1 edition of **The Mie Theory** found in the catalog.

- 259 Want to read
- 1 Currently reading

Published
**2012**
by Springer Berlin Heidelberg, Imprint: Springer in Berlin, Heidelberg
.

Written in

- Measurement Science and Instrumentation,
- RF and Optical Engineering Microwaves,
- Meteorology,
- Microwaves,
- Atomic, Molecular, Optical and Plasma Physics,
- Nanoscale Science and Technology,
- Nanotechnology,
- Physics,
- Meteorology/Climatology

**Edition Notes**

Statement | edited by Wolfram Hergert, Thomas Wriedt |

Series | Springer Series in Optical Sciences -- 169 |

Contributions | Wriedt, Thomas, SpringerLink (Online service) |

Classifications | |
---|---|

LC Classifications | QC170-197, QC717.6-718.8 |

The Physical Object | |

Format | [electronic resource] : |

ID Numbers | |

Open Library | OL27074943M |

ISBN 10 | 9783642287381 |

Mie scattering is the elastic scattered light of particles with a diameter larger than or equal to the wavelength of incident light, and the theory is a lot simpler than people think. However, to fully understand Mie scattering and how it affects our view of the . Mie scattering is the way that light scatters when it hits an is named after the German physicist, Gustav theory is good for all wavelengths of light, and all object sizes. If the object is much smaller than the wavelength of light, Rayleigh scattering theory is also quite good. When the object is big, the light can hit many places on the object.

Comparison of results, Mie theory is more suitable for measurements of particle size. To measure particle size using algorithm based on Mie theory can be applied to various types of particles and has a higher accuracy than other algorithm Figure 1. The comparison between Mie . Mie theory is a rigorous and applicable for all size of spheres as well as materials while Rayleigh theory is applicable only when size parameter 'x' (2πr/λ).

This tool uses Mie Theory to calculate the optical cross-sections of single-component or core-shell spherical nanoparticles. The total extinction cross section is proportional to the optical density of a sample measured by standard UV-visible spectroscopy, and the calculator provides information on how the scattering and absorption components contribute to the total extinction. As well as providing a concise overview of the Mie theory and its applications, this book includes vital computational methods and experimental techniques, and covers the .

You might also like

Being of sound mind

Being of sound mind

Lake Winnebago and lower Fox River.

Lake Winnebago and lower Fox River.

Green groups directory.

Green groups directory.

Sophocles Electra (Prentice-Hall Greek drama series)

Sophocles Electra (Prentice-Hall Greek drama series)

potter in Japan, 1952-1954

potter in Japan, 1952-1954

English Institute essays

English Institute essays

Problems in the administration of a city-wide test programme.

Problems in the administration of a city-wide test programme.

National patterns of science and technology resources 1980

National patterns of science and technology resources 1980

Managing on the edge

Managing on the edge

Principles of medical statistics.

Principles of medical statistics.

San Francisco Bayside historical cultural resource survey

San Francisco Bayside historical cultural resource survey

Father Forgive Me

Father Forgive Me

Geology of the country around Aberdeen, by M. Munro [and others]

Geology of the country around Aberdeen, by M. Munro [and others]

Truth Picks

Truth Picks

United we stand

United we stand

From the Back Cover. This book presents in a concise way the Mie theory and its current applications. It begins with an overview of current theories, computational methods, experimental techniques, and applications of optics of small particles.

There is also some biographic information on Gustav Mie, who published his famous paper on the colour of Gold colloids in /5(2). The Mie Theory: Basics and Applications.

As well as providing a concise overview of the Mie theory and its applications, this book includes vital computational methods and experimental techniques, and covers the latest developments in scattering theory, plasmon resonance, and optical : Mie scattering theory is the generalized solution that describes the scattering of an electromagnetic wave by a homogeneous spherical medium having RI different from that of the medium through which the wave is traversing.

It is worth reiterating that Mie scattering is. Mie theory is an analytical solution of Maxwell's equations for the scattering of electromagnetic radiation by particles of any size (also called Mie scattering). This book presents in a concise way the Mie theory and its current applications.

It begins with an overview of current theories, computational methods, experimental techniques, and applications of optics of small particles. There is also some biographic information on Gustav Mie, who published his famous paper on the colour of Gold colloids in Mie theory for metal nanoparticles Guillaume Ba↵ou⇤ Charg´e de recherche CNRS, Institut Fresnel, Universit´e Aix-Marseille, France (Dated: Febru ) In this work, I aim at giving a clear and self-sucient description of Mie theory.

This famous theory is suited to compute accurately the optical cross sections of a spherical particle. Grade Grade 1. Teachers; Pupils; Grade 2. Teachers; Pupils; Grade 3. Teachers; Pupils; Grade 4. Teachers; Pupils; Grade 5. Teachers; Pupils; Grade 6. Teachers. “This book is devoted to light scattering problems and contains many results which were obtained by the authors on Generalized Lorenz-Mie Theory (GMLT).

The book contains nine chapters and six appendices. It is self-contained and is accessible to a large variety of audiences. This book presents in a concise way the Mie theory and its current applications. It begins with an overview of current theories, computational methods, experimental techniques, and applications of optics of small particles.

There is also some biographic information on Gustav Mie, who published his famous paper on the colour of Gold colloids in. Mie Theory Based on the theory of Mie, the differential scattering cross sections are defined in terms of the angular intensity functions i 1 and i 2, as given by the expressionsFile Size: KB.

Mie Theory We consider scattering of an electromagnetic wave against a homogeneous sphere with radius a. Maxwell's equations ∇×H=J+ε ∂E ∂t =σE+ε ∂E ∂t ∇H=0 ∇×E=−µ ∂H ∂t ∇E=0 We will deal with waves having the time dependence described by the factor File Size: 1MB.

MiePlot A computer program for scattering of light from a sphere using Mie theory & the Debye series. MiePlot was originally designed to provide a simple interface (for PCs using Microsoft Windows) to the classic BHMIE algorithm for Mie scattering from a sphere - as published by Bohren and Huffmann in "Absorption and scattering of light by small particles" (ISBN ).

springer, This book presents in a concise way the Mie theory and its current applications. It begins with an overview of current theories, computational methods, experimental techniques, and applications of optics of small particles.

There is also some biographic information on Gustav Mie, who published his famous paper on the colour of Gold colloids in The book deals with generalized Lorenz-Mie theories when the illuminating beam is an electromagnetic arbitrary shaped beam, relying on the method of separation of variables.

Python Mie Scattering package (PyMieScatt) In addition to over twenty functions for Mie theory calculations, it contains our implementation of a highly visual method for solving the inverse Mie problem for the complex refractive index, given known or assumed size parameter and optical measurements.

wavelengths. This theory is the basis for describing the rainbow, glory and other atmospheric optical phenomena. When the wavelength of light is large compared to the particle size, Mie theory is well approximated by Rayleigh scattering.

In the atmosphere molecules act as Rayleigh scatters — this phenom enon explains why the sky is Size: KB. Rayleigh scattering refers primarily to the elastic scattering of light from atomic and molecular particles whose diameter is less than about one-tenth the wavelength of the incident light.

Rayleigh line refers to the unshifted central peak observed in the spectroscopic analysis of scattered light. Mie scattering refers primarily to the elastic scattering of light from atomic and molecular.

Mie theory The ﬁ rst years 1 08/01/ One hundred years ago Gustav Mie developed an analytical solution for the equations derived by Maxwell to describe the scattering of light by spherical particles. The resulting Mie theory File Size: 1MB. The heart of the book is devoted to the rigorous scattering theory for spheres of arbitrary size (Mie theory) and to various modes of approximation such as the Rayleigh-Gaas approximation, the perfect reflection approximation, the geometrical-optics approximation, and others.

Equations for Mie scattering. The index of refraction mof the sphere may be complex, m= n(1 i) The imaginary part of the complex refractive index n is the damping factor while is called the index of absorption or the index of attenuation.

Note that the sign of the imaginary part of the index of refraction isFile Size: KB. This book presents in a concise way the Mie theory and its current applications. It begins with an overview of current theories, computational methods, experimental techniques, and applications of optics of small particles.The Mie theory solution is also applied directly to the scattering by any number of spheres if the distance between particles is large enough so that there are no coherent phase relations among the scattered light from different particles The general Mie theory of optical scattering is very useful in Cited by: STRING THEORY AND M-THEORY A MODERN INTRODUCTION String theory is one of the most exciting and challenging areas of modern theoretical physics.

This book guides the reader from the basics of string theory to very recent developments at the frontier of string theory research. The book begins with the basics of perturbative string theory, world-sheet.