OK...Lets brainstorm here.
Lets run a magnetron at 2.45 Ghz (1/4 wave at 39mm Appx.)
Run it in TE-10 (Rectangular) , have about Eighteen inches and at the terminal end we set up tuned & highly collemated lasers to form a "Box" continuing on as a free air conduit. If I recall at high F you just need a ' difference in insulating values as the 'air' is at a differ value.
So the conduit is a mere plastic rectangular conduit.
Couldn't as my design shows "containment of my waves marching down...still in TE-10 outside ....All the way to the target??
___Salty air would be ideal as it would become at least a semiconductor--
In the US I couldn't fire up my set-up because the FCC frowns on High power RF flying across someones backyard...but down here I could.
_____________________________________________Rick........
Lets run a magnetron at 2.45 Ghz (1/4 wave at 39mm Appx.)
Run it in TE-10 (Rectangular) , have about Eighteen inches and at the terminal end we set up tuned & highly collemated lasers to form a "Box" continuing on as a free air conduit. If I recall at high F you just need a ' difference in insulating values as the 'air' is at a differ value.
So the conduit is a mere plastic rectangular conduit.
Couldn't as my design shows "containment of my waves marching down...still in TE-10 outside ....All the way to the target??
___Salty air would be ideal as it would become at least a semiconductor--
In the US I couldn't fire up my set-up because the FCC frowns on High power RF flying across someones backyard...but down here I could.
_____________________________________________Rick........
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