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Optical physics for nanolithography / Anthony Yen, Shinn-Sheng Yu.

SPIE Digital Library eBooks Available online

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Format:
Book
Author/Creator:
Yen, Anthony, author.
Yu, Shinn-Sheng, author.
Contributor:
Society of Photo-Optical Instrumentation Engineers, publisher.
Series:
SPIE monograph ; PM284.
SPIE digital library
SPIE Press monograph ; PM284
Language:
English
Subjects (All):
Optics.
Imaging systems.
Nanolithography.
Genre:
Electronic books.
Physical Description:
1 online resource (352 pages) : color illustrations.
Place of Publication:
Bellingham, Washington : SPIE, 2018.
System Details:
Mode of access: World Wide Web.
text file
Summary:
This book provides an in-depth, self-contained introduction of partially coherent imaging theory for researchers and engineers working on optical lithography for semiconductor manufacturing, including those in the EDA industry. It is mathematically complete: the opening chapters discuss the essential principles, and all derivations are presented with their intermediate steps. For increased accessibility, simplified and consistent notations are used throughout the text. Full-color pages illustrate the connections between figures and equations.
Contents:
Preface
Notations and conventions
1. Mathematical preliminaries: 1.1. Mean-value theorems of integral calculus; 1.2. The delta function; 1.3. Weierstrass' approximation theorem; 1.4. Fourier transform; 1.5. Vector algebra; 1.6. Vector calculus; 1.7. Curvilinear coordinates; 1.8. Solution to Poisson's equation; 1.9. Helmholtz's theorem
2. Electromagnetic waves in free space: 2.1. Maxwell's equations in free space; 2.2. Electromagnetic radiation; 2.3. Systematic solution of inhomogeneous wave equations with boundary and initial conditions; 2.4. Solution inhomogeneous wave equations with harmonic time dependence
3. Electromagnetic waves in material media: 3.1. Macroscopic fields in material media; 3.2. Energy in electromagnetic fields; 3.3. Hertz vectors; 3.4. Fields of an electric dipole; 3.5. Dielectric properties of matter; 3.6. Physical origin of reflection and transmission; Ewald-Oseen extinction theorem; 3.7. Reflection and transmission upon incidence on a multilayer stack
4. Elements of geometrical optics: 4.1. Geometrical wavefronts and light rays; 4.2. Fermat's principle; 4.3. The characteristic functions of Hamilton; 4.4. The sine condition; 4.5. The Herschel condition; 4.6. The paraxial approximation; 4.7. The Smith-Helmholtz invariant; 4.8. The thin lens formula; 4.9. Stops, pupils, and windows; 4.10. Chief and marginal rays; meridional, tangential, and sagittal planes; meridional and skew rays
5. Diffraction of electromagnetic waves: 5.1. The scalar theory of diffraction; 5.2. Fresnel and Fraunhofer approximations; 5.3. Representation of the diffracted field by the angular spectrum of plane waves; 5.4. The vector theory of diffraction
6. Image formation in an optical system: 6.1. Heuristic imaging theory; 6.2. The lithographic imaging system; 6.3. Imaging by a point source: coherent imaging; 6.4. Imaging by an extended source: partially coherent imaging; 6.5. Yamazoe's stacked shifted pupil formulation; 6.6. Imaging with a higher numerical aperture: radiometric correction; 6.7. 3-D point spread function; 6.8. Imaging with a higher numerical aperture: polarization effect
7. Aberrations in optical imaging systems: 7.1. Design of aspherical surfaces; 7.2. Connection between ray and wave aberrations; 7.3. The wave aberration for rotationally symmetric optical systems: Seidel aberrations; 7.4. General form of the aberration function for rotationally symmetric optical systems; 7.5. Digression: Gram-Schmidt orthogonalization process and orthogonal polynomials; 7.6. Orthogonal polynomials for expanding the aberration function: Zernike polynomials
Index.
Notes:
"SPIE Digital Library."--Website.
Includes bibliographical references and index.
Title from PDF title page (SPIE eBooks Website, viewed 2018-03-14).
Other Format:
Print version
ISBN:
9781510617384
OCLC:
1028853536
Access Restriction:
Restricted for use by site license.

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