That’s an glow mode double layer at 3:30. That’s what’s around every magnetically active heavenly body. It’s all connected by Birkaland currents though usually in dark mode. Congratulations. You came up with the physics of the stars on your desk at home.
I really enjoy seeing these experiments... you can hear the passion and focus while walking us through the setup/experiment. Wish I had a high speed camera to send your way! Of course, I wish a lot of things haha. Looking forward to the next one 👍🏻
Check out how someone is making a Golden Ratio spiral using Tesla coils at specific currents and frequencies. I suspect its a demonstration of Plasma effecting itself through some carefully timed fields. I forget the dudes name but should be easy to find. He can make various types of discharges from the coil using different combinations of frequencies and currents so perhaps looking into it can give a little inspiration for further work as an AC discharge would cause an expanding and collapsing magnetic field to setup conditions where you might be able to produce some interesting effects in controlling the plasma in low pressure. If those dudes can do it in open air I am confident much could be done in low pressure. I always theorized a Fusor without the inner grid and recent looks at these plasma toroid's makes me even more confident in my old assumptions.
Thank you for posting all of this! You are very close to having a Safire reactor type setup! If you do get a high speed camera please have a look at those "sparks" that come off of the Anode and Cathode as some of them seem to change direction in mid flight....This makes me think they may be more than just fragments of heated metal and may be plasma fragment structures comprising of EVOs/micro ball lightnings.....
Look at the Bennet Pinch equation, in fusion reactors they only use high current plasmas which naturally concentrates the beam, the gas inlet/injector is also made very narrow at high gas pressure rates to drive the concentration further BUT, this will EAT the cathode/anode emitter collector, so exotic materials will have to be used, i.e. tungsten, beryllium, iridium etc.
Been thinking about this. Have you tried with iron or ferrite core coils? The impulse from an air core is very short, but if you have something to hold the field a little longer, you might catch it on 2 or 3 frames instead of one. Also a spiral flat wind should give you a better pinch. If you want to stick with air core, look at the flat spiral for telsa coil primaries.
i think you might also be messing with the birkland currents everytime you get a successful pinch, they already have huge potential upon them, and you come along, with a plasma in bottle, swimming in the field of the earth,sun circuit. Nice show thank you for your work.
m3sca1 you are fundamentally misunderstanding what birkland currents are than' it's as simple as that, you need to understand at what scale these interactions are taking place at.....
@@metatron5199 expand your viewpoint. I understand fully the scale upon which the currents are said to exist. Think about how magnetic current likes to move through paths that are easy for it flow through. These materials in the earth carry the flow. Place iron in its path...it's only natural these iron things now become a conduit. Iron and ships and such get de-magnetized but if you make a lump of iron a magnet and place it on the ground when you do that...naturally the field mess that's is the earth (look up the magnetic map of earth) now finds a path and yokes through the iron til it is nullified. Tell me why that would not happen.
m3sca1 your completely not understanding what scale of interactions means clearly.... you needn't take into account the system at hand and it's environment, the scale of the given system is going to inform the scale of interaction upon which it's going to interact with the environment.... birkland currents are currents that are happening at the scale of the planet small little systems like these are rarely affected by anything that large and weak given how large it is.... yes there is always noise from the environment which can throw things off in small systems like this experiment but nothing of any importance for what he is doing, especially given the fact he isn't even preforming any measurements etc i.e. measurements that would require sensitivity to the point where your instrument your doing the measurement is affected by background noise again birkland currents aren't even happening on the earth's surface they are in the magnetosphere, please just learn some basic physics.... you sound like one of those electric universe cranks or worse....
Could you utilize a resistive or Bitter coil rather than the jumbled coil of wire? It can handle the high currents and would produce a more uniform field.
Wow you got knowledge you got a neon looking plasma is there a way to get a stable plasma would you need bigger capacitors or would they fuse out aswell? Wish I could do experiments like this have you built up your own equipment at home to do these experiments hope to see some more videos on this from you in the near future
Very cool project! and what a great channel! I find that epoxy ready mix is far superior for vacuum leaks in rough vacuum systems.. But you have to get a better pump bro! Hey I know how expensive all this can be ... trust me ! Nice work ! keep it up!
I think I'm relativity safe (famous last words). The voltage potential from the electrodes should be at most 6KV due to the pressure I keep the camber at, even though my power supply is capable of much higher, the voltage collapses when the arc is struck. It is not a complete vacuum inside the chamber which should not allow the electrons to accelerate fast enough to create any noticeable amount of x-rays, I place a geiger counter near the chamber. Also, I dont routinely conduct these types of experiments, maybe every month or 2. But I am no expert in x-rays, what do you think? Is shielding necessary at these low exposure levels?
the resistance of the plasma isn't high, you should be using supercapacitors and they can hold that high current like 1KA for a couple of minutes that way you don't need a special camera. Anyways I would actually use a long exposure photo instead of a video to be able to see the flash, get your smartphone and put it on pro mode if its new stuff it should have the feature, turn iso all the way down put the thing on a tripod and a countdown, once the exposure starts, hit the trigger then ideally it will end soon after you hit the button (so a 5-second exposure should be good) to avoid extra blurring effect. Either way would be nice!
so... there's this new experiment that demonstrated fusion in a Z pinch recently could the explosion after switching to the big capacitor bank be a result of an incomplete fusion reaction ? or is it just a short ? very nice content stay curious my dude
Awesome! What is your Hypothesis exactly? It seems to me that the z pinch is a secondary condition that is the result of the star/plasmoid channeling a high current. So either you have to create a star to see a z pinch or you have to create a strong enough magnetic field to create a star. Which came first, the field or the star?
Well the sun is a giant ball of plasma, charged ions, and current is the movement of charged particles. The sun can produce a massive flow of plasma which in turn will produce a very strong magnetic field. So definitely the star.
Guy u so awesome, thanks for all ur detailed work, I definitely recommend u to contact the slo mo guys, heard of 'em?? They have a nice high speed cam and I'm pretty sure that they'll come to u and borrow ur time to make a vid about this fusion phenomenon!!! Stay healthy all of u
That’s an glow mode double layer at 3:30. That’s what’s around every magnetically active heavenly body. It’s all connected by Birkaland currents though usually in dark mode. Congratulations. You came up with the physics of the stars on your desk at home.
I really enjoy seeing these experiments... you can hear the passion and focus while walking us through the setup/experiment. Wish I had a high speed camera to send your way! Of course, I wish a lot of things haha. Looking forward to the next one 👍🏻
Check out how someone is making a Golden Ratio spiral using Tesla coils at specific currents and frequencies. I suspect its a demonstration of Plasma effecting itself through some carefully timed fields. I forget the dudes name but should be easy to find. He can make various types of discharges from the coil using different combinations of frequencies and currents so perhaps looking into it can give a little inspiration for further work as an AC discharge would cause an expanding and collapsing magnetic field to setup conditions where you might be able to produce some interesting effects in controlling the plasma in low pressure. If those dudes can do it in open air I am confident much could be done in low pressure. I always theorized a Fusor without the inner grid and recent looks at these plasma toroid's makes me even more confident in my old assumptions.
Thank you for posting all of this! You are very close to having a Safire reactor type setup! If you do get a high speed camera please have a look at those "sparks" that come off of the Anode and Cathode as some of them seem to change direction in mid flight....This makes me think they may be more than just fragments of heated metal and may be plasma fragment structures comprising of EVOs/micro ball lightnings.....
Look at the Bennet Pinch equation, in fusion reactors they only use high current plasmas which naturally concentrates the beam, the gas inlet/injector is also made very narrow at high gas pressure rates to drive the concentration further BUT, this will EAT the cathode/anode emitter collector, so exotic materials will have to be used, i.e. tungsten, beryllium, iridium etc.
Been thinking about this. Have you tried with iron or ferrite core coils? The impulse from an air core is very short, but if you have something to hold the field a little longer, you might catch it on 2 or 3 frames instead of one. Also a spiral flat wind should give you a better pinch. If you want to stick with air core, look at the flat spiral for telsa coil primaries.
i think you might also be messing with the birkland currents everytime you get a successful pinch, they already have huge potential upon them, and you come along, with a plasma in bottle, swimming in the field of the earth,sun circuit. Nice show thank you for your work.
Birkland currents have nothing to do with the experiment being performed here...
I disagree. Everything on the earth swims in the geomagnetic field. Every lump of iron has a field.
m3sca1 you are fundamentally misunderstanding what birkland currents are than' it's as simple as that, you need to understand at what scale these interactions are taking place at.....
@@metatron5199 expand your viewpoint. I understand fully the scale upon which the currents are said to exist. Think about how magnetic current likes to move through paths that are easy for it flow through. These materials in the earth carry the flow. Place iron in its path...it's only natural these iron things now become a conduit. Iron and ships and such get de-magnetized but if you make a lump of iron a magnet and place it on the ground when you do that...naturally the field mess that's is the earth (look up the magnetic map of earth) now finds a path and yokes through the iron til it is nullified. Tell me why that would not happen.
m3sca1 your completely not understanding what scale of interactions means clearly.... you needn't take into account the system at hand and it's environment, the scale of the given system is going to inform the scale of interaction upon which it's going to interact with the environment.... birkland currents are currents that are happening at the scale of the planet small little systems like these are rarely affected by anything that large and weak given how large it is.... yes there is always noise from the environment which can throw things off in small systems like this experiment but nothing of any importance for what he is doing, especially given the fact he isn't even preforming any measurements etc i.e. measurements that would require sensitivity to the point where your instrument your doing the measurement is affected by background noise again birkland currents aren't even happening on the earth's surface they are in the magnetosphere, please just learn some basic physics.... you sound like one of those electric universe cranks or worse....
got a fix for that camera scanning rate issue - turn the camera sideways and you'd get the whole beam, but not every time.
Terra Invicta brought me here. Cool badass stuff my guy 😎
Could you utilize a resistive or Bitter coil rather than the jumbled coil of wire? It can handle the high currents and would produce a more uniform field.
Wow you got knowledge you got a neon looking plasma is there a way to get a stable plasma would you need bigger capacitors or would they fuse out aswell? Wish I could do experiments like this have you built up your own equipment at home to do these experiments hope to see some more videos on this from you in the near future
thats what i call flash coating. Seems to be much quicker and easier than with a magnetron, perfect finding.
Have you thought of adding a hard clay ball around the bottom just to look at what the scaring would look like?
sounds interesting, i'll try adding that
Very cool project! and what a great channel! I find that epoxy ready mix is far superior for vacuum leaks in rough vacuum systems.. But you have to get a better pump bro! Hey I know how expensive all this can be ... trust me ! Nice work ! keep it up!
You know what killed Marie Curie, right? How much X-ray shielding do you have in your setup?
I think I'm relativity safe (famous last words). The voltage potential from the electrodes should be at most 6KV due to the pressure I keep the camber at, even though my power supply is capable of much higher, the voltage collapses when the arc is struck. It is not a complete vacuum inside the chamber which should not allow the electrons to accelerate fast enough to create any noticeable amount of x-rays, I place a geiger counter near the chamber. Also, I dont routinely conduct these types of experiments, maybe every month or 2.
But I am no expert in x-rays, what do you think? Is shielding necessary at these low exposure levels?
Better to be safe than sorry. What’s the method to check this? Beryllium plate with film behind it?
the resistance of the plasma isn't high, you should be using supercapacitors and they can hold that high current like 1KA for a couple of minutes that way you don't need a special camera. Anyways I would actually use a long exposure photo instead of a video to be able to see the flash, get your smartphone and put it on pro mode if its new stuff it should have the feature, turn iso all the way down put the thing on a tripod and a countdown, once the exposure starts, hit the trigger then ideally it will end soon after you hit the button (so a 5-second exposure should be good) to avoid extra blurring effect. Either way would be nice!
so... there's this new experiment that demonstrated fusion in a Z pinch recently
could the explosion after switching to the big capacitor bank be a result of an incomplete fusion reaction ?
or is it just a short ?
very nice content
stay curious my dude
Awesome! What is your Hypothesis exactly? It seems to me that the z pinch is a secondary condition that is the result of the star/plasmoid channeling a high current. So either you have to create a star to see a z pinch or you have to create a strong enough magnetic field to create a star. Which came first, the field or the star?
Well the sun is a giant ball of plasma, charged ions, and current is the movement of charged particles. The sun can produce a massive flow of plasma which in turn will produce a very strong magnetic field. So definitely the star.
watch out for internal pressure instability. Keep up the cool stuff!!
Thanks, yeah i found out the hard way. Well luckily it was a glass tube inside of a glass jar that exploded.
@@NeutronStudios1 PHEW! glad everything was okay after that!
Now if you added soil, you'll make fulgurites and/or hexagonal craters ;)
Awesome work man. True passion and science. I am curious, which state are you working from?
Hope you are okay!
yeah, im trying to measure the x-ray pulse, if any, from the z-pinch
Amazing...
U of each cap diff
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Guy u so awesome, thanks for all ur detailed work, I definitely recommend u to contact the slo mo guys, heard of 'em??
They have a nice high speed cam and I'm pretty sure that they'll come to u and borrow ur time to make a vid about this fusion phenomenon!!!
Stay healthy all of u