Abstract
For the development of the laser initiated high resolution, ultra sensitive analysis technology following field of researches have been performed. (1) Laser resonance ionization technology, (2) Laser-induced rare isotope detection technology, (3) Laser-induced plasma analysis technology, (4) Microparticle analysis technology by using ion trap, (5) Laser induced remote sensing technique. As a result a monitoring system for photoionized product is developed and the test of system is performed with Sm sample. The rare isotope detection system is designed and a few key elements of the system are developed. In addition a laser-induced plasma analysis system is developed and samples such as Zircaloy, Zinc-base alloy, rock samples are reasonably analyzed. The detection sensitivity is identified as good as a few ppm order. An ion trap is developed and microparticles such as SiC are trapped inside the trap by ac and dc fields. The fluorescence signals from the organic dyes as well as rare earth element which are absorbed on the microparticles are detected. Several calibration curves are also obtained. In the field of laser remote sensing a mobile Lidar system is designed and several key elements are developed. In addition the developed system is used for the detection of Ozone, NO{sub
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Citation Formats
Cha, Hyung Ki, Song, K S, Kim, D H, Yang, K H, Jung, E C, Jeong, D Y, Yi, Y J, Lee, S M, Hong, K H, Han, J M, Yoo, B D, Rho, S P, Yi, J H, Park, H M, Cha, B H, Nam, S M, and Lee, J M.
Development of ultrasensitive spectroscopic analysis technology.
Korea, Republic of: N. p.,
1997.
Web.
Cha, Hyung Ki, Song, K S, Kim, D H, Yang, K H, Jung, E C, Jeong, D Y, Yi, Y J, Lee, S M, Hong, K H, Han, J M, Yoo, B D, Rho, S P, Yi, J H, Park, H M, Cha, B H, Nam, S M, & Lee, J M.
Development of ultrasensitive spectroscopic analysis technology.
Korea, Republic of.
Cha, Hyung Ki, Song, K S, Kim, D H, Yang, K H, Jung, E C, Jeong, D Y, Yi, Y J, Lee, S M, Hong, K H, Han, J M, Yoo, B D, Rho, S P, Yi, J H, Park, H M, Cha, B H, Nam, S M, and Lee, J M.
1997.
"Development of ultrasensitive spectroscopic analysis technology."
Korea, Republic of.
@misc{etde_595400,
title = {Development of ultrasensitive spectroscopic analysis technology}
author = {Cha, Hyung Ki, Song, K S, Kim, D H, Yang, K H, Jung, E C, Jeong, D Y, Yi, Y J, Lee, S M, Hong, K H, Han, J M, Yoo, B D, Rho, S P, Yi, J H, Park, H M, Cha, B H, Nam, S M, and Lee, J M}
abstractNote = {For the development of the laser initiated high resolution, ultra sensitive analysis technology following field of researches have been performed. (1) Laser resonance ionization technology, (2) Laser-induced rare isotope detection technology, (3) Laser-induced plasma analysis technology, (4) Microparticle analysis technology by using ion trap, (5) Laser induced remote sensing technique. As a result a monitoring system for photoionized product is developed and the test of system is performed with Sm sample. The rare isotope detection system is designed and a few key elements of the system are developed. In addition a laser-induced plasma analysis system is developed and samples such as Zircaloy, Zinc-base alloy, rock samples are reasonably analyzed. The detection sensitivity is identified as good as a few ppm order. An ion trap is developed and microparticles such as SiC are trapped inside the trap by ac and dc fields. The fluorescence signals from the organic dyes as well as rare earth element which are absorbed on the microparticles are detected. Several calibration curves are also obtained. In the field of laser remote sensing a mobile Lidar system is designed and several key elements are developed. In addition the developed system is used for the detection of Ozone, NO{sub 2}, SO{sub 2}, etc. (author). 57 refs., 42 figs.}
place = {Korea, Republic of}
year = {1997}
month = {Sep}
}
title = {Development of ultrasensitive spectroscopic analysis technology}
author = {Cha, Hyung Ki, Song, K S, Kim, D H, Yang, K H, Jung, E C, Jeong, D Y, Yi, Y J, Lee, S M, Hong, K H, Han, J M, Yoo, B D, Rho, S P, Yi, J H, Park, H M, Cha, B H, Nam, S M, and Lee, J M}
abstractNote = {For the development of the laser initiated high resolution, ultra sensitive analysis technology following field of researches have been performed. (1) Laser resonance ionization technology, (2) Laser-induced rare isotope detection technology, (3) Laser-induced plasma analysis technology, (4) Microparticle analysis technology by using ion trap, (5) Laser induced remote sensing technique. As a result a monitoring system for photoionized product is developed and the test of system is performed with Sm sample. The rare isotope detection system is designed and a few key elements of the system are developed. In addition a laser-induced plasma analysis system is developed and samples such as Zircaloy, Zinc-base alloy, rock samples are reasonably analyzed. The detection sensitivity is identified as good as a few ppm order. An ion trap is developed and microparticles such as SiC are trapped inside the trap by ac and dc fields. The fluorescence signals from the organic dyes as well as rare earth element which are absorbed on the microparticles are detected. Several calibration curves are also obtained. In the field of laser remote sensing a mobile Lidar system is designed and several key elements are developed. In addition the developed system is used for the detection of Ozone, NO{sub 2}, SO{sub 2}, etc. (author). 57 refs., 42 figs.}
place = {Korea, Republic of}
year = {1997}
month = {Sep}
}