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SLX - SILEX SYSTEMS LIMITED


moosey

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For those that haven't seen this before! this is only one of SILEX,s Irons in the fire but it could be huge.They say they have one of the big chip manufacturers very interested?

this is what it is about I know it's a little old now but I think this is one of the reasons for the recent price rise?

 

NOVEMBER 12, 2003

PREVIOUS NEWS WIRE FEED

Silex Claims Silicon Breakthrough

 

LUCAS HEIGHTS, Australia -- One of the most sought after prizes in the global semiconductor industry ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…¡Ãƒâہ¡ÃƒÆ’‚¬ÃƒÆ’â€Â¦ÃƒƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…âہ“ the demonstration of optical gain in silicon ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…¡Ãƒâہ¡ÃƒÆ’‚¬ÃƒÆ’â€Â¦ÃƒƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…âہ“ has been successfully achieved by Silex subsidiary Translucent Photonics Inc, in Silicon Valley, California.

ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’‚¦ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã¢â‚¬Å“This is a major breakthrough which we believe will have far-reaching implications for both the semiconductor and telecommunications industriesÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚ Dr Michael Goldsworthy, Silex CEO said today. ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’‚¦ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã¢â‚¬Å“To put it in context, TranslucentÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s invention enables, for the first time, the possibility of integrating optical telecommunications and electronic processing in conventional silicon chips. For example, this could make optical ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’‚¹ÃƒÆ’â€Â¦ÃƒƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…âہ“Fiber-to-the-HomeÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ a real medium-term possibility, rather than a long-term dream,ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚ he added.

Many organisations have invested significant effort and resources over the past 25 years in an attempt to achieve this goal. For the first time, optical gain has been demonstrated at room temperature in the same, pure crystalline silicon that is used in the semiconductor industry to make high speed processors such as the PentiumÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…¡Ãƒâہ¡ÃƒÆ’‚¬ÃƒÆ’â€Â¦Ãƒƒâہ¡ÃƒÆ’‚¾ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’…¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ chip. While others may have shown optical gain in the past, it has either been at cryogenic temperatures or in amorphous silicon which is unusable for microelectronics.

After visiting TranslucentÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s laboratory and reviewing the project results, Professor Byer wrote: ÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒÂ¢Ãƒ¢Ã¢Ã¢â€š¬Ã…¡Ãƒâ€šÃ‚¬ÃƒÆ’‚¦ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã¢â‚¬Å“While others have demonstrated optical gain at cryogenic temperatures or in amorphous materials that are not usable for todayÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s electronics, Translucent has demonstrated the first room temperature optical gain in semiconductor-grade silicon. This enables optics to tap into the existing electronics and silicon processing infrastructure."

The Translucent invention has enormous commercial potential because it aims to push low cost silicon into the photonics arena (optical communications technology) for the first time, delivering significant cost and performance benefits. The successful development of TranslucentÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s invention is expected to have broad application in the photonics and semiconductor markets. As previously disclosed, TranslucentÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s scientists have also identified potentially significant spin-off technologies for the mainstream microprocessor industry. Patent applications for the spin-off technology have been filed, and others are currently being drafted.

The Translucent project is part of SilexÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s long-term strategy to bring new, enabling materials to the US$140 billion semiconductor industry. SilexÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s focus is to combine TranslucentÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s optical technology and SilexÃÆâ€â„¢ÃƒÆ’ƒâ€Â ÃƒÆ’¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒ¢Ã¢â‚¬Å¾Ã‚¢ÃƒÆ’ƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¡ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¬ÃƒÆ’Æâ€â„¢ÃƒÆ’ƒâہ¡ÃƒÆ’‚¢ÃƒÆ’¢Ã¢Ã¢Ã¢Ã¢â‚¬Å¡Ã‚¬Ãƒâ€¦Ã‚¡ÃƒÆ’‚¬Ãƒâ€Â¦ÃƒÆ’‚¾ÃƒÆ’â€Å¡Ãƒƒâہ¡ÃƒÆ’‚¢s isotopic silicon technologies to enable significant increases in functionality and speed, and a reduction in heat-load of electronics processors (i.e., integrated circuits) of the type used in the personal computer (PC) and telecommunications industries.

Silex Systems Ltd.

 

Cheers Moosey

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Hi awol, seawind et al,

Yep, it is good to see the price break through the ~95c barrier which has been in existence for a while. Seawind, your comments re 'distant' investors is valid-I've spent a lot of time being preoccupied with this stock-you can lose sight of the general investment world's game at times... Now it is up there (on good volumes) I'm guessing some insto support is occurring. Traders have loved SLX in the past and it now may end up running hard on momentum rather than 'short term intrinsic value' if you understand what I'm getting at.

Awol, I've had a soft spot for the Lions ever since the Bears were formed-underdogs and all. Congrats on correctly picking time delay.

Last year, after SLX fell to 40c, the AFR had an article with a reporter stating SLX was worth anywhere between 40c (its cash position) and $40. I'm hoping the latter is right. That'll help me get to millionaire status http://www.ShareScene.com/html/emoticons/biggrin.gif

Cheers!

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I'm not a true TA-just look at charts to get a feel. My very simple interpretation shows ~$1.50 as a resistance point, possibly with ~$1.19 and $1.28 in between, also. I believe in the SLX story and intend to hold for long term. If positive announcement re partner for translucent technology (expected in ~3-5 months), your guess is as good as mine. SLX has teamed up with strong partners in the past-USEC, Sumco. I expect they're talking to a decent company this time around also. IF they said they had a deal with an AMD or Intel with clear, immediate $ benefits, the price might rocket back to their dot com levels. But it is all purely speculation at this stage.

 

Cheers!

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a look at the weekly shows clearly how little resistance slx faces as it continues its powerful breakout.after minmal resistance at 1.20 area .

next is around the $2.50 area

a great example of why not to daytrade up trending stocks

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