Abstract
A study has been made on creating optical materials utilizing functions of the typical metallic element, chalcogenide, based on an electronically excited condition. A thin film fabricating equipment was designed under a conception of applying the 2A-4 B-6B-family solid solution thin film to optical materials. Exciton relaxation involving the imperfection of semiconductor crystals was studied using an ultra shortwave pulse laser. The dynamic process in the excitons had a commonness regardless of kinds of irregularities in lamination, hetero interface, and composition. These results, including the relaxation of bound excitons, can be applied to evaluating the crystalline imperfection. A thin film evaluation method was developed utilizing measurements of thin film internal distortion using the exciton spectral diffraction of ZnSe thin film and the mesomeric effect of second harmonic light with the exciton {prime}s 2P condition. Studies were made on the light emitting action of cBN, and the synthesizing and fabrication methods for the BN system, the solid solution system of the BN with C, and the composite system. Discussions were given on monocrystal growth and phase characteristics of superconductor oxides. Knowledges were acquired on three elements; the optic material problems, the light properties to understand material characters and spectroscopy, and the
More>>
Citation Formats
None.
Study on chalcogenide, a typical metallic element; Kinzoku tenkei genso chalcogenide ni kansuru kenkyu.
Japan: N. p.,
1991.
Web.
None.
Study on chalcogenide, a typical metallic element; Kinzoku tenkei genso chalcogenide ni kansuru kenkyu.
Japan.
None.
1991.
"Study on chalcogenide, a typical metallic element; Kinzoku tenkei genso chalcogenide ni kansuru kenkyu."
Japan.
@misc{etde_10153742,
title = {Study on chalcogenide, a typical metallic element; Kinzoku tenkei genso chalcogenide ni kansuru kenkyu}
author = {None}
abstractNote = {A study has been made on creating optical materials utilizing functions of the typical metallic element, chalcogenide, based on an electronically excited condition. A thin film fabricating equipment was designed under a conception of applying the 2A-4 B-6B-family solid solution thin film to optical materials. Exciton relaxation involving the imperfection of semiconductor crystals was studied using an ultra shortwave pulse laser. The dynamic process in the excitons had a commonness regardless of kinds of irregularities in lamination, hetero interface, and composition. These results, including the relaxation of bound excitons, can be applied to evaluating the crystalline imperfection. A thin film evaluation method was developed utilizing measurements of thin film internal distortion using the exciton spectral diffraction of ZnSe thin film and the mesomeric effect of second harmonic light with the exciton {prime}s 2P condition. Studies were made on the light emitting action of cBN, and the synthesizing and fabrication methods for the BN system, the solid solution system of the BN with C, and the composite system. Discussions were given on monocrystal growth and phase characteristics of superconductor oxides. Knowledges were acquired on three elements; the optic material problems, the light properties to understand material characters and spectroscopy, and the material characterization as an application of the spectroscopy. 109 refs., 75 figs., 11 tabs.}
place = {Japan}
year = {1991}
month = {Nov}
}
title = {Study on chalcogenide, a typical metallic element; Kinzoku tenkei genso chalcogenide ni kansuru kenkyu}
author = {None}
abstractNote = {A study has been made on creating optical materials utilizing functions of the typical metallic element, chalcogenide, based on an electronically excited condition. A thin film fabricating equipment was designed under a conception of applying the 2A-4 B-6B-family solid solution thin film to optical materials. Exciton relaxation involving the imperfection of semiconductor crystals was studied using an ultra shortwave pulse laser. The dynamic process in the excitons had a commonness regardless of kinds of irregularities in lamination, hetero interface, and composition. These results, including the relaxation of bound excitons, can be applied to evaluating the crystalline imperfection. A thin film evaluation method was developed utilizing measurements of thin film internal distortion using the exciton spectral diffraction of ZnSe thin film and the mesomeric effect of second harmonic light with the exciton {prime}s 2P condition. Studies were made on the light emitting action of cBN, and the synthesizing and fabrication methods for the BN system, the solid solution system of the BN with C, and the composite system. Discussions were given on monocrystal growth and phase characteristics of superconductor oxides. Knowledges were acquired on three elements; the optic material problems, the light properties to understand material characters and spectroscopy, and the material characterization as an application of the spectroscopy. 109 refs., 75 figs., 11 tabs.}
place = {Japan}
year = {1991}
month = {Nov}
}