Vaporizing dust during chip manufacturing ?
in [Design]
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From: Skybuck Flying on 26 Jun 2010 17:43 It's a neat idea... maybe it's possible to clean the remaining dust particles that way... with an LHC. There could be a circle representing the LHC. There could be another circle representing airflow from containers passing through the LHC beam... Then the beam hopefully kills of any particles that are in the airflow... The airflow is blown into a chaimber... which is repeatedly blown in circles through the LHC... Until all particles are dead/gone... something like that... Then production starts... Instead of 99.9% chip failures... maybe it would be 0.1% chip failures. Thus it could give enormous yields which would hopefully bring down the cost of chips somewhat... And could also warrent the construction of such an LHC for chip production ! ;) :) Only problem is with "sealing" the beam from outside dirty air... But I guess the LHC guys have that figured out... And if not... then the beam will probably vaporize any dirty air that tries to sneak in anyway... So there only needs to be a tiny little peephole where the LHC's energy beam can go through... It could be so small that it would be very hard for dirty air to slip through... The beam is probably very tiny... so maybe a very tiny airduct/circle has to be made... Which could mean it might take long to make the chaimbar dust particle free.. Then there is also the problem of getting the chips in and out of the particle free chaimber... This should happen in such a way that a minimum of new dirty air slips in... and new wafers can be inputted without too much dirt slipping in... Then somehow all air must be blown around as well... until dust particles and such all vaporized ?!? ;) :) Is it possible ?! Who knows ?! Anybody have a better idea ?!? ;) :) Bye, Skybuck =D
From: Skybuck Flying on 26 Jun 2010 17:50 Personally I was thinking about heat... not necessarily a beam. Maybe the dust particles can be converted too energy by superheating them. Somehow with an easier method... For example a chamber which is heated from the outside... Then hopefully instead it gets so hot that everything vaporizes into even more heat/energy. Then it should just be a matter of cooling the chamber down. And the chamber would be particle free. The problem is now with slipping in material/wafers to start chip production and the rest of the machinery... Maybe these machines could be made of super strong metal/material which doesn't vaporize ?!? The wafers themselfes would also not have to vaporize... but then ofcourse nothing can be done with it except scratching stuff into it... Maybe not so good idea. Maybe wafers can be produced inside the chaimber... Another idea is to zap particles with a laser... like zapping flies... Maybe a tiny little laser could be made which could burn stuff... Another idea: Place the wafer in a chaimber... Blown strong air over it to blown away must of the dust. Place it in another chaimber... while blowing airover it in the opposite direction... Now it's in a more cleaner chaimber... Maybe keeping doing it over and over... Before going to the next chaimber... the chaimber is superheated killing most of the particles. The weafer could then go back and forth back and forth between two chaimbers. One cool chaimber and one hot chaimber and vice versa... The chaimbers are connected to each other... But swapping/flipflopping like this the number of particles can go down and down and down and down until most if not all are dead/vaporized ;) :) Chaimber<-tunnel->Chaimber <---Wafer------> Moving back and forth... ^ Chaimber superheated. Bye, Skybuck.
From: Skybuck Flying on 29 Jun 2010 16:50 I am not sure but this could be interesting: CVD: http://en.wikipedia.org/wiki/Chemical_vapor_deposition I saw it on tv... It seemed to me like it extracted material from the gasses and vaporized it somewhat ? But I am probably wrong... None the less the super diamonds and such could be interesting for chips as well and might be what is needed to provide materials which can survive the strong heat as I imagined it. (Vaporizing the dust, keeping the wafers). Bye, Skybuck.
From: Pieyed Piper on 29 Jun 2010 17:20 On Tue, 29 Jun 2010 22:50:32 +0200, "SkyTard Dying" <IntoTheFuture(a)hotmail.com> wrote: >I am not sure but this could be interesting: > >CVD: > >http://en.wikipedia.org/wiki/Chemical_vapor_deposition > >I saw it on tv... It seemed to me like it extracted material from the gasses >and vaporized it somewhat ? But I am probably wrong... > >None the less the super diamonds and such could be interesting for chips as >well and might be what is needed to provide materials which can survive the >strong >heat as I imagined it. (Vaporizing the dust, keeping the wafers). > >Bye, > Skybuck. > Whatever you say, SkyTard Dying.
From: m II on 29 Jun 2010 18:58
PickledPenisPulser wrote: > Whatever you say, SkyTard Dying. That's hilarious, Archibald. Bringing your tennis rackets over or we just gonna do it all night again? You are so close to Feminine perfection that I hardly know you're a fake from the neck down. mike |