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A study of new optical materials I. Crystal-chemical development of new optical frequency converters II. New hosts for Cr3+ luminescence and lasing

The emphasis of this work has been in two areas of optical materials - the
crystal-chemical development of new optical frequency converters and the synthesis
and study of new hosts for Cr����� luminescence and lasing.
A simple method has been developed to identify promising frequency-doubling
materials containing triangular oxoanions by estimation of nonlinear
susceptibilities. Implementation of this method and its results have generated
predictive capabilities in determining the relationships among crystal structure,
nonlinear properties, and threshold powers. The new noncentrosymmetric borate
SrLiB���O������ is discussed; its structure is built from a 3-dimensional condensation of
B���0��� units with channels alternately filled with Sr and Li atoms. From these
studies, a prescription for new pyroborate frequency converters has been
developed. The material CdC������C���H7NO���, has been synthesized and structurally
characterized by single-ciystal X-ray diffraction.
Three new alkaline-earth beryllium borates, built from unique 2- and 3-
dimensional networks and frameworks, have been identified. The structure of
SrBe���(B0���)��� consists of layers of composition [Be���(BO���)���] interleaved by Sr atoms.
CaBeB���O��� is constructed from a Ca0��� polyhedral network and a beryllium borate
network. In BaBe���(B0���)��� the structure is composed of a beryllium borate
framework intermingled with a Ba-centered dodecahedral framework.
Several materials with potential as hosts for Cr����� lasing have been analyzed.
The structural study of the laser host LiSrAIF6 revealed the distortions at the Al
site that contribute to the unique optical properties of the Cr����� -doped crystals.
The family of solid state oxide A���MM'(B0���)��� is one of the largest families of oxide
reported to date. Metal site preferences, disorder, solid solubility, and the
interrelationship between this structure and the layered structure type of
Ba���Sc(B0���)��� are detailed. An optimal synthetic procedure has been developed for
these materials to provide pure, highly crystalline phases. Also, the structural and
optical features of (Cr�����:) Sr���In(B0���)��� with A= Sr and M=M'= In have been
studied.
The material Sr���LilnB���O������, was discovered while searching for a suitable
lithium borate flux for crystal growth of the compound Sr���In(B0���)���. / Graduation date: 1993

Identiferoai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/32543
Date16 September 1992
CreatorsSchaffers, Kathleen I.
ContributorsKeszler, Douglas A.
Source SetsOregon State University
Languageen_US
Detected LanguageEnglish
TypeThesis/Dissertation

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