Abstract
Metallic Na was formed in NaCl single crystals with irradiation of a variety of radiation sources and analyzed the physical states with several methods. In the case of irradiation of 21 MeV electron pulses to the crystal blocks, the optical absorption and lifetime measurement of positron annihilation indicated appearance of Na clusters inside. Radiation effects of electron beam of 30 keV to the crystals in vacuum showed the appearance of not only metallic Na but atomic one during irradiation with Auger electron spectroscopy. Intense photon fluxes in vacuum ultraviolet region of synchrotron radiation were used as another source and an analyzing method of ultraviolet photoelectron spectroscopy. The results showed the metallic Na layered so thick that bulk plasmon can exist. (author)
Owaki, Shigehiro;
[1]
Koyama, Shigeko;
Takahashi, Masao;
Kamada, Masao;
Suzuki, Ryouichi
- Osaka Prefecture Univ., Sakai, Osaka (Japan). Coll. of Integrated Arts and Sciences
Citation Formats
Owaki, Shigehiro, Koyama, Shigeko, Takahashi, Masao, Kamada, Masao, and Suzuki, Ryouichi.
Metallic Na formation in NaCl crystals with irradiation of electron or vacuum ultraviolet photon.
Japan: N. p.,
1997.
Web.
doi:10.1016/S0969-806X(97)00009-1.
Owaki, Shigehiro, Koyama, Shigeko, Takahashi, Masao, Kamada, Masao, & Suzuki, Ryouichi.
Metallic Na formation in NaCl crystals with irradiation of electron or vacuum ultraviolet photon.
Japan.
https://doi.org/10.1016/S0969-806X(97)00009-1
Owaki, Shigehiro, Koyama, Shigeko, Takahashi, Masao, Kamada, Masao, and Suzuki, Ryouichi.
1997.
"Metallic Na formation in NaCl crystals with irradiation of electron or vacuum ultraviolet photon."
Japan.
https://doi.org/10.1016/S0969-806X(97)00009-1.
@misc{etde_588374,
title = {Metallic Na formation in NaCl crystals with irradiation of electron or vacuum ultraviolet photon}
author = {Owaki, Shigehiro, Koyama, Shigeko, Takahashi, Masao, Kamada, Masao, and Suzuki, Ryouichi}
abstractNote = {Metallic Na was formed in NaCl single crystals with irradiation of a variety of radiation sources and analyzed the physical states with several methods. In the case of irradiation of 21 MeV electron pulses to the crystal blocks, the optical absorption and lifetime measurement of positron annihilation indicated appearance of Na clusters inside. Radiation effects of electron beam of 30 keV to the crystals in vacuum showed the appearance of not only metallic Na but atomic one during irradiation with Auger electron spectroscopy. Intense photon fluxes in vacuum ultraviolet region of synchrotron radiation were used as another source and an analyzing method of ultraviolet photoelectron spectroscopy. The results showed the metallic Na layered so thick that bulk plasmon can exist. (author)}
doi = {10.1016/S0969-806X(97)00009-1}
issue = {6}
volume = {49}
place = {Japan}
year = {1997}
month = {Mar}
}
title = {Metallic Na formation in NaCl crystals with irradiation of electron or vacuum ultraviolet photon}
author = {Owaki, Shigehiro, Koyama, Shigeko, Takahashi, Masao, Kamada, Masao, and Suzuki, Ryouichi}
abstractNote = {Metallic Na was formed in NaCl single crystals with irradiation of a variety of radiation sources and analyzed the physical states with several methods. In the case of irradiation of 21 MeV electron pulses to the crystal blocks, the optical absorption and lifetime measurement of positron annihilation indicated appearance of Na clusters inside. Radiation effects of electron beam of 30 keV to the crystals in vacuum showed the appearance of not only metallic Na but atomic one during irradiation with Auger electron spectroscopy. Intense photon fluxes in vacuum ultraviolet region of synchrotron radiation were used as another source and an analyzing method of ultraviolet photoelectron spectroscopy. The results showed the metallic Na layered so thick that bulk plasmon can exist. (author)}
doi = {10.1016/S0969-806X(97)00009-1}
issue = {6}
volume = {49}
place = {Japan}
year = {1997}
month = {Mar}
}