.14 Case Study: RayleighTaylor Instability 4.15 Case Study: LiquidSolid Phase Transition of Argon
 5. Advanced MD Simulation 5.1 Introduction 5.2 Parallelization 5.3 More Complex Potentials and Molecules 5.4 Many Body Potentials 5.5 Coarse Grained MD for Mesoscopic Systems
 6. Outlook on Monte Carlo Simulations 6.1 Introduction 6.2 The Metropolis MonteCarlo Method 6.2.1 Calculation of Volumina and Surfaces 6.2.2 Percolation Theory 6.3 Basic MC Algorithm: Implementation Details 6.3.1 Case Study: The 2D Ising Magnet 6.3.2 Trial Moves and Pivot Moves 6.3.3 Case Study: Combined MD and MC for Equilibrating a Gaussian Chain 6.3.4 Case Study: MC of Hard Disks 6.3.5 Case Study: MC of Hard Disk Dumbbells in 2D 6.3.6 Case Study: Equation of State for the LennardJones Fluid 6.4 Rosenbluth and Rosenbluth Method 6.5 Bond Fluctuation Model 6.6 Monte Carlo Simulations in Different Ensembles 6.7 Random Numbers Are Hard to Find
 7. Applications from Soft Matter and Shock Wave Physics 7.1 Biomembranes 7.2 Scaling Properties of Polymers 7.3 Polymer Melts 7.4 Polymer Networks as a Model for the Cytoskeleton of Cells 7.5 Shock Wave Impact in Brittle Solids
 8. Concluding Remarks A Appendix A.1 Quantum Statistics of Ideal Gases A.2 MaxwellBoltzmann, BoseEinstein and FermiDirac Statistics A.3 Stirling's Formula A.4 Useful Integrals in Statistical Physics A.3 Useful Conventions for Implementing Simulation Programs A.4 Quicksort and Heapsort Algorithms A.4 Selected Solutions to Exercises Abbreviations Bibliography Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
20. Engineering physics [2013]
 Naidu, S. Mani Dr.
 New Delhi : Dorling Kindersley (India), ©2013.
 Description
 Book — 1 online resource (1 volume) : illustrations
 Ohtsubo, J. (Junji)
 3rd ed.  Heidelberg ; New York : Springer, 2013.
 Description
 Book — 1 online resource Digital: text file.PDF.
 Summary

 Chaos in Laser Systems
 Semiconductor Lasers and Theory
 Theory of Optical Feedback in Semiconductor Lasers
 Dynamics of Semiconductor Lasers with Optical Feedback
 Dynamics in Semiconductor Lasers with Optical Injection
 Dynamics of Semiconductor Lasers with Optoelectronic Feedback and Modulation
 Instability and Chaos in Various Laser Structures
 Chaos Control and Applications
 Stabilization of Semiconductor Lasers
 Metrology Based on Chaotic Semiconductor Lasers
 Chaos Synchronization in Semiconductor Lasers
 Chaotic Communications in Semiconductor Lasers
 Physical Random Number Generations and Photonic Integrated Circuits for Chaotic Generators.
(source: Nielsen Book Data)
22. Toward quantum FinFET [2013]
 Cham : Springer, 2013.
 Description
 Book — 1 online resource (xi, 363 pages) : illustrations (some color) Digital: text file; PDF.
 Summary

 Preface
 Contents
 Contributors
 Chapter 1: Simulation of Quantum Ballistic Transport in FinFETs
 1.1 Introduction
 1.2 Quantum Effects in FinFETs
 1.2.1 Quantum Confinement
 1.2.2 QuantumMechanical Tunneling
 1.2.3 Ballistic Transport and Quantum Interference
 1.3 SelfConsistent Field Method
 1.4 The NEGF in RealSpace Representation
 1.5 Computationally Efficient Methods in the Real Space
 1.5.1 The Recursive GreenÂ?s Function Algorithm
 1.5.2 The Contact Block Reduction Method
 1.5.3 The Gauss Elimination Method
 1.5.4 Computational Efficiency Comparison1.6 The NEGF in ModeSpace Representation
 1.6.1 Coupled ModeSpace Approach
 1.6.2 PartialCoupled ModeSpace Approach
 1.6.3 Validation of the PCMS Approach
 1.7 Conclusion
 References
 Chapter 2: Model for Quantum Confinement in Nanowires and the Application of This Model to the Study of Carrier Mobility in Na ...
 2.1 Introduction
 2.2 Surface Energy
 2.3 Thermodynamic Imbalance
 2.4 Nanowire Surface Disorder
 2.5 Quantum Confinement
 2.6 Energy Band Gap as Function of Nanowire Diameter
 2.7 Formula for Amorphicity2.8 Models for Carrier Scattering
 2.9 Calculated Carrier Mobility
 2.10 Conclusions
 References
 Chapter 3: Understanding the FinFET Mobility by Systematic Experiments
 3.1 Introduction
 3.2 Impact of Surface Orientation
 3.3 Impact of Strain
 3.4 Impact of Fin Doping
 3.5 Impact of Gate Stack
 3.6 Conclusion
 References
 Chapter 4: Quantum Mechanical Potential Modeling of FinFET
 4.1 Introduction
 4.2 FinFET Structure
 4.2.1 FinFET Design Parameters
 4.3 Quantum Mechanical Potential Modeling
 4.4 Threshold Voltage Modeling4.5 Source/Drain Resistance Modeling
 4.6 Results and Discussion
 4.7 Conclusion
 References
 Chapter 5: Physical Insight and Correlation Analysis of Finshape Fluctuations and WorkFunction Variability in FinFET Devices
 5.1 Introduction
 5.2 Modeling Approach
 5.2.1 LER Modeling
 5.2.2 WFV Modeling
 5.3 Statistical Analysis of LER and WFVInduced Fluctuations
 5.4 CorrelationBased Approaches for Variability Estimation
 5.4.1 Correlations and Sensitivity Analysis
 5.4.2 Simplified Approaches for Variability Estimation5.4.2.1 Threshold Voltage Variability
 5.4.2.2 Drive Current Variability
 5.4.3 Physical Insight of Fin LERInduced Threshold Voltage Increase
 5.5 Asymmetric Impact of Localized Fluctuations
 5.5.1 Impact of Local Fin Thinning
 5.5.2 Impact of Grain Location and Size
 5.6 Conclusions
 References
 Chapter 6: Characteristic and Fluctuation of Multifin FinFETs
 6.1 Introduction
 6.1.1 Random Dopant Fluctuation
 6.1.2 Reduction Techniques of Random Dopant Fluctuation
(source: Nielsen Book Data)
 Steinhauser, M. O. (Martin Oliver)
 Berlin : Walter de Gruyter, [2012]
 Description
 Book — 1 online resource (xix, 508 pages) : illustrations.
 Summary

 Preface
 1. Introduction to Computer Simulation 1.1 Historical Background 1.2 Theory, Modeling and Simulation in Physics 1.3 Reductionism in Physics 1.4 Basics of Ordinary and Partial Differential Equations in Physics 1.5 Numerical Solution of Differential Equations: MeshBased vs. Particle Methods 1.6 The Role of Algorithms in Scientific Computing 1.7 Remarks on Software Design 1.8 Summary
 2. Fundamentals of Statistical Physics 2.1 Introduction 2.2 Elementary Statistics 2.3 Introduction to Classical Statistical Mechanics 2.4 Introduction to Thermodynamics 2.5 Summary
 3. Inter and Intramolecular ShortRange Potentials 3.1 Introduction 3.2 Quantum Mechanical Basis of Intermolecular Interactions 3.2.1 Perturbation Theory 3.3 Classical Theories of Intermolecular Interactions 3.4 Potential Functions 3.5 Molecular Systems 3.6 Summary
 4. Molecular Dynamics Simulation 4.1 Introduction 4.2 Basic Ideas of MD 4.3 Algorithms for Calculating Trajectories 4.4 Link between MD and Quantum Mechanics 4.5 Basic MD Algorithm: Implementation Details 4.6 Boundary Conditions 4.7 The Cutoff Radius for ShortRange Potentials 4.8 Neighbor Lists: The LinkedCell Algorithm 4.9 The Method of Ghost Particles 4.10 Implementation Details of the Ghost Particle Method 4.11 Making Measurements 4.12 Ensembles and Thermostats 4.13 Case Study: Impact of Two Different Bodies 4.14 Case Study: RayleighTaylor Instability 4.15 Case Study: LiquidSolid Phase Transition of Argon
 5. Advanced MD Simulation 5.1 Introduction 5.2 Parallelization 5.3 More Complex Potentials and Molecules 5.4 Many Body Potentials 5.5 Coarse Grained MD for Mesoscopic Systems
 6. Outlook on Monte Carlo Simulations 6.1 Introduction 6.2 The Metropolis MonteCarlo Method 6.2.1 Calculation of Volumina and Surfaces 6.2.2 Percolation Theory 6.3 Basic MC Algorithm: Implementation Details 6.3.1 Case Study: The 2D Ising Magnet 6.3.2 Trial Moves and Pivot Moves 6.3.3 Case Study: Combined MD and MC for Equilibrating a Gaussian Chain 6.3.4 Case Study: MC of Hard Disks 6.3.5 Case Study: MC of Hard Disk Dumbbells in 2D 6.3.6 Case Study: Equation of State for the LennardJones Fluid 6.4 Rosenbluth and Rosenbluth Method 6.5 Bond Fluctuation Model 6.6 Monte Carlo Simulations in Different Ensembles 6.7 Random Numbers Are Hard to Find
 7. Applications from Soft Matter and Shock Wave Physics 7.1 Biomembranes 7.2 Scaling Properties of Polymers 7.3 Polymer Melts 7.4 Polymer Networks as a Model for the Cytoskeleton of Cells 7.5 Shock Wave Impact in Brittle Solids
 8. Concluding Remarks A Appendix A.1 Quantum Statistics of Ideal Gases A.2 MaxwellBoltzmann, BoseEinstein and FermiDirac Statistics A.3 Stirling's Formula A.4 Useful Integrals in Statistical Physics A.3 Useful Conventions for Implementing Simulation Programs A.4 Quicksort and Heapsort Algorithms A.4 Selected Solutions to Exercises Abbreviations Bibliography Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
24. High temperature phenomena in shock waves [2012]
 Berlin : Springer, ©2012.
 Description
 Book — 1 online resource (ix, 336 pages) : illustrations (some color) Digital: text file.PDF.
 Summary

 General Introduction / R. Brun
 Thermodynamic Properties of Gases behind Shock Waves / M. Capitelli, D. Bruno, G. Colonna
 Nonequilibrium Kinetics and Transport Properties behind Shock Waves / E.V. Kustova, E.A. Nagnibeda
 Nonequilibrium Kinetics behind Shock Waves Experimental Aspects / L. Ibraguimova, O. Shatalov
 Ionization Phenomena behind Shock Waves / W.M. Huo, M. Panesi, T.E. Magin
 Radiation Phenomena behind Shock Waves / M.Y. Perrin, Ph. Riviére, A. Soufiani
 Structure of Shock Waves / A.A. Raines, F.G. Tcheremissine
 Shock Waves in Hypersonic Rarefied Flows / V. Lago, A. Chpoun, B. Chanetz
 High Enthalpy Nonequilibrium Shock Layer Flows: Selected Practical Applications / S. Karl, J. Martinez Schramm, K. Hannemann.
(source: Nielsen Book Data)
25. Insulation measurement and supervision in live AC and DC unearthed systems [electronic resource] [2012]
 Olszowiec, Piotr.
 Dordrecht : Springer, 2012.
 Description
 Book — 1 online resource (193 p.)
 Summary

 PART I.AC IT SYSTEMS.1. GENERAL CHARACTERISTICS.2. GROUND INSULATION MEASUREMENT IN AC IT SYSTEMS.3. INSULATION MONITORING SYSTEMS.4. CONTINUOUS MEASUREMENT SYSTEMS OF INSULATION RESISTANCE PART II.DC IT SYSTEMS.5. EQUIVALENT CIRCUIT DIAGRAMS OF DC NETWORKS.6. INSULATION RESISTANCE MEASUREMENT METHODS.
 7. DEVICES AND SYSTEMS FOR INSULATION DETERIORATION ALARMING. 8. MODERN METHODS OF CONTINUOUS INSULATION MONITORING.9. EARTH FAULT, LEAKAGE AND ELECTRIC SHOCK CURRENTS IN DC IT SYSTEMS PART III.AC AND DC IT SYSTEMS.10. EFFECTS OF AC AND DC IT SYSTEMS INSULATION FAILURES.11. INSULATION MONITORS SETTINGS SELECTION.12. AC/DC IT SYSTEMS.13. EARTH FAULT LOCATION IN AC AND DC IT SYSTEMS.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Pryor, Roger W.
 Dulles, Va. : Mercury Learning and Information, c2012.
 Description
 Book — xviii, 553 p. : ill ; 24 cm. + 1 DVDROM (4 3/4 in.)
 Summary

 ch. 1.
 Modeling methodology using COMSOL Multiphysics 4.x ch. 2. Materials properties using COMSOL Multiphysics 4.x ch. 3. 0D electrical circuit interface modeling using COMSOL Multiphysics 4.x ch. 4. 1D modeling using COMSOL Multiphysics 4.x ch. 5. 2D modeling using COMSOL Multiphysics 4.x ch. 6. 2D axisymmetric modeling using COMSOL Multiphysics 4.x ch. 7. 2D simple mixed mode modeling using COMSOL Multiphysics 4.x ch. 8. 2D complex mixed mode modeling using COMSOL Multiphysics 4.x ch. 9. 3D modeling using COMSOL Multiphysics 4.x ch. 10. Perfectly matched layer models using COMSOL Multiphysics 4.x ch. 11. Bioheat models using COMSOL Multiphysics 4.x.
 Online
Science Library (Li and Ma)
Science Library (Li and Ma)  Status 

Stacks


QC52 .P7932 2012  Unknown 
 Collins, Andrew.
 Burlington : Elsevier Science, 2012.
 Description
 Book — 1 online resource (321 p.)
 Summary

 Front Cover; Nanotechnology Cookbook: Practical, Reliable and Jargonfree Experimental Procedures; Copyright; Contents; Acknowledgements; Chapter1 Introduction; Chapter2 Safety; General Laboratory Procedure; Personal Safety Equipment; References; Chapter3 Common Analytical Techniques for Nanoscale Materials; Principles of Electron Microscopy; Transmission Electron Microscopy; Sample Preparation for Tem; Scanning Electron Microscopy; Sample Preparation in Sem; Scanning Tunnelling Microscopy; Atomic Force Microscopy; Powder XRay Diffraction; UVVisible Spectroscopy.
 Dynamic Light Scattering and Zeta Potential MeasurementBet Surface Area Measurement; References; Chapter4 Chemical Techniques; The SOLGEL Process; Coating Nanomaterials Using the Sol Gel Method; Using Sol Gel Dip Coating to form Thin Films, Thin Porous Films and Replicas; Replication of Oddly Shaped Morphologies Using Sol Gel Techniques; Mesoporous Inorganic Powders; Aerogels and Supercritical Drying; Applications of Aerogels; Monoliths and Glasses Containing Functional Biological Materials; Growing Zinc Oxide Nanorods; Cadmium Sulfide, Selenide and Telluride Quantum Dots.
 Making Gold and Silver ColloidsFerrofluids; Allotropes of Carbon; Metal Organic Frameworks; References; Chapter5 Physical Techniques; Chemical Vapour Deposition; Atomic Layer Deposition; Photolithography Patterning; Making Wire Tips for Scanning Tunnelling Microscopy; References; Chapter6 Biological Nanotechnology; Cloning and Gene Expression to Produce Proteins in Escherichia Coli; DNA Origami?; Keeping Bacteria Long Term in a Glycerol Stock; Testing the Minimum Inhibitory Concentration of an Antibiotic; References; Index.
(source: Nielsen Book Data)
 Yosibash, Zohar.
 New York, NY : Springer, ©2012.
 Description
 Book — 1 online resource (xxi, 459 pages) : illustrations (some color) Digital: text file.PDF.
 Summary

 Singularities in Elliptic Boundary Value Problems and Elasticity and Their Connection with Failure Initiation; Preface; Contents; List of Main Symbols;
 Chapter 1 Introduction; 1.1 What Is It All About?; 1.2 Principles and Assumptions; 1.3 Layout; 1.4 A Model Problem; 1.4.1 A PathIndependent Integral; 1.4.2 Orthogonality of the ``Primal'' and ``Dual''Eigenfunctions; 1.4.3 Particular Solutions; 1.4.4 Curved Boundaries Intersecting at the Singular Point; 1.5 The Heat Conduction Problem: Notation; 1.6 The Linear Elasticity Problem: Notation.
 Chapter 2 An Introduction to the p and hpVersions of the Finite Element Method2.1 The Weak Formulation; 2.2 Discretization; 2.2.1 Blending Functions, the Element Stiffness Matrix and Element Load Vector; 2.2.2 The Finite Element Space; 2.2.3 Mesh Design for an Optimal Convergence Rate; 2.3 Convergence Rates of FEMs and Their Connection to the Regularity of the Exact Solution; 2.3.1 Algebraic and Exponential Rates of Convergence; 2.3.1.1 Numerical Examples;
 Chapter 3 Eigenpair Computation for TwoDimensional Heat Conduction Singularities; 3.1 Overview of Methods for Computing Eigenpairs.
 3.2 Formulation of the Modified Steklov Eigenproblem3.2.1 Homogeneous Dirichlet Boundary Conditions; 3.2.2 The Modified Steklov Eigenproblemfor the Laplace Equation with Homogeneous Neumann BCs; 3.3 Numerical Solution of the Modified Steklov Weak Eigenproblem by pFEMs; 3.4 Examples on the Performance of the ModifiedSteklov Method; 3.4.1 A Detailed Simple Example; 3.4.2 A Crack with Homogeneous Newton BCs(Laplace Equation); 3.4.3 A VNotch in an Anisotropic Material with Homogeneous Neumann BCs.; 3.4.4 An Internal Singular Point at the Interface of Two Materials.
 3.4.5 An Anisotropic FluxFree Bimaterial Interface
 Chapter 4 GFIFs Computation for TwoDimensional Heat Conduction Problems; 4.1 Computing GFIFs Using the Dual Singular Function Method; 4.2 Computing GFIFs Using the Complementary Weak Form; 4.2.1 Derivation of the Complementary Weak Form; 4.2.2 Using the Complementary Weak Formulation to Extract GFIFs; 4.2.3 Extracting GFIFs Using the Complementary Weak Formulation and Approximated Eigenpairs; 4.3 Numerical Examples: Extracting GFIFs Using the Complementary Weak Form; 4.3.1 Laplace equation with Newton BCs.
 4.3.2 Laplace Equation with Homogeneous Neumann BCs: Approximate eigenpairs4.3.3 Anisotropic Heat Conduction Equation with Newton BCs; 4.3.4 An Internal point at the Interface of Two Materials;
 Chapter 5 Eigenpairs for TwoDimensional Elasticity; 5.1 Asymptotic Solution in the Vicinity of a Reentrant Corner in an Isotropic Material; 5.2 The Particular Case of TF/TF BCs; 5.2.1 A TF/TF Reentrant Corner (VNotch); 5.2.2 A TF/TF Crack; 5.2.3 A TF/TF Crack at a Bimaterial Interface; 5.3 PowerLogarithmic or Logarithmic Singularities with Homogeneous BCs.
29. Thermodynamics [2012]
 Klein, Sanford A., 1950
 Cambridge ; New York : Cambridge University Press, 2012.
 Description
 Book — xxvi, 1072 p. : ill. (some col.) ; 26 cm.
 Summary

 1. Basic concepts
 2. Thermodynamic properties
 3. Energy and energy transport
 4. General application of the first law
 5. The second law of thermodynamics
 6. Entropy
 7. Exergy
 8. Power cycles
 9. Refrigeration and heat pump cycles
 10. Property relations for pure fluids
 11. Mixtures and multicomponent phase equilibrium
 12. Psychometrics
 13. Combustion
 14. Chemical equilibrium
 15. Statistical thermodynamics
 16. Compressible flow.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Online
Science Library (Li and Ma)
Science Library (Li and Ma)  Status 

Stacks  
QC311.15 .K58 2012  Unknown 
30. Transport processes in porous media [2012]
 Coutelieris, Frank A.
 Berlin ; New York : Springer, ©2012.
 Description
 Book — 1 online resource (xii, 236 pages) : illustrations (some color) Digital: text file.PDF.
 Summary

 Fundamentals of Porous Structures
 Flow in Porous Media
 Transport Phenomena in Porous Structures
 Modeling of Transport Processes in Porous Materials
 Experimental Investigation of Transport in Porous Media
 Applications & Examples
 Conclusions & Recommendations.
 International Conference on the Application of Accelerators in Research and Industry (21st : 2010 : Fort Worth, Tex.)
 Melville, N.Y. : American Institute of Physics, 2011.
 Description
 Book — 1 online resource (xviii, 781 p.) : ill. (some col.).
32. Atoms in intense laser fields [2011]
 Joachain, C. J. (Charles Jean)
 Cambridge ; New York : Cambridge University Press, 2011.
 Description
 Book — 1 online resource (xii, 568 pages) : illustrations
 Summary

 Part I. Basic Concepts: 1. Highintensity laseratom physics
 2. Theory of laseratom interactions
 Part II. Theoretical Methods: 3. Perturbation theory
 4. Floquet theory
 5. Numerical integration of the wave equations
 6. The lowfrequency regime
 7. The highfrequency regime
 Part III. Multiphoton Atomic Physics: 8. Multiphoton ionization
 9. Harmonic generation and attosecond pulses
 10. Laserassisted electronatom collisions
 Appendix
 Index.
 (source: Nielsen Book Data)
 6.4.2 Classical electron trajectories
 6.4.3 Extensions of the theory
 6.5 Recollision ionization
 6.6 Nondipole effects
 References
 7 The highfrequency regime
 7.1 Highfrequency Floquet theory
 7.2 Structure of atomic hydrogen in intense, highfrequency laser fields
 7.2.1 The dressed potential classification of states
 7.2.2 Smallα0 limit
 7.2.3 Largeα0 limit
 7.3 Atomic stabilization
 7.3.1 Adiabatic stabilization
 7.3.2 Timedependent studies of stabilization
 7.3.3 Experimental results
 7.3.4 Breakdown of stabilization
 References
 Part III: Multiphoton atomic physics
 8 Multiphoton ionization
 8.1 Multiphoton single ionization
 8.2 Multiphoton double ionization
 8.2.1 Onephoton, double ionization of helium
 8.2.2 Multiphoton double ionization of atoms
 References
 9 Harmonic generation and attosecond pulses
 9.1 Experiments
 9.2 Calculations
 9.2.1 Singleatom response
 9.2.1.1 Basic equations
 9.2.1.2 Perturbative calculations
 9.2.1.3 Nonperturbative calculations
 9.2.2 Propagation in the medium
 9.3 Properties of harmonics and applications
 9.3.1 Conversion efficiency
 9.3.2 Coherence
 9.3.3 Harmonic chirp
 9.3.4 Other properties
 9.3.5 Applications of harmonics
 9.4 Attosecond pulses
 9.4.1 Attosecond pulse trains
 9.4.2 Single attosecond pulses
 9.4.3 Applications of attosecond pulses: attophysics
 References
 10 Laserassisted electronatom collisions
 10.1 Experiments
 10.2 Laserassisted potential scattering
 10.2.1 Basic theory
 10.2.2 Born series
 10.2.3 First Born approximation
 10.2.4 Lowfrequency approximation
 10.2.5 Highfrequency approximation
 10.2.6 Laserassisted Coulomb scattering of electrons
 10.3 Laserassisted collisions of electrons with real atoms.
(source: Nielsen Book Data)
 New York : Springer, 2011.
 Description
 Book — 1 online resource (xi, 381 pages) : illustrations (some color) Digital: text file; PDF.
 Summary

 pt. 1. Antennas and propagation
 pt. 2. Microwave systems
 pt. 3. Communication technology
 pt. 4. Numerical methods for electromagnetic field modeling.
 Reinhardt, Karen A.
 Salem, Mass. ; Scrivener ; Hoboken, N.J. : John Wiley & Sons, Inc., ©2011.
 Description
 Book — 1 online resource (xxii, 590 pages) : illustrations Digital: text file.
 Summary

 Fundamentals. Surface and Colloidal Chemical Aspects of Wet Cleaning / Srini Raghavan, Manish Keswani, Nandini Venkataraman
 The Chemistry of Wet Cleaning / D Martin Knotter
 The Chemistry of Wet Etching / D Martin Knotter
 Surface Phenomena: Rinsing and Drying / Karen A Reinhardt, Richard F Reidy, John A Marsella
 Fundamental Design of Chemical Formulations / Robert J Rovito, Michael B Korzenski, Ping Jiang, Karen A Reinhardt
 Filtering, Recirculating, Reuse, and Recycling of Chemicals / Barry Gotlinsky, Kevin T Pate, Donald C Grant
 Applications. Cleaning Challenges of Highk/Metal Gate Structures / Muhammad M Hussain, Denis Shamiryan, Vasile Paraschiv, Kenichi Sano, Karen A Reinhardt
 High Dose Implant Stripping / Karen A Reinhardt, Michael B Korzenski
 Aluminum Interconnect Cleaning and Drying / David J Maloney
 Lowk/Cu Cleaning and Drying / Karen A Reinhardt, Richard F Reidy, Jerome Daviot
 Corrosion and Passivation of Copper / Darryl W Peters
 Germanium Surface Conditioning and Passivation / Sonja Sioncke, Yves J Chabal, Martin M Frank
 Wafer Reclaim / Michael B Korzenski, Ping Jiang
 Direct Wafer Bonding Surface Conditioning / Hubert Moriceau, Yannick C Le Tiec, Frank Fournel, Ludovic F L Ecarnot, Sebastien L E Kerdil̈s, Daniel Delprat, Christophe Maleville
 New Directions. Novel Analytical Methods for Cleaning Evaluation / Chris M Sparks, Alain C Diebold
 Stripping and Cleaning for Advanced Photolithography Applications / John A Marsella, Dana L Durham, Leslie D Molnar.
 Capper, Peter.
 Hoboken, N.J. : Wiley, 2011.
 Description
 Book — 1 online resource (xxxiii, 556 pages) : illustrations (some color).
 Summary

 Series Preface
 Preface
 Foreword
 List of Contributors
 Part One  Growth
 1 Bulk Growth of Mercury Cadmium Telluride (MCT)
 P. Capper
 1.1 Introduction
 1.2 Phase Equilibria
 1.3 Crystal Growth
 1.4 Conclusions
 References
 2 Bulk growth of CdZnTe/CdTe crystals
 A. Noda, H. Kurita and R. Hirano
 2.1 Introduction
 2.2 Highpurity Cd and Te
 2.3 Crystal Growth
 2.4 Wafer processing
 2.5 Summary
 Acknowledgements
 References
 3 Properties of Cd(Zn)Te (relevant to use as substrates)
 S. Adachi
 3.1 Introduction
 3.2 Structural Properties
 3.3 Thermal Properties
 3.4 Mechanical and Lattice Vibronic Properties
 3.5 Collective Effects and Some Response Characteristics
 3.6 Electronic Energyband Structure
 3.7 Optical Properties
 3.8 Carrier Transport Properties
 References
 4 Substrates for the Epitaxial growth of MCT
 J. Garland and R. Sporken
 4.1 Introduction
 4.2 Substrate Orientation
 4.3 CZT Substrates
 4.4 Sibased Substrates
 4.5 Other Substrates
 4.6 Summary and Comclusions
 References
 5 Liquid phase epitaxy of MCT
 P. Capper
 5.1 Introduction
 5.2 Growth
 5.3 Material Characteristics
 5.4 Device Status
 5.5 Summary and Future Developments
 References
 6 MetalOrganic Vapor Phase Epitaxy (MOVPE) Growth
 C. M. Maxey
 6.1 Requirement for Epitaxy
 6.2 History
 6.3 Substrate Choices
 6.4 Reactor Design
 6.5 Process Parameters
 6.6 Metalorganic Sources
 6.7 Uniformity
 6.8 Reproducibility
 6.9 Doping
 6.10 Defects
 6.11 Annealing
 6.12 Insitu monitoring
 6.13 Conclusions
 References
 7 MBE growth of Mercury Cadmium Telluride
 J. Garland
 7.1 Introduction
 7.2 MBE Growth theory and Growth Modes
 7.3 Substrate Mounting
 7.4 Insitu Characterization Tools
 7.5 MCT Nucleation and Growth
 7.6 Dopants and Dopant Activation
 7.7 Properties of MCT epilayers grown by MBE
 7.8 Conclusions
 References
 Part Two  Properties
 8 Mechanical and Thermal Properties
 M. Martyniuk, J.M. Dell and L. Faraone
 8.1 Density of MCT
 8.2 Lattice Parameter of MCT
 8.3 Coefficient of Thermal Expansion for MCT
 8.4 Elastic Parameters of MCT
 8.5 Hardness and deformation characteristics of HgCdTe
 8.6 Phase Diagrams of MCT
 8.7 Viscosity of the MCT melt
 8.8 Thermal properties of MCT
 References
 9 Optical Properties of MCT
 J. Chu and Y. Chang
 9.1 Introduction
 9.2 Optical Constants and the Dielectric Function
 9.3 Theory of Bandtoband Optical Transition
 9.4 Near Band Gap Absorption
 9.5 Analytic Expressions and Empirical Formulas for Intrinsic Absorption and Urbach Tail
 9.6 Dispersion of the Refractive Index
 9.7 Optical Constants and Related van Hover Singularities above the Energy Gap
 9.8 Reflection Spectra and Dielectric Function
 9.9 Multimode Model of Lattice Vibration
 9.10 Phonon Absorption
 9.11 Raman Scattering
 9.12 Photoluminescence Spectroscopy
 References
 10 Diffusion in MCT
 D. Shaw
 10.1 Introduction
 10.2 SelfDiffusion
 10.3 Chemical SelfDiffusion
 10.4 Compositional Interdiffusion
 10.5 Impurity Diffusion
 References
 11 Defects in HgCdTe  Fundamental
 M. A. Berding
 11.1 Introduction
 11.2 Ab Initio calculations
 11.3 Prediction of Native Point Defect Densities in HgCdgTe
 11.4 Future Challenges
 References
 12 Band Structure and Related Properties of HgCdTe
 C. R. Becker and S. Krishnamurthy
 12.1 Introduction
 12.2 Parameters
 12.3 Electronic Band Structure
 12.4 Comparison with Experiment
 Acknowledgments
 References
 13 Conductivity Type Conversion
 P. Capper and D. Shaw
 13.1 Introduction
 13.2 Native Defects in Undoped MCT
 13.3 Native Defects in Doped MCT
 13.4 Defect Concentrations During Cool Down
 13.5 Change of Conductivity Type
 13.6 Dry Etching by Ion Beam Milling
 13.7 Plasma Etching
 13.8 Summary
 References
 14 Extrinsic Doping
 D. Shaw and P. Capper
 14.1 Introduction
 14.2 Impurity Activity
 14.3 Thermal Ionization Energies of Impurities
 14.4 Segregation Properties of Impurities
 14.5 Traps and Recombination Centers
 14.6 Donor and Acceptor Doping in LWIR and MWIR MCT
 14.7 Residual Defects
 14.8 Conclusions
 References
 15
 Structure and electrical characteristics of Metal/MCT interfaces
 R. J. Westerhout, C. A. Musca, Richard H. Sewell, John M. Dell, and L. Faraone
 15.1 Introduction
 15.2 Reactive/intermediately reactive/nonreactive categories
 15.3 Ultrareactive/reactive categories
 15.4 Conclusion
 15.5 Passivation of MCT
 15.6 Conclusion
 15.7 Contacts to MCT
 15.7 Surface Effects on MCT
 15.8 Surface Structure of CdTe and MCT
 References
 16 MCT Superlattices for VLWIR Detectors and Focal Plane Arrays
 James Garland
 16.1 Introduction
 16.2 Why HgTeBased Superlattices
 16.3 Calculated Properties
 16.4 Growth
 16.5 Interdiffusion
 16.6 Conclusions
 Acknowledgements
 References
 17 Dry Plasma Processing of Mercury Cadmium Telluride and related II VIs
 Andrew Stolz
 17.1 Introduction
 17.2 Effects of Plasma Gases on MCT
 17.3 Plasma Parameters
 17.4 Characterization  Surfaces of Plasma Processed MCT
 17.5 Manufacturing Issues and Solutions
 17.6 Plasma Processes in Production of IIVI materials
 17.7 Conclusions and Future Efforts
 References
 18 MCT Photoconductive Infrared Detectors
 I. M. Baker
 18.1 Introduction
 18.2 Applications and Sensor Design
 18.3 Photoconductive Detectors in MCT and Related Alloys
 18.4 SPRITE Detectors
 18.5 Conclusions on Photoconductive MCT Detectors
 Ackowledgements
 References
 Part Three  Applications
 19 HgCdTe Photovoltaic Infrared Detectors
 I. M. Baker
 19.1 Introduction
 19.2 Advantages of the Photovoltaic Device in MCT
 19.3 Applications
 19.4 Fundamentals of MCT Photodiodes
 19.5 Theoretical Foundations for MCT Array Technology
 19.6 Manufacturing Technology for MCT Arrays
 19.7 Towards "GEN III" Detectors
 19.8 Conclusions and Future Trends for Photovoltaic NCT Arrays
 References
 20 Nonequilibrium, dualband and emission devices
 C. Jones and N. Gordon
 20.1 Introduction
 20.2 Nonequilibrium Devices
 20.3 DualBand Devices
 20.4 Emission devices
 20.5 Conclusions
 References
 21 HgCdTe Electron Avalanche Photodiodes (EAPDs)
 I. M. Baker and M. Kinch
 21.1 Introduction and Applications
 21.2 The Avalanche Multiplication Effect
 21.3 Physics of MCT EAPDs
 21.4 Technology of MCT EAPDs
 21.5 Reported Performance of Arrays of MCT EAPDs
 21.6 Lasergated Imaging as a Practical Example of MCT EAPDs
 21.7 Conclusions and Future Developments
 References
 22 Roomtemperature IR photodetectors
 Jozef Piotrowski and Adam Piotrowski
 22.1 Introduction
 22.2 Performance of RoomTemperature Infrared Photodetectors
 22.3 MCT as a Material for RoomTemperature Photodetectors
 22.4 Photoconductive Devices
 22.5 Photoelectromagnetic, Magnetoconcentration and Dember IR Detectors
 22.6 Photodiodes
 22.7 Conclusions
 References
 Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Avasthi, Devesh Kumar.
 Dordrecht [Netherlands] : Springer, 2011.
 Description
 Book — 1 online resource (xi, 280 pages) : illustrations (some color) Digital: text file.PDF.
 Summary

 CH1: Ion Beams for Materials Engineering
 an Overview
 CH2: Ion Matter Interaction
 CH3: Ion Beam Analysis
 CH 4: Engineering of Materials by Swift Heavy Ion Beam Mixing
 CH5: SHI for Synthesis and Modifications of Nanostructured Materials
 CH 6: Engineering the Properties of Materials with SHI
 References.
 Lehto, Jukka.
 Weinheim : WileyVCH, 2010.
 Description
 Book — 1 online resource (xix, 402 p.) : ill.
 Summary

 Preface. Acknowledgments. 1 Radionuclides and their Radiometric Measurement. 1.1 Radionuclides. 1.2 Modes of Radioactive Decay. 1.3 Detection and Measurement of Radiation. 2 Special Features of the Chemistry of Radionuclides and their Separation. 2.1 Small Quantities. 2.2 Adsorption. 2.3 Use of Carriers. 2.4 Utilization of Radiation in the Determination of Radionuclides. 2.5 Consideration of Elapsed Time. 2.6 Changes in the System Caused by Radiation and Decay. 2.7 The Need for Radiochemical Separations. 3 Factors Affecting Chemical Forms of Radionuclides in Aqueous Solutions. 3.1 Solution pH. 3.2 Redox Potential. 3.3 Dissolved Gases. 3.4 Ligands Forming Complexes with Metals. 3.5 Humic Substances. 3.6 Colloidal Particles. 3.7 Source and Generation of Radionuclides. 3.8 Appendix: Reagents Used to Adjust Oxidation States of Radionuclides. 4 Separation Methods. 4.1 Precipitation. 4.2 Solubility Product. 4.3 Ion Exchange. 4.4 Solvent Extraction. 4.5 Extraction Chromatography. 5 Yield Determinations and Counting Source Preparation. 5.1 The Determination of Chemical Yield in Radiochemical Analyses. 5.2 Preparation of Sources for Activity Counting. 5.3 Essentials in Chemical Yield Determination and in Counting Source Preparation. 6 Radiochemistry of the Alkali Metals. 6.1 Most Important Radionuclides of the Alkali Metals. 6.2 Chemical Properties of the Alkali Metals. 6.3 Separation Needs of Alkali Metal Radionuclides. 6.4 Potassium 40K. 6.5 Cesium 134Cs, 135Cs, and 137Cs. 6.6 Essentials in the Radiochemistry of the Alkali Metals. 7 Radiochemistry of the Alkaline Earth Metals. 7.1 Most Important Radionuclides of the Alkaline Earth Metals. 7.2 Chemical Properties of the Alkaline Earth Metals. 7.3 Beryllium 7Be and 10Be. 7.4 Calcium 41Ca and 45Ca. 7.5 Strontium 89Sr and 90Sr. 7.6 Radium 226Ra and 228Ra. 7.7 Essentials in the Radiochemistry of the Alkaline Earth Metals. 8 Radiochemistry of the 3dTransition Metals. 8.1 The Most Important Radionuclides of the 3dTransition Metals. 8.2 Chemical Properties of the 3dTransition Metals. 8.3 Iron 55Fe. 8.4 Nickel 59Ni and 63Ni. 8.5 Essentials in 3d Transition Metals Radiochemistry. 9 Radiochemistry of the 4dTransition Metals. 9.1 Important Radionuclides of the 4dTransition Metals. 9.2 Chemistry of the 4dTransition Metals. 9.3 Technetium 99Tc. 9.4 Zirconium 93Zr. 9.5 Molybdenum 93Mo. 9.6 Niobium 94Nb. 9.7 Essentials in the Radiochemistry of 4d Transition Metals. 10 Radiochemistry of the Lanthanides. 10.1 Important Lanthanide Radionuclides. 10.2 Chemical Properties of the Lanthanides. 10.3 Separation of Lanthanides from Actinides. 10.4 Lanthanides as Actinide Analogs. 10.5 147Pm and 151Sm. 10.6 Essentials of Lanthanide Radiochemistry. 11 Radiochemistry of the Halogens. 11.1 Important Halogen Radionuclides. 11.2 Physical and Chemical Properties of the Halogens. 11.3 Chlorine 36Cl. 11.4 Iodine 129I. 11.5 Essentials of Halogen Radiochemistry. 12 Radiochemistry of the Noble Gases. 12.1 Important Radionuclides of the Noble Gases. 12.2 Physical and Chemical Characteristics of the Noble Gases. 12.3 Measurement of Xe Isotopes in Air. 12.4 Determination of 85Kr in Air. 12.5 Radon and its Determination. 12.6 Essentials of Noble Gas Radiochemistry. 13 Radiochemistry of Tritium and Radiocarbon. 13.1 Tritium 3H. 13.2 Radiocarbon 14C. 13.3 Essentials of Tritium and Radiocarbon Radiochemistry. 14 Radiochemistry of Lead, Polonium, Tin, and Selenium. 14.1 Polonium 210Po. 14.2 Lead 210Pb. 14.3 Tin 126Sn. 14.4 Selenium 79Se. 14.5 Essentials of Polonium, Lead, Tin, and Selenium Radiochemistry. 15 Radiochemistry of the Actinides. 15.1 Important Actinide Isotopes. 15.2 Generation and Origin of the Actinides. 15.3 Electronic Structures of the Actinides. 15.4 Oxidation States of the Actinides. 15.5 Ionic Radii of the Actinides. 15.6 Major Chemical Forms of the Actinides. 15.7 Disproportionation. 15.8 Hydrolysis and Polymerization of the Actinides. 15.9 Complex Formation of the Actinides. 15.10 Oxides of the Actinides. 15.11 Actinium. 15.12 Thorium. 15.13 Protactinium. 15.14 Uranium. 15.15 Neptunium. 15.16 Plutonium. 15.17 Americium and Curium. 16 Speciation Analysis. 16.1 Considerations Relevant to Speciation. 16.2 Significance of Speciation. 16.3 Categorization of Speciation Analyzes. 16.4 Fractionation Techniques for Environmental Samples. 16.5 Analysis of Radionuclide and Isotope Compositions. 16.6 Spectroscopic Speciation Methods. 16.7 Wet Chemical Methods. 16.8 Sequential Extractions. 16.9 Computational Speciation Methods. 16.10 Characterization of Radioactive Particles. 17 Measurement of Radionuclides by Mass Spectrometry. 17.1 Introduction. 17.2 Inductively Coupled Plasma Mass Spectrometry (ICPMS). 17.3 Accelerator Mass Spectrometry (AMS). 17.4 Thermal Ionization Mass Spectrometry (TIMS). 17.5 Resonance Ionization Mass Spectrometry (RIMS). 17.6 Essentials of the Measurement of Radionuclides by Mass Spectrometry. 18 Sampling and Sample Pretreatment for the Determination of Radionuclides. 18.1 Introduction. 18.2 Air Sampling and Pretreatment. 18.3 Sampling Gaseous Components. 18.4 Atmospheric Deposition Sampling. 18.5 Water Sampling. 18.6 Sediment Sampling and Pretreatment. 18.7 Soil Sampling and Pretreatment. 18.8 Essentials in Sampling and Sample Pretreatment for Radionuclides. 19 Chemical Changes Induced by Radioactive Decay. 19.1 Autoradiolysis. 19.2 Transmutation and Subsequent Chemical Changes. 19.3 Recoil Hot Atom Chemistry. Index.
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38. Femtosecond laser filamentation [2010]
 Chin, See Leang.
 New York : Springer, ©2010.
 Description
 Book — 1 online resource (xiii, 130 pages) : illustrations (some color) Digital: text file; PDF.
 Summary

 Machine generated contents note: 1. Introduction
 2. Filamentation Physics
 3. Theory of Single Filamentation
 4. Multiple Filamentation
 5. Filamentation Nonlinear Optics: General
 6. Filamentation Nonlinear Optics: Third Harmonic Generation and FourWaveMixing Inside a Filament
 7. Remote Sensing Using Filamentation
 8. Challenges Ahead.
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 Nigerian Society of Engineers. International Conference and Annual General Meeting (2010 : Abuja, Federal Capital Territory, Nigeria) author.
 [Abuja, Nigeria?] : Nigerian Society of Engineers, [2010?]
 Description
 Book — 1 computer disc ; 4 3/4 in., xv, 34 pages ; 29 cm Digital: text file; MSWord.
 Online
 International Conference on the Application of Accelerators in Research and Industry (20th : 2008 : Fort Worth, Tex.)
 Melville, N.Y. : American Institute of Physics, c2009.
 Description
 Book — 1 online resource (xxxiii, 1042 p.) : ill.
 Summary

In this title, all papers have been peerreviewed. The conference brings together scientists and physicians from universities, national laboratories, research institutes and industry worldwide who use particle accelerators in their research, medical and industrial applications. The topics presented at the conference included accelerator technology and applications, atomic/nuclear physics, national and homeland security, ion beam analysis/modifications, medical applications/radioisotopes, radiation effects, teaching with accelerators, nanoscale fabrication, focused ion beams and PIXE.
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 Ghatak, Kamakhya Prasad.
 New York : Springer, 2009.
 Description
 Book — 1 online resource (xix, 329 pages) : illustrations Digital: text file.PDF.
 Summary

 Fundamentals of Photoemission from Wide Gap Materials. Fundamentals of Photoemission from Quantum Wells in Ultrathin Films and Quantum Well Wires of Various Nonparabolic Materials. Fundamentals of Photoemission from Quantum Dots of Various Nonparabolic Materials. Photoemission from Quantum Confined Semiconductor Superlattices. Photoemission from Bulk Optoelectronic Materials. Photoemission under Quantizing Magnetic Field from Optoelectronic Materials. Photoemission from Quantum Wells in Ultrathin Films, Quantum Wires, and Dots of Optoelectronic Materials. Photoemission from Quantum Confined Effective Mass Superlattices of Optoelectronic Materials. Photoemission from Quantum Confined Superlattices of Optoelectronic Materials with Graded Interfaces. Review of Experimental Results. Conclusion and Future Research.
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 Dordrecht : Springer, ©2008.
 Description
 Book — 1 online resource (x, 227 pages) : illustrations Digital: text file.PDF.
 Summary

 Preface
 1. A Global Perspective on Climate Change , by R.K. Pachauri, M. Chand
 2. Current Understanding of Environmental andWater Resource Impacts in the Eastern Mediterranean, by E. Ozsoy
 3. An Outlook on the European Gas Market , by J. Kjarstad, F. Johnsson
 4. Sequestration  The Underground Storage of Carbon Dioxide, by S. Holloway
 5. Climate Change and Energy Pathways for the Mediterranean , by O. Schafer
 6. Global Bioenergy Resources and Utilization Technologies, by H. Yamamoto
 7. Perspectives in Nuclear Energy, by B. Frois
 8. Efficiency in Oil Use and Alternatives to Oil, by M.K. Eberle
 9. An Overview of H2 Fuel for Use in the Transportation Sector , by R.J. Allam
 10. European Transportation in the Greenhouse  System and Policy Indicators, by H. Gudmundsson
 11. European Automobile CO2 Emissions: From Forecasts to Reality , by T. Zachariadis
 12. Implications for the Oil and Gas Industries, by W. Khadduri
 Author Biographies.
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 Henke, H.
 3., erweiterte Aufl.  Berlin, Heidelberg : SpringerVerlag, 2007.
 Description
 Book — xv, 477 p.
 Berlin ; New York : Springer, ©2007.
 Description
 Book — 1 online resource (xvii, 378 pages) : illustrations (some color) Digital: text file.PDF.
 Summary

 Negative Refraction of Electromagnetic and Electronic Waves in Uniform Media. Anisotropic Field Distributions in LeftHanded Guided Wave Electronic Structures and Negative Refractive Bicrystal Heterostructures. "LeftHanded" Magnetic Granular Composites. Spatial Dispersion, Polaritons, and Negative Refraction. Negative Refraction in Photonic Crystals. Negative Refraction and Subwavelength Focusing in TwoDimensional Photonic Crystals. Negative Refraction and Imaging with Quasicrystals. Generalizing the Concept of Negative Medium to Acoustic Waves. Experiments and Simulations of Microwave Negative Refraction in Split Ring and Wire Array Negative Index Materials, 2D SplitRing Resonator and 2D Metallic Disk Photonic Crystals. Super Low Loss Guided Wave Bands Using Split Ring ResonatorRod Assemblies as LeftHanded Materials. Development of Negative Index of Refraction Metamaterials with Split Ring Resonators and Wires for RF Lens Applications. Nonlinear Effects in LeftHanded Metamaterials.
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 International Conference on the Application of Accelerators in Research and Industry (17th : 2002 : Denton, Tex.)
 Melville, N.Y. : American Institute of Physics, 2003.
 Description
 Book — xlvi, 1192 p. : ill. ; 28 cm. + 1 CDROM (4 3/4 in.)
 Summary

These papers were peer reviewed before publication. This conference covers the use of particle accelerators in research and industry. The research applications include basic atomic and nuclear physics studies with ion beams of energies less than 10 million volts. The applications include the use of ion beams for the analysis of materials. In the proceedings, experiments are outlined for Rutherford Backscattering analysis, particle induced xray emission, nuclear reaction analysis and neutron activation analysis. There are also sessions devoted to accelerator technology and the development of new spectrometers and detectors. The meeting also covers radiation processing with electron beams. These topics include crosslinking, sterilization of medical disposables and food preservation by radiation. The conference also includes a medical symposium on the production and use of medical radioisotopes and a symposium on ion implantation primarily for the semiconductor industry.
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 Melville, N.Y. : American Institute of Physics, 2001.
 Description
 Book — xxxiv, 1200 p. : ill. ; 29 cm.
 Summary

 Geosciences and related phenomena
 government funding for research
 insitu beams
 ion implantation (semiconductors)
 ion implantation (metallurgical)
 ion sources and control systems
 material analysis with ion beams
 medical applications with accelerators
 medical radioisotopes
 neutron activation analysis and bulk analysis with accelerators
 nuclear physics photonion interaction using fast beams
 positron beam experiments and facilities
 radiation effects
 radiation processing
 radiation therapy
 radioactive beam experiments and facilities
 radiological safety aspects of accelerators
 RBS
 singleevent upsets stopping power
 surface analysis with ion beams (PIXE)
 synchrotron light source experiments
 targetry
 trace analysis with ion beams
 use of small accelerators in the undergraduate curriculum.
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QC787 .P3 I575 2000  Available 
 Berlin ; New York : SpringerVerlag, c1996.
 Description
 Book — 371 p. ; 28 cm. + 1 computer laser optical disc ; 4 3/4 in.
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QC61 .L332 INDEX 1996  Inlibrary use 
 [Niš, Serbia] : University of Niš
 Description
 Journal/Periodical
 Odetayo, J. A.
 [S.l.] : J.A. Odetayo, 1993.
 Description
 Book — iii, 118 p. ; 20 cm.
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50. Numerical data and functional relationships in science and technology. New Series, Substance index [1993 ]
 Berlin ; New York : SpringerVerlag, c1993
 Description
 Journal/Periodical — v. ; 28 cm.
 Online
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QC61 .L3321 SUBVOLUME C 1993  Inlibrary use 
QC61 .L3321 SUBVOLUME C 1993  Inlibrary use 
QC61 .L3321 SUBVOLUME B 1993  Inlibrary use 
QC61 .L3321 SUBVOLUME B 1993  Inlibrary use 
QC61 .L3321 SUBVOLUME A 1993  Inlibrary use 
QC61 .L3321 SUBVOLUME A 1993  Inlibrary use 
 Abe, Yasuhisa.
 Berlin, Heidelberg : Springer Berlin Heidelberg, 1992.
 Description
 Book — 1 online resource (viii, 297 pages 90 illustrations) Digital: text file; PDF.
 Summary

 Collective Versus Statistical Aspects of Nuclear Motion. Tests of Fundamental Symmetries in CompoundNucleus Scattering. Chaos in Nuclei. Ericson Fluctuations Versus Conductance Fluctuations: Similarities and Differences. Hot Nuclei  Landau Theory, Thermal Fluctuations and Dissipation. Dissipation and Thermal Fluctuations in HeavyIon Collisions. MultiDimensional Tunneling and Nuclear Fission. PhaseSpace Dynamics of HeavyIon Reactions. Quantum Chaology: Our Knowledge and Ignorance. True Quantum Chaos? An Instructive Example. Toward the Fundamental Theory of Nuclear Matter Physics: The Microscopic Theory of Nuclear Collective Dynamics. Mean Field Dynamics and LowLying Collective Excitations. Rotational Motion in Warm Atomic Nuclei. Collectivity and Chaoticity in Nuclear Dynamics. Index of Contributors.
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52. Conversion factors [1991]
 Cook, James L.
 Oxford [England] ; New York : Oxford University Press, 1991.
 Description
 Book — xvi, 160 p. : ill. ; 21 cm.
 Summary

 Part 1: Acceleration
 area
 area flow
 calorific value
 chemical
 circular and spherical geometry
 coefficient of expansion
 concentration
 density
 electrical
 energy
 enthalpy
 entropy
 force
 force/unit length
 heat
 illumination
 linear measure
 mass
 moment of inertia
 paper
 power
 pressure or stress
 sound
 specific energy
 specific volume
 surface tension
 temperature
 temperature difference
 thermal conductivity
 time
 torque
 velocity
 viscosity
 volume
 volume flow. Part 2 Numerical data: fluids
 gases
 metals  strength
 timber
 densities. Part 3 Physical constants: atoms and spectroscopy
 energy, mass and wavelength
 principal constants
 thermal constants. Part 4 Mathematical formulae. Part 5 Engineering formulae.
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 ABBREVIATIONS
 NOTES
 CONVERSION FACTORS
 Acceleration (Angular)
 Acceleration (Linear)
 Area
 Area Flow
 Calorific Value (Volume basis)
 Calorific Value (Volume, British Gas)
 Chemical (Henry's Law)
 Circular and Spherical Geometry
 Coefficient of Expansion (Volumetric)
 Concentration (Liquid solution)
 Density (Mass concentration)
 Electrical (Charge)
 Electrical (Conductance)
 Electrical (Conductivity)
 Electrical (Current)
 Electrical (Electric capacitance)
 Electrical (Electric field)
 Electrical (Electric potential)
 Electrical (Inductance)
 Electrical (Linear charge density)
 Electrical (Linear current density)
 Electrical (Magnetic field strength)
 Electrical (Magnetic flux density)
 Electrical (Magnetomotive force)
 Electrical (Permeability)
 Electrical (Resistance)
 Electrical (Resistivity)
 Electrical (Surface charge density)
 Electrical (Surface current density)
 Electrical (Volume charge density)
 Energy (Heat, work, electrical)
 Enthalpy
 Entropy
 Force (Weight)
 Force/Unit Length (Spring rate)
 Heat Capacity
 Heat Flux Density
 Heat Transfer Coefficient
 Illumination (Luminous flux)
 Illumination (Luminous incidence)
 Illumination (Luminous intensity)
 Linear Measure (Distance or depth)
 Mass
 Mass Flow
 Mass Flow Density
 Moment of Inertia
 Paper
 Power
 Pressure or Stress
 Sound
 Specific Energy (Specific heat)
 Specific Volume
 Surface Tension
 Temperature
 Temperature Difference
 Thermal Conductivity
 Time
 Torque
 Velocity (Angular)
 Velocity (Linear)
 Viscosity (Absolute, Dynamic)
 Viscosity (Kinematic)
 Volume (Capacity)
 Volume Flow
 NUMERICAL DATA
 Fluids
 Gases
 Metals (Strength)
 Timber
 Metals (Thermal)
 Densities
 PHYSICAL CONSTANTS: Atoms and Spectroscopy
 Energy, Mass, and Wavelength
 Principal Constants
 Thermal Constants
 MATHEMATICAL FORMULAE
 ENGINEERING FORMULAE.
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QC94 .C67 1990  Available 
QC94 .C67 1990  Available 
53. Encyclopedia of applied physics [1991 ]
 New York, NY : VCH Publishers, c1991
 Description
 Book — v. : ill. ; 27 cm.
 Summary

 Each article in the Encyclopedia of Applied Physics contains: A detailed table of contents for quick access to desired information A glossary of unfamiliar terms A detailed list of works cited that provides an introduction to the literature of the field Suggestions for further reading which indicate more indepth books and review articels Numerous crossreferences Uniform terms, abbreviations, symbols and units.
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 Atmospheric ice
 biomimetic processing of ceramics
 capillary electrophoresis
 dating techniques
 interferometric techniques
 micromagnetics and micromagnetic devices
 negative hydrogen ion sources
 nitrides
 percolation processes
 periodic surfaces in physics, chemistry and biology
 photographic imaging  special techniques
 photographic imaging  stereoscopioc
 photography, digital
 photography, physics and technology
 quantum computing
 safety and health in the physical science laboratory
 semiconductors, isotopically engineered
 semiconductors, nitride
 silicides
 silicon, porous
 sun, structure of superfluidity: liquid helium systems/surfaces and interfaces of solids/symmetries and conservation laws/Xray microscopy and microanalysis
 addenda  acoustical tomography/atmospheric structure/biological effects of electromagnetic and particle radiation/biological effects of sound and ultrasound/ characterization and analysis of materials/chemical analysis/computer databases/computer programming languages/cyclotrons/ display technology/ Earth, internal structure of the electroluminiscence/explosives/fusion, inertial confinement/fusion, magnetic confinement/mesoscopic systems/ modulators and demodulators, electrical/muonic, Mesonic and Baryonic atoms/neurobiophysics/Raman spectroscopy
 instrumentation seismology.
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 Capillary electrophoresis
 dating techniques
 interferometric techniques
 negative hydrogen ion sources
 photographic imaging  special techniques
 photography
 physics and technology
 safety and health in the physical science laboratory
 silicides
 silicon
 porous
 sun
 structure of superfluidity  liquid helium systems
 surfaces and interfaces of solids
 addenda  atmospheric structure
 biological effects of electromagnetic and particle radiation
 biological effects of sound and ultrasound
 characterization and analysis of materials
 chemical analysis
 cyclotrons
 display technology
 earth, internal structure of the fusion, inertial confinement
 fusion, magnetic confinement
 modulators and demodulators, electrical. (Part contents).
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 Sonoluminescence. Sound Reproduction. Sources, ParticleElectron. Space Exploration. SpacePhysics Instrumentation. Sparks, Arcs, and Other Electric Discharges. Special Functions. Spectrometers, Electron and Ion. Spectrometers, GammaRay. Spectrometers, Infrared. Spectrometers, Mass. Spectrometers, Neutron. Spectrometers, XRay. Spectroscopy, Laser. Spectroscopy, Photoacoustic. Sputtering. SQUIDs. Statistical Data and Error Analysis. Statistical Mechanics, Classical. Statistical Mechanics, Quantum. Statistical Physics of Membranes and Lamellar Systems. Steam Engines. Steel.
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An annual update to the "Encyclopedia of Applied Physics", this volume presents some new keywords as well as updates to existing ones.
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Intended for physicists, computer scientists, engineers, research institutes and universities, this cumulative index complements all 23 volumes of the "Encyclopedia of Applied Physics", a reference work which examines the field of physics through its technical and industrial applications.
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The 23volume Encyclopedia of Applied Physics  EAP  is a monumental first in scope, depth, and usability. It demonstrates the synergy between physics and technological applications. Information is presented according to the following subject areas: General Aspects; Mathematical and Information Techniques Measurement Sciences, General Devices and/or Methods Nuclear and Elementary Particle Physics Atomic and Molecular Physics Electricity and Magnetism Optics (classical and quantum) Acoustics Thermodynamics and Properties of Gases Fluids and Plasma Physics Condensed Matter: Structure and Mechanical Properties; Thermal, Acoustic, and Quantum Properties; Electronic Properties; Magnetic Properties; Dielectrical and Optical Properties; Surfaces and Interfaces Materials Science Physical Chemistry Energy Research and Environmental Physics Biophysics and Medical Physics Geophysics, Meteorology, Space Physics and Aeronautics EAP consists of 20 hardcover volumes arranged alphabetically. A cumulative subject index will be published after every three volumes, with a full index accompanying the complete work.
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QC5 .E543 1991 UPDATE 1  Available 
QC5 .E543 1991 UPDATE 2  Available 
QC5 .E543 1991 V.1  Available 
QC5 .E543 1991 V.123:INDEX  Available 
QC5 .E543 1991 V.2  Available 
QC5 .E543 1991 V.3  Available 
QC5 .E543 1991 V.4  Available 
QC5 .E543 1991 V.5  Available 
QC5 .E543 1991 V.6  Available 
QC5 .E543 1991 V.7  Available 
QC5 .E543 1991 V.8  Available 
QC5 .E543 1991 V.9  Available 
QC5 .E543 1991 V.10  Available 
QC5 .E543 1991 V.11  Available 
QC5 .E543 1991 V.12  Available 
QC5 .E543 1991 V.13  Available 
QC5 .E543 1991 V.14  Available 
QC5 .E543 1991 V.15  Available 
QC5 .E543 1991 V.16  Available 
QC5 .E543 1991 V.17  Available 
QC5 .E543 1991 V.18  Available 
QC5 .E543 1991 V.19  Available 
QC5 .E543 1991 V.20  Available 
QC5 .E543 1991 V.21  Available 
QC5 .E543 1991 V.22  Available 
QC5 .E543 1991 V.23  Available 
 Berlin ; New York : SpringerVerlag, [1991]
 Description
 Software/Multimedia — 1 computer disk ; 3 1/2 in. + 1 instruction sheet (2 leaves ; 28 cm.)
 Summary

A keyword index for the user of the LandoltBoernstein data collection. This collection is a systematic and comprehensive collection of critically assessed data from all fields of physics and related fields, such as physical chemistry, biophysics, geophysics, astronomy, material science and technology. It also includes a bibliography of the individual volumes of the 6th ed. and of the New Series and a list of contents for each volume.
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QC61 .L332 INDEX 1991  Inlibrary use 
 Cardona, Manuel, 1934
 Berlin, Heidelberg : Springer Berlin Heidelberg, 1989.
 Description
 Book — 1 online resource Digital: text file; PDF.
 Summary

 Introduction
 Collective Excitations in Superlattice Structures
 Raman Spectroscopy of Vibrations in Superlattices
 Spectroscopy of Free Carrier Excitations in Semiconductor Quantum Wells
 Raman Studies of Fibonacci, ThueMorse, and Random Superlattices
 Multichannel Detection and Raman Spectroscopy of Surface Layers and Interfaces
 Brillouin Scattering from Metallic Superlattices
 Light Scattering from Spin Waves in Thin Films and Layered Magnetic Structures
 Additional References with Titles
 Subject Index.
56. HighTc superconductors [1988]
 International Discussion Meeting on HighTc̳ Superconductors (1988 : Salzburg, Austria)
 New York : Springer Science + Business Media, 1988.
 Description
 Book — 1 online resource (XI, 363 pages .)
 Summary

 Section 1: Overview. The solid state chemistry of mixed valence copper oxide high Tc superconductors (invited). Critical overview of theories for high temperature superconductors (invited).
 Section 2: MaterialsStructure. Some effects of chemical substitution and applied pressure on high Tc copper oxide superconductors (invited). Defect chemistry of oxide superconductors (invited). Deviation from linearity of the CuO chains in orthorhombic YBa2Cu3O7 by highresolution neutron powder diffraction. Electron irradiation effects in YBa2Cu3O7?? single crystals. Physical properties and structural chemistry of YBa2Cu3Ox prepared by a defined oxygen sorption procedure. Correlation of Tc with the rare earth size in (Ln)Ba2Cu3O6+x superconductors (Ln = La, Nd, Sm, Eu, Yb "Cocktails"). Single crystal xray diffraction and electron microscopy studies. Electrical resistivity, magnetic susceptibility, and infrared spectra of superconducting RBa2Cu3O7 with R = Y, Sc, Tm, Ho, Eu, Nd, Gd. Heat capacity measurements on some highTc superconductors. Specific heat of the superconducting compound YBa2Cu3O7?x in magnetic fields. Effect of Cu/Zn substitution upon superconductivity in YBa2(Cu1?xZnx)3O7?? and La1.85Sr0.15Cu1?xZnxO4??. Effect of composition and atomic substitutions on structure and superconductivity of Y1Ba2Cu3Ox. Transport and spectroscopic properties of undoped and Zndoped ceramic superconductors. Raman investigations of the YBaCuOsystem. Difference of thermoelectric power in single and multiple phase YBaCuO superconductors. Apatite as a promising source of rare earths, strontium and barium for high temperature superconductors.
 Section 3: TheoryMechanisms. Boson exchange mechanisms and the high Tc oxides (invited). Mechanisms of highTc superconductivity (invited). Anisotropy effects in the system LaSrCuO. Influence of pressure and substitution of copper by transition metals on highTc superconductors. Test of phonon mediated pairing from Raman scattering on hightemperature superconductors. Are onedimensional structural features essential for superconductivity at 90 K?. Theory of oxygen ordering and absorption in 1,2,3 highTc superconductors. Cu dd orbital transitions and chargetransfer excitations in highTc superconductors. Electronic structure of La2?xSrxCuO4 and YBa2Cu3O7?y. Susceptibility and Mossbauer studies of orthorhombic and tetragonal EuBa2(Gu1?x57Fex)3O7??. Search for barium isotope effect in the highTc superconductor YBa2Cu3O7?x. Pure metallic bridge and pointcontact tunneling into single and polycrystalline YBa2Cu3O7?y.
 Section 4: Critical FieldsCritical Currents. Upper critical field of grain oriented cuprate superconductors (invited). Critical fields and characteristic lengths in copper oxide superconductors (invited). Critical current densities of oxide superconductors (invited). Anisotropy of the lower critical field in YBa2Cu3O7??. Crystal growth and some magnetic properties of YBa2Cu3O7??. Flux pinning in Y1Ba2Cu3O7?? single crystals. Effect of neutron irradiation on critical magnetization current in single crystal YBa2Cu3O7??. Magnetization and xray studies of YBa2Cu3O7?x irradiated by fast neutrons. Superconducting properties of oxygen deficient YBa2Cu3O7??. Ac susceptibility and inductive critical current measurements in polycrystalline YBa2Cu3O7. The complex ac susceptibility  critical current relationship in oxide superconductors. Josephson phase coherence and coupling in high Tc granular superconductors. Electronic and magnetic properties of YBa2Cu3O7?x uperconductor. Coexistence of magnetism and superconductivity in a YBa2Cu3O7?x compound. Studies of HTS ceramics  copper interaction.
 Section 5: Thin Films. High Tc superconducting oxide thin films: fabrication, application, and characterization (invited) Abstract only. Stoichiometry and deposition rate of dc magnetron sputtered YBaCuO thin films as a function of target presputtering time. Superconducting films of YBaCuO. Participants. Author index.
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 New York : American Institute of Physics, c1988.
 Description
 Book — xv, 389 p. : ill. ; 25 cm.
 Summary

All with an interest in physics and related technologies; those interested in the history of modern physics.
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QC1 .P6546 1988  Available 
 Berlin ; New York : SpringerVerlag, c1988.
 Description
 Book — 119 p. ; 27 cm.
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QC61 .L332 INDEX 1988  Available 
59. Formulas, facts, and constants for students and professionals in engineering, chemistry, and physics [1987]
 Fischbeck, Helmut J., 19282015
 2nd rev. and enl. ed.  Berlin ; New York : SpringerVerlag, c1987.
 Description
 Book — xv, 260 p. : ill. ; 24 cm.
 Online
Marine Biology Library (Miller), SAL3 (offcampus storage)
Marine Biology Library (Miller)  Status 

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QC61 .F58 1987  Unknown 
SAL3 (offcampus storage)  Status 

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QC61 .F58 1987  Available 
 International Conference on Experimental Mechanics (1985 : Beijing, China)
 Beijing, China : Science Press, 1985.
 Description
 Book — xi, 1096 p. : ill. ; 25 cm.
 Online
SAL3 (offcampus storage)
SAL3 (offcampus storage)  Status 

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QC120 .I55 1985A  Available 
 Opp, Eric N.
 Philadelphia : Saunders College Pub., c1983.
 Description
 Book — v, 297 p. : ill. ; 28 cm.
 Online
SAL3 (offcampus storage)
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QC21.2 .O67 1983  Available 
62. Physics for science and engineering [1982]
 Marion, Jerry B.
 Philadelphia : Saunders College Pub., c1982.
 Description
 Book — 2 v. in 1 (1274 p.) : ill. ; 27 cm.
 Online
SAL3 (offcampus storage)
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QC21.2 .M3643 1982  Available 
 Berlin ; New York : SpringerVerlag, [1990]
 Description
 Image — 1 chart : col. ; 84 x 59 cm. folded to 21 x 18 cm. + 2 booklets (24 cm.)
 Online
Science Library (Li and Ma)
Science Library (Li and Ma)  Status 

Retired Reference


QC61 .L331 1990  Inlibrary use 
 Fromhold, A. T.
 New York : Academic Press, 1981.
 Description
 Book — xvi, 430 p. : ill. ; 24 cm.
SAL3 (offcampus storage)
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QC174.12 .F76  Available 
65. Impact of basic research on technology [1973]
 Kurşunoğlu, Behram, 1922
 New York, Plenum Press, 1973.
 Description
 Book — xv, 301 pages illustrations 26 cm.
 Online
SAL3 (offcampus storage)
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QC30 .K82 1973  Available 
 Johnson, Harold Alexander, 1907
 New York McGraw Hill [1964]
 Description
 Book — xiv, 472 p. illus., port. 29 cm.
 Online
SAL3 (offcampus storage)
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QC311 .J65  Available 
67. Dictionary of atomic terminology [print]. [1959]
 New York : Philosophical Library, c1959.
 Description
 Book — 298 pages ; 22 cm
 Online
Lane Medical Library
Lane Medical Library  Status 

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QC772 .L4 1959  Unknown 
68. Acta polytechnica Scandinavica. Physics including nucleonics series [1958  1975]
 Helsinki Finnish Academy of Technical Sciences
 Description
 Book — 110 no. illustrations 26 cm
 Online
SAL3 (offcampus storage)
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QC1 .A362 NO.1436 19611965  Available 
QC1 .A362 NO.3749 19661967  Available 
QC1 .A362 NO.5062 1968  Available 
QC1 .A362 NO.6385 19691971  Available 
QC1 .A362 NO.86110 19721975  Available 
 Amsterdam ; New York : Elsevier Pub. Co., 1958.
 Description
 Book — 914 pages ; 23 cm
 Online
Lane Medical Library
Lane Medical Library  Status 

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QC772 .E4 1958  Unknown 
70. American Institute of Physics handbook [1957]
 American Institute of Physics.
 New York, McGrawHill, 1957.
 Description
 Book — 1 v. (various pagings) illus., diagrs., tables. 24 cm.
 Online
Earth Sciences Library (Branner), SAL3 (offcampus storage)
Earth Sciences Library (Branner)  Status 

Stacks  
QC61 .A5  Unknown 
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530.8 .A512  Available 
QC61 .A5 1957  Available 
QC61 .A5 1957  Available 