Abstract
For the resonance ionization spectroscopy experiment, erbium and samarium were chosen as test elements and their optimum photoionization schemes for trace analysis have been investigated by using multiphoton spectroscopic techniques. With the optimum scheme, the detection limit of various atoms were measured. For the test of laser induced fluorescence system, calibration curves obtained from lead and cadmium standard solutions were made and Pb concentrations of various unknown solutions were determined. By using the developed differential absorption lidar system, backscattering signals from aerosol and ozone have been measured. Error source, error calibration and data interpretation techniques have been also studied. 60 figs, 8 pix, 28 tabs, 30 refs. (Author).
Cha, Hyung Kee;
Suk, Song Kyoo;
Kim, Duk Hyun;
Hong, Suk Kyung;
Lee, Yong Joo;
Lee, Jong Hoon;
Yang, Kee Hoh
[1]
- Korea Atomic Energy Research Institute, Taejon (Korea, Republic of)
Citation Formats
Cha, Hyung Kee, Suk, Song Kyoo, Kim, Duk Hyun, Hong, Suk Kyung, Lee, Yong Joo, Lee, Jong Hoon, and Yang, Kee Hoh.
Development of atomic spectroscopy technology -Development of ultrasensitive spectroscopic analysis technology.
Korea, Republic of: N. p.,
1995.
Web.
Cha, Hyung Kee, Suk, Song Kyoo, Kim, Duk Hyun, Hong, Suk Kyung, Lee, Yong Joo, Lee, Jong Hoon, & Yang, Kee Hoh.
Development of atomic spectroscopy technology -Development of ultrasensitive spectroscopic analysis technology.
Korea, Republic of.
Cha, Hyung Kee, Suk, Song Kyoo, Kim, Duk Hyun, Hong, Suk Kyung, Lee, Yong Joo, Lee, Jong Hoon, and Yang, Kee Hoh.
1995.
"Development of atomic spectroscopy technology -Development of ultrasensitive spectroscopic analysis technology."
Korea, Republic of.
@misc{etde_186432,
title = {Development of atomic spectroscopy technology -Development of ultrasensitive spectroscopic analysis technology}
author = {Cha, Hyung Kee, Suk, Song Kyoo, Kim, Duk Hyun, Hong, Suk Kyung, Lee, Yong Joo, Lee, Jong Hoon, and Yang, Kee Hoh}
abstractNote = {For the resonance ionization spectroscopy experiment, erbium and samarium were chosen as test elements and their optimum photoionization schemes for trace analysis have been investigated by using multiphoton spectroscopic techniques. With the optimum scheme, the detection limit of various atoms were measured. For the test of laser induced fluorescence system, calibration curves obtained from lead and cadmium standard solutions were made and Pb concentrations of various unknown solutions were determined. By using the developed differential absorption lidar system, backscattering signals from aerosol and ozone have been measured. Error source, error calibration and data interpretation techniques have been also studied. 60 figs, 8 pix, 28 tabs, 30 refs. (Author).}
place = {Korea, Republic of}
year = {1995}
month = {Jul}
}
title = {Development of atomic spectroscopy technology -Development of ultrasensitive spectroscopic analysis technology}
author = {Cha, Hyung Kee, Suk, Song Kyoo, Kim, Duk Hyun, Hong, Suk Kyung, Lee, Yong Joo, Lee, Jong Hoon, and Yang, Kee Hoh}
abstractNote = {For the resonance ionization spectroscopy experiment, erbium and samarium were chosen as test elements and their optimum photoionization schemes for trace analysis have been investigated by using multiphoton spectroscopic techniques. With the optimum scheme, the detection limit of various atoms were measured. For the test of laser induced fluorescence system, calibration curves obtained from lead and cadmium standard solutions were made and Pb concentrations of various unknown solutions were determined. By using the developed differential absorption lidar system, backscattering signals from aerosol and ozone have been measured. Error source, error calibration and data interpretation techniques have been also studied. 60 figs, 8 pix, 28 tabs, 30 refs. (Author).}
place = {Korea, Republic of}
year = {1995}
month = {Jul}
}