Title :
Large area line beam formation in Nissin ion doping system for TFT LCD fabrication
Author :
Andoh, Yasunori ; Inouchi, Yutaka ; Konishi, Masashi ; Tatemichi, Jun-ichi ; Tanaka, Hideki ; Miyamoto, Naoki ; Matsuda, Yasuhiro ; Maeno, Shu-ichi ; Naito, Masao
Author_Institution :
Nissin Ion Equipment Co. Ltd., Kyoto, Japan
Abstract :
The Nissin ion doping system ID6700 for TFT LCD fabrication uses a large area ion source generating a uniform line beam which irradiates a large glass substrate. A uniform ion beam can be obtained across a large substrate over 600 mm, which is automatically tuned by individually adjusting the heating currents of the three filaments based on the beam profile data taken by a built-in multiple-slot Faraday array. The fraction of hydrogen ions in the beam has been successfully reduced to less than 10% by preventing the hydrogen ion extraction by applying a magnetically retarding configuration in the source plasma. A unique mass separation structure using permanent magnets has been placed close to the beam extraction system of the bucket type ion source to form a purified large area uniform beam to process the large glass substrate with high throughput
Keywords :
current density; doping profiles; flat panel displays; ion implantation; ion sources; liquid crystal displays; particle beam diagnostics; thin film transistors; 600 mm; B2H6; H2-PH3; Nissin ion doping system; TFT LCD fabrication; beam profile data; built-in multiple-slot Faraday array; filament heating current; flat panel displays; glass substrate; hydrogen ion fraction; ion source; large area line beam formation; magnetically retarding configuration; mass separation structure; purified large area uniform beam; uniform ion beam; uniform line beam; Data mining; Doping; Fabrication; Glass; Heating; Hydrogen; Ion beams; Ion sources; Particle beams; Thin film transistors;
Conference_Titel :
Ion Implantation Technology, 2000. Conference on
Conference_Location :
Alpbach
Print_ISBN :
0-7803-6462-7
DOI :
10.1109/.2000.924153
