The Neutristor is an ultra-compact, disposable, neutron generator 1,000 times smaller than the closest competitor, for use in energy exploration, and medical applications. 2012-2665P
For such revolutionary technology, their music sounds like it hasn't been updated since the 80s. I'm not complaining, though. I love it. It gives it a certain nostalgic campiness.
The output is way too small and short lived. You'd be better off with a regular neutron generator and frankly, there are already plans for just such reactors.
they say it doesn't contain radioactive elements, but then they say it uses H-2 (deuterium or idk how it's spelled) which is radioactive as far as i know.. correct me if i'm wrong please edit: i'm wrong
@@stellabckw2033 you get a tritium and a neutron when you smack the two tritiums together so you still end up with it but i guess it decays to deuterium and becomes stable again
How it can emmit nutrons for ever with limited amount of Deuterium in this small pack how it get extra continuous nutrons for long oppression ?? For example Crt can emmit electrons from its cathode for limitless time without being loose its whole electrons because electrons are continuously supplied by power supply and by outer layer of any object ??
It's a short duration 600 volt pulse that boils off deuterium from the "heater" and accelerates them to a target that's variously been described at titanium tritride or titanium deuteride. Personally, I'd have went with a different metal on one part and bumped the acceleration voltage up a couple of orders of magnitude or so and gotten a wee bit higher neutron flux, although at differing thermal levels.
I'm pretty sure deuterium (D) is even rarer than helium (He). So while you can produce He from a D-D reaction, it would be the analogue equivalent of making lead from gold.
From a macroscopic point of view, in all directions, but in any given case, in the opposite direction of the neutron (and much slower) owing to conservation of momentum.
It's not D-D fusion, it's D-D collision. Fusion would create millions of volts and lots of gamma, and anyone that close would be suffering nothing less than a sunburn. However, a source of just a few neutrons such as this could be a fantastic breakthrough where neutron sources are just too damn radioactive to have nearby.
It's a collision followed by fusion....you're fusing two nuclei together and expelling a neutron, this isn't a runaway reaction since it's not triggered thermally, it's a non-equillibrium process.
This does cause fusion, and yes you get a prompt gamma with each reaction. A few hundred of those per second would take days of continuous exposure to be lethal. Nuclear reactions do not depend on quantity, it's a fundamental process.
@@sidewaysfcs0718 not really, just hard to isolate a quark-gluon plasma and keep it that hot. Some thermodynamics law or something about no such thing as a free lunch. ;)
@@sidewaysfcs0718 yep. I'm not an expert but that's what Brian Greene has said in his books - that is quarks and gluons are trapped in their respective hadrons.
@@spvillano If you pull the quarks gluon - quark pairs apart that energy will be used to generate a quark for each of those "isolated" quarks. It's kind of like pulling a rubber band apart.
@@willett786 True to a degree - but the people who have access to the rest of the components of the bomb, already have access to initiators that would cost far less than (massively) scaling up things like this I think.
I worked in electronics for many years, never saw a metal film resistor that didn't have a connection between the connectors. More like an almost spark gap, save that this appears to be more like an electron gun modified to fire deuterium.
Sad. Useless for irradiating anything in bulk, so it's not a substitute for a sealed conventional neutron source or a typical generator. Interesting though.
Thing is, if they can start to fabricate these in bulk and miniaturise further, - possibly even encapsulating the entire product, it may be possible to end up with a layered / stacked device so that devices with 10X 100X output would be attainable. You then just use as many modules as required. I guess though at some point, a more conventional tube design gives a better neutron / cost yield. As you say interesting - and perhaps a technology that will yield more powerful devices at lower cost in the future. In the meantime, recovered radium (reclaimed and part purified from old watch and clock hands) and beryllium powder still gets the job done for tiny output requirements for amateur experimenters like myself.
That's like saying that a single transistor is useless because it won't process your word documents... These things are meant to be used in giant arrays.
For God so loved the world, that he gave his only begotten Son, that whosoever believeth in him should not perish, but have everlasting life. John 3:16, Ephesians 2:8-9, Romans 4:5, Jesus Christ is the only way, KJV....
This was informative and the technology was explained in a way that was approachable for non-physicists.
I put these in my shoes before work in the morning and the benefits have definitely outweighed the negatives
For such revolutionary technology, their music sounds like it hasn't been updated since the 80s. I'm not complaining, though. I love it. It gives it a certain nostalgic campiness.
Seems like you could cross that with a couple other high energy projects that come to mind to make a real solid state regenerator.
So seven years later, is this thing in commercial production yet?
Great question ... government secret I’m assuming
Probably. And NO, you can't have one.
Or, for inserting neutrons into compact fission/fusion devices for fake AMFO events, for instance.
Hi, where can I buy these neutristor?
RadioShack
Online!
They're on back order
Good luck. You would have to be licensed
Can it be used to kick-start chain reaction in U-235 based nuclear reactor?
U-235 can do it automatically by reaching a critical mass. U238 is another story however as that would require an entire reactor.
The output is way too small and short lived. You'd be better off with a regular neutron generator and frankly, there are already plans for just such reactors.
Not U235. Your thinking Pu239 reaction.
Yes
@@ad2181 plutonium (gunea) pig was here
Next breakthrough iphone attachment?
Where can i buy one?
they say it doesn't contain radioactive elements, but then they say it uses H-2 (deuterium or idk how it's spelled) which is radioactive as far as i know..
correct me if i'm wrong please
edit: i'm wrong
I think you meant tritium, or h3, which is radioactive. Deuterium is a stable isotope of hydrogen.
@@bulldogcowwy3959 yep i was wrong. dueterium is in fact a stable isotope of hydrogen :3
@@stellabckw2033 you get a tritium and a neutron when you smack the two tritiums together so you still end up with it but i guess it decays to deuterium and becomes stable again
when two deuteriums hit each other you end up with helium-3 apparently so it's still stable i was wrong about it creating a tritium and and a neutron
On Amazon now.
Hi, where we can send Quote??
03:44 ah, the son of Gary Oldman
Where to get one?
What was the flux off of these?
Don't tell me to flux off please.
How it can emmit nutrons for ever with limited amount of Deuterium in this small pack how it get extra continuous nutrons for long oppression ?? For example Crt can emmit electrons from its cathode for limitless time without being loose its whole electrons because electrons are continuously supplied by power supply and by outer layer of any object ??
2:47 ok it's limited :)
It's a short duration 600 volt pulse that boils off deuterium from the "heater" and accelerates them to a target that's variously been described at titanium tritride or titanium deuteride.
Personally, I'd have went with a different metal on one part and bumped the acceleration voltage up a couple of orders of magnitude or so and gotten a wee bit higher neutron flux, although at differing thermal levels.
@@spvillano The heater is powered with low voltage, while the Anode and Cathode have a high voltage across them.
If you had 1 mole of deuterium, and released 1 neutron per second, how long would that last?
Is this still a thing? The SNL website shows no results.
Sounds like this could be upscaled for helium production if we ever run out of uranium based alpha helium.
I'm pretty sure deuterium (D) is even rarer than helium (He). So while you can produce He from a D-D reaction, it would be the analogue equivalent of making lead from gold.
No music please.
I'm tired of oldtrinos, I want neutrinos!
If you put as target U-238, Will it make Pu-239? How much electricity needs?
Yes, but small amount....
You're better of using Am-241
Couple of giga amps, sorted.
NO. You can NOT have one..
Neutrons produced well. But what about the other products of D-D collision (ex: He3)? Where are they going?
From a macroscopic point of view, in all directions, but in any given case, in the opposite direction of the neutron (and much slower) owing to conservation of momentum.
Couldn't you redirect them w beryllium lensing
@@Blackrain4xmas possibly, but why? The neutron count is brief and low, the helium output would be tiny as well.
deuterium burnup and fusion products should be negligible given the low amount of neutrons these produce
It's not D-D fusion, it's D-D collision. Fusion would create millions of volts and lots of gamma, and anyone that close would be suffering nothing less than a sunburn. However, a source of just a few neutrons such as this could be a fantastic breakthrough where neutron sources are just too damn radioactive to have nearby.
It's a collision followed by fusion....you're fusing two nuclei together and expelling a neutron, this isn't a runaway reaction since it's not triggered thermally, it's a non-equillibrium process.
This does cause fusion, and yes you get a prompt gamma with each reaction. A few hundred of those per second would take days of continuous exposure to be lethal. Nuclear reactions do not depend on quantity, it's a fundamental process.
@@sidewaysfcs0718 which every current artificial fusion reaction is. We can't yet sustain such a reaction, let alone manage to make it runaway.
Gutes video! weiter so
could these produce quarks with fusion amounts of energy perhaps with other elements rather than Deuterium deuterium fusion
Quarks are the heavyweights in a nuclear strong-force reaction, and really require accelerators half the size of Rhode Island to make them.
you have no idea what you're talking about, quarks are confined to hadrons or mesons, they cannot be isolated.
@@sidewaysfcs0718 not really, just hard to isolate a quark-gluon plasma and keep it that hot. Some thermodynamics law or something about no such thing as a free lunch. ;)
@@sidewaysfcs0718 yep. I'm not an expert but that's what Brian Greene has said in his books - that is quarks and gluons are trapped in their respective hadrons.
@@spvillano If you pull the quarks gluon - quark pairs apart that energy will be used to generate a quark for each of those "isolated" quarks. It's kind of like pulling a rubber band apart.
I see, okay I get it, I understand now so we're just around the corner form anti-gravity??? The Jetsons
So it uses dueterium!! What if it runs out by D-D reaction?
I imagine because it is only producing hundreds of neutrons, it will probably consume the deuterium very, very slowly
It’s a $2,000 component. You throw it away and replace it, that’s the whole point.
Yep. Disposable and "cheap".
Or you could have it as an attachment for quadrocopters for whatever.
Deuterium-deuterium fusion reaction. So cold fusion then.
🙏
1.01.... three uses? No, try 4. #4 is Nuclear Weapons.
Detecting fissile material (like Pu pits) maybe. But you sure as hell aren't going to initiate a fission bomb with 10^3 neutrons/sec.
It probably does not produce enough neutrons to serve as an initiator in a fission bomb.
@@donaldasayers Could be scaled?
@@willett786 True to a degree - but the people who have access to the rest of the components of the bomb, already have access to initiators that would cost far less than (massively) scaling up things like this I think.
I think He means breeding plutonium. There's still much easier ways to do that though.
Can't even get a build list?
No
Respect my athoritay
Looks like commercial thin-film resistors to me.
I worked in electronics for many years, never saw a metal film resistor that didn't have a connection between the connectors. More like an almost spark gap, save that this appears to be more like an electron gun modified to fire deuterium.
@@spvillano It is...
Rather difficult to understand andmore, to judge. Most of the comments seem to speak of the device as a 1stApril creation.
No. It's a completely real device, and it works
"...costs about fifty times less." *No, arithmetic doesn't work that way. 'Times' does not make it **_less_** - 'times' makes it MORE.*
hush
@@rxt123gg Who are you? The anti-math teacher?
@@dieselscience who are *YOU* ?
@@awisiejfc4748 I am the one who *KNOWS* how to do math.... and you are?
@@awisiejfc4748 I'm the guy with your mother right now, teaching her that one innumerate kid is one too many.
Sad. Useless for irradiating anything in bulk, so it's not a substitute for a sealed conventional neutron source or a typical generator. Interesting though.
You could use it to fire neutrons at a thorium reactor.
Thing is, if they can start to fabricate these in bulk and miniaturise further, - possibly even encapsulating the entire product, it may be possible to end up with a layered / stacked device so that devices with 10X 100X output would be attainable. You then just use as many modules as required.
I guess though at some point, a more conventional tube design gives a better neutron / cost yield.
As you say interesting - and perhaps a technology that will yield more powerful devices at lower cost in the future. In the meantime, recovered radium (reclaimed and part purified from old watch and clock hands) and beryllium powder still gets the job done for tiny output requirements for amateur experimenters like myself.
Well, there are people (Phoenix LLC in Monona, WI) making glorified Farnorsworth Fusors that do compete with AmBe and Cf sources.
That's like saying that a single transistor is useless because it won't process your word documents... These things are meant to be used in giant arrays.
@@silverfox2358 too low a number of neutrons and let's not even go into their energy level. Better served with a traditional neutron source.
Bad animation. The MeV fusion neutrons fly out MUCH faster.
Well it emitted some stuff and then it went off the screen before you had time to complain about it. Sorry sweaty!!!!
It was accurate, the neutrons just came off of a busy holiday weekend and were dragging a little. ;)
NERD WAR!!!!!
For God so loved the world, that he gave his only begotten Son, that whosoever believeth in him should not perish, but have everlasting life. John 3:16, Ephesians 2:8-9, Romans 4:5, Jesus Christ is the only way, KJV....
what
It's a robot. You're talking to a robot.
It's a robot. You're talking to a robot.
It's a robot. You're talking to a robot.
It's a robot. You're talking to a robot.
Xj
So... why can't these geniuses figure out how to provide free energy as Nicola Tesla had postulated?
What about a Nuetron Phaser weapon.?
Mostly because Tesla was wrong: No such thing exists or can exist.
Fake! 🥳