3 edition of Optical diagnostic methods for inorganic transmissive materials found in the catalog.
Includes bibliographical references and index.
|Statement||Raju V. Datla, Leonard M. Hanssen, chairs/editors ; sponsored ... by SPIE--the International Society for Optical Engineering.|
|Series||SPIE proceedings series ;, v. 3425, Proceedings of SPIE--the International Society for Optical Engineering ;, v. 3425.|
|Contributions||Datla, Raju Umapathi., Hanssen, Leonard Matheus, 1953-, Society of Photo-optical Instrumentation Engineers.|
|LC Classifications||TA418.7 .O68 1998|
|The Physical Object|
|Pagination||vi, 270 p. :|
|Number of Pages||270|
|LC Control Number||99170354|
/ / Optical Diagnostic Methods for Inorganic Transmissive Materials: July San Diego, California (Proceedings of Spie, Volume ) / X / / Novel Optical Systems and Large-aperture Imaging: Proceedings of Spie July, , San Diego, California (Proceedings of Spie--the. Transmittance, reflectance, and absorptance obtained from 1 of several common IR window materials, ranging in index from to a Si, b ZnSe, c KRS-5, d MgF 2. Advertisement Content uploaded.
/ / Optical Diagnostic Methods for Inorganic Materials (Optical Diagnostic Methods for Inorganic Transmissive Materi) / / / Infrared Optics and Zoom Lenses (SPIE Tutorial Texts in Optical . Rongqing Hui, in Introduction to Fiber-Optic Communications, Introduction. Photodetector is the key device in the front end of an optical receiver that converts the incoming optical signal into an electrical signal, known as O/E convertor. Semiconductor photodetectors, commonly referred to as photodiodes, are the predominant types of photodetectors used in optical .
We have performed regular spectral transmittance and reflectance measurements over the 1 (mu) m to (mu) m wavelength region on several different types of materials using three different spectrophotometer systems. Two of the systems employ grating-based monochromators and InGaAs photovoltaic detectors. The beam at the sample position is nearly collimated. An optical chopper modulated the light at a frequency of 10 Hz. The signal from the pyroelectric detector was directed into a lock-in amplifier (SR from Stanford Research Systems Inc.). A digital voltmeter (HPA from Hewlett Packard Inc.) digitized the analog signal from the lock-in amplifier and sent the data to a computer.
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Get this from a library. Optical diagnostic methods for inorganic transmissive materials: JulySan Diego, California. [Raju Umapathi Datla; Leonard Matheus Hanssen; Society of Photo-optical Instrumentation Engineers.;]. Proc. SPIEOptical Diagnostic Methods for Inorganic Transmissive Materials, pg (8 October ); doi: / Read Abstract + The focal shift of an optical filter used in non-collimated light depends directly on substrate thickness and index of refraction.
PROCEEDINGS VOLUME Optical Diagnostic Methods for Inorganic Materials II. Editor(s): Leonard M. Hanssen. Problems posed by scattering transmissive materials for accurate transmittance and reflectance measurements. In: SPIE Conference on Optical Diagnostic Methods for Inorganic Transmissive Materials.
Proc. SPIE, vol.p. SPIE Press Book () Google by: 9. Date Published: 8 October PDF: 9 pages Proc. SPIEOptical Diagnostic Methods for Inorganic Transmissive Materials, (8 October ); doi: / Show Author Affiliations Taijin Lu, Gemological Institute of America (United States).
Four methods for the measurement of absolute reflectance are described and compared, with particular emphasis on application to transmissive materials such as windows and filters.
Three of the methods, the 'V-W,' 'V-N,' and goniometer based methods, have been in use for a number of years. The fourth is an integrating sphere method. Kaplan and L.
Hanssen, “Normal infrared spectral emittance of Al,” in Optical Diagnostic Methods for Inorganic Transmissive Materials (SPIE, ), Vol.pp. – Proc. SPIEOptical Diagnostic Methods for Inorganic Materials II, pg (11 October ); doi: / Read Abstract + A laser calorimeter has been developed with a sensitivity of the order of 10 -6 cm -1 with one watt of laser power using a CO 2 laser (9(mu) m to 11(mu) m) in the infrared region.
8 October Design and operation of a highly sensitive and accurate laser calorimeter for low-absorbtion materials. Etsuo Kawate, Leonard M Optical Diagnostic Methods for Inorganic Transmissive Materials; () https://doi Proc.
SPIEOptical Diagnostic Methods for Inorganic Transmissive Materials, (8 October 8 October Fourier transform spectropolarimetry for optical diagnostics of transmissive materials David B. Chenault, Dennis H. Goldstein, Diana M.
Hayes Author Affiliations +. Fourier transform spectropolarimetry for optical diagnostics of transmissive materials Chenault, David B.; Optical Diagnostic Methods for Inorganic Transmissive Materials. Pub Date: October DOI: / Bibcode: SPIEC full text sources.
Date Published: 11 October PDF: 9 pages Proc. SPIEOptical Diagnostic Methods for Inorganic Materials II, (11 October ); doi: / Show Author Affiliations Simon G. Kaplan, National Institute of Standards and Technology (United States) Leonard M.
Hanssen, National Institute of Standards and Technology (United States). Inorganic Optical Materials. Editor(s): Alexander J. Marker III Optical materials for microlithography applications Author(s): Thomas Westerhoff; Improved method for measuring low-level linear birefringence in optical materials.
Pb1-xGexTe is a pseudobinary alloy of IV–VI narrow-gap semiconductor, of which maximum refractive index corresponds to the ferroelectric phase transition.
Since the temperature coefficient of refractive index can be tunable from negative to positive by changing the Ge composition, it is possible to utilize the intrinsic property in the fabrication of infrared thin-film interference filters.
Multispectral Pyrometry for Insulating Material Emissometry Optical Diagnostic Methods for Inorganic Transmissive Materials Diagnostic Methods for Inorganic Transmissive Materials. Eds. Fabrication methods for Infrared materials such as germanium, silicon, zinc sulfide, and zinc selenide are in general similar to normal glass optics.
Many of the crystalline materials are hygroscopic (absorbs water), which can be challenging to work with. Some Infrared materials - like germanium, silicon (though it is difficult), zinc sulfide, zinc.
Get this from a library. Optical diagnostic methods for inorganic materials III: August,San Diego, California, USA. [Leonard Matheus Hanssen; Society of Photo-optical Instrumentation Engineers.;]. (University Science Books, ). Davis, and F. Wang, “Progress in nonlinear optical materials for high power lasers,” Optical Diagnostic Methods for Inorganic Transmissive.
The Handbook of Optical Materials is a compilation of the physical properties of optical materials used in optical systems and lasers.
It contains extensive data tabulations but with a minimum of narration, in a style similar to that of the CRC Handbook of Chemistry and Physics.
References to original or secondary sources of the data are. A new 2-modulator generalized ellipsometer (2-MGE) is used to determine the optical functions of uniaxial materials.
This new instrument measures 8 parameters, compared with two parameters measured by standard spectroscopic ellipsometers. These 8 parameters can be used to determine the 6 independent elements in the reduced Jones matrix describing light.
We discuss a procedure for making accurate measurement of the index of refraction, its dispersion, and its temperature dependence, in the deep ultraviolet (near nm), using precision goniometric spectrometers and the minimum deviation method.
Measurements of the indices of fused silica and calcium fluoride near nm, with a fractional accuracy of 7 ppm, are discussed.Materials for Biomedical Engineering: Inorganic Micro- and Nanostructures presents recent, specific insights in new progress, along with new perspectives for inorganic micro- and nano-particles.
The main focus of this book is on biomedical applications of these materials and how their biological properties are linked to various synthesis.T1 - Predicting and Designing Optical Properties of Inorganic Materials. AU - Rondinelli, James M.
AU - Kioupakis, Emmanouil. and we review recent results from the literature that exemplify the predictive power of the method for numerous inorganic materials and nanostructures. We also discuss topics of active research and future.