Jae Hwa Ryu scite author profile

A number of oxygen vacancies were found in the MgO film when a nanoscale-metal embedded MgO film (MgO/nanoscale metal film/MgO) was exposed to a pulsed KrF excimer laser. This was due to the interfacial reaction between embedding nanoscale metal and MgO film. In a case of Nb embedding metal, the Nb 2 O 5 crystallites were evidenced to proceed the reaction at the MgO/Nb interface; 5MgO + 2Nb f Nb 2 O 5 + 5Mg + 5V O 3 3 . The oxygen vacancies formed the F centers in the MgO bandgap, resulting in high cathodoluminescence intensity at the 431 and 526 nm region, corresponding to F + and F centers. The F centers in MgO played a role in increasing secondary electron emission coefficient (γ). As several kinds of nanoscale metals for creating F centers (Cr, Ti, V, In, Ta, and Nb) were embedded into MgO film, the γ values were found to be inversely linear with the ΔG f for the formation of metal oxides. The Nb embedded MgO film showed the highest γ value of ∼0.232 compared with normal MgO film (0.034).

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Degradation Mechanism of Secondary Electron Emission in Plasma-Exposed MgO Films

Kim

Lee

et al. 2009

jjap

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Degradation mechanism of secondary electron emission (SEE) properties in plasma-exposed MgO films was studied using three types of plasma ion; He þ , Ne þ , and Ar þ . As the mass of impinging ions increased from He þ to Ar þ , the SEE coefficient () of MgO decreased from 0.0227 to 0.0175. Synchrotron radiation photoemission spectroscopy revealed that the Mg-to-O ratio significantly decreased from 1.00 to 0.79 in He plasma, to 0.73 in Ne plasma, and to 0.66 in Ar plasma. This was due to the preferential sputtering of Mg atoms by the highmass ions, leading to the production of Mg vacancies (V centers) near the surface of MgO and the decrease in .

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P‐56: Characteristics of Triangular Color pixel Arrangement TCA Structure AC Plasma Display Panel with Fine Pixel Pitches

Kim¹,

Choi²,

Ahn³

et al. 2003

Symp Digest of Tech Papers

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The static and dynamic characteristics of Triangular Color pixel Arrangement TCA structure Alternating Current Plasma Display Panel AC PDP were observed with the variation of the discharge gas. We observed the characteristic changes of operation voltages, brightness and luminous efficacy with required addressing time for TCA structure AC PDP. And the performance was verified in a 42‐in. diagonal WXGA PDP of 1024×768 format.

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Jae Hwa Ryu

A human infection of Echinostoma hortense in duodenal bulb diagnosed by endoscopy

10.2: A Controlled Lateral Volume Discharge for High Luminous Efficiency AC‐PDP

Enhanced Secondary Electron Emission in Nanoscale Thin Metal Containing MgO Film: Laser Irradiation on Creation of F Centers

Degradation Mechanism of Secondary Electron Emission in Plasma-Exposed MgO Films

P‐56: Characteristics of Triangular Color pixel Arrangement TCA Structure AC Plasma Display Panel with Fine Pixel Pitches

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