Cowboy data aq on some ion dynamics with fusor as ion trap
Posted: Fri Jun 22, 2018 5:26 pm
Just a placeholder to get a URL for discussion on some videos I'm waiting to to upload.
More when that's done.
Here's the first one, just the basic setup stuff.
https://youtu.be/_vO0KHkm-Rk
This shows I'm using an old but great GR bridge oscillator signal generator that has real oompf - and is still accurate after all these years - to drive the bottom of the L in a series tuned circuit, with an arbitrary L that just felt about right, driving the capacity of the fusor feed-through and grid. Gets to some decent HV! (no load here)
The second one where I jerry-rig a temporary repair so I can get data.
https://youtu.be/pHOJ04cpcm0
The third one might take till tomorrow, as it's big, and I'll be asking the smart guys here to chime in on interpretation.
The numbers are "interesting".
It'll be here when it gets here: https://youtu.be/DKfnZM0VTlM
Now about that roughly 48 ns delay we see, and the evident bunching (sort of). Any smart guys have an idea/explanation?
All I have are guesses...
More when that's done.
Here's the first one, just the basic setup stuff.
https://youtu.be/_vO0KHkm-Rk
This shows I'm using an old but great GR bridge oscillator signal generator that has real oompf - and is still accurate after all these years - to drive the bottom of the L in a series tuned circuit, with an arbitrary L that just felt about right, driving the capacity of the fusor feed-through and grid. Gets to some decent HV! (no load here)
The second one where I jerry-rig a temporary repair so I can get data.
https://youtu.be/pHOJ04cpcm0
The third one might take till tomorrow, as it's big, and I'll be asking the smart guys here to chime in on interpretation.
The numbers are "interesting".
It'll be here when it gets here: https://youtu.be/DKfnZM0VTlM
Now about that roughly 48 ns delay we see, and the evident bunching (sort of). Any smart guys have an idea/explanation?
All I have are guesses...