Awesome as always. This is probably TH-cam's most underrated channel - Who else could claim they have a chipfab at home *and* is making great TH-cam videos. Keep it up!
Here we go with the underrated comments OK how can something you like be underrated also not alot people are going to be interested in plasma etching so you can only consider something underrated if you are waaay to concern on what other think about you and there is a name for that sort of people.
Thanks Sam for yet another great video with a lot of high-quality info. About working cleanly: I found it to be really difficult to get to an acceptable particle level in a garage. But for proof of principle, it is really not that big of a problem. If you put a lot of devices on a wafer, there is generally always one that works! Cheers.
I work as an equipment engineer performing technical repairs and maintenance on RIE devices, sputtering systems, wafer plating systems, mask aligners, spin and spray coaters, all sorts of vacuum pumps, as well as evaporation deposition as well onto quartz wafers. This is absolutely incredible, Sam. This video on a homemade RIE system is amazing. We also use measurement boards for reading the frequency before and after etching. Your optical spectrometer is something I haven’t used before. The RGA instrument works great for detecting gases and leaks as well. You are brilliant, Sam. Again, outstanding work that you’ve done here.
Dude... I had never heard of you before. I ended up here because I was looking for some explanation of how RIE works and your video just blew my mind. I never thought someone could be that resourcefull. I'll stick around. Thank you so much for the effort you put into this and keep it up!
Been working on multimillion $ etchers for a long time this is cool as hell. You will make a company very happy one day and fill your walls with patents.
Really nice work! Good to hear about some of the intricacies and quirks that you had to work around. A lot of places cover the overview of the process and the successful routes, but it's rare to hear about all the little details and implementation issues that crop up along the way.
Dude, amazing project, amazing video! I'm so happy to have found your channel and I couldn't be more envious about your lab :) Keep up the amazing work!
Outstanding work as always, always a huge inspiration to watch! I had previously assumed RIE would be too complicated, with too many nasty gasses involved, to be done at home. Clearly I was wrong! Surprisingly simple setup and seems very doable as long as you have enough knowledge to e.g. not blow up the pump. Really great stuff :) Is the glovebox just for chemical containment, or does it also double as a clean box (filtered air, etc)? Edit: oh, what's the etch rate like? nm/s?
Thanks i always enjoy when you make a new vid too! Really want an AFM, I tried to buy an ICSPI probe to build a custom controller but they refunded the order I guess because they dont want people doing that. RIE is super doable at home, all the gasses here are safe (SF6, CHF3, CF4), I think its just the ones to etch metals (HBr or Cl2 for aluminum etch) that are really bad. Etch rate is approx. 100nm/min. The glovebox is just a fume hood but i would like to add filters and positive pressure
@@SamZeloof 😂 Haha yeah, I could see them not wanting that. :) Lemme know if you ever want something scanned, happy to help out! I have it pretty permanently setup on my desk now so it's easy to pop a sample on to scan. Where do you go about finding SF6 et al? I suspect my local welding place doesn't carry more esoteric gasses like that :( And that's pretty fast etching all things considered! I assume the depth is mostly limited by how quickly the photoresist is chewed up? Any plans to try DRIE? Bosch process doesn't seem too much extra work, albeit another gas to track down (and probably a lot of nuance in the details, nothing ends up being easy :) )
@@BreakingTaps Is SF6 strictly required? I remember looking through doi.org/10.1117/12.2266715 and there is no mention of it so it might be possible to do without it. It's somewhat easy to synthesize CHF3 and to a lesser extent CF4 using HF. Don't you have a chemistry background? Maybe it's time for another change in your content :P
@@dandan-gf4jk Interesting! Not sure, I'm only vaguely aware of the details to be honest (never looked too closely, assuming it would be too hard to do at home :) ). Will do some reading! And my background is in cell biology, so just enough chemistry to know I'm quite bad at it haha. 😇
@@BreakingTaps Well you're not alone in that thinking as fluorine chemistry isn't exactly the friendliest (especially to an amateur). But a quick look at wikipedia, SM, and patents should give you a good idea about what is possible and what isn't. That said most patents for SF6 required unobtanium catalysts and working with SF4, the alternative being burning stochoimetric amounts of sulfur and elemental fluorine, haha. CHF3 is by far the easiest, I'll give it a go myself and my chemistry background is nonexistent so you should be good.
Not only awesome engineering, but very clear explanation + video content. Sam was right, before the explanation all the hardware was intimidating. After the explanation, far more interesting than intimidating! I love the fact that Sam went into some of the sourcing and build details. I'd be interested in a companion video about how Sam arrived at his design and what the mental and research process for sourcing the hardware and equipment. I imagine a lot was incremental and I'm interested in that process.
Recommend scrubbing the exhaust gas. Heaven forbid somebody gets a good whiff of it. If you're looking for a new project, I think interference lithography might interest you. It can generate metamaterials with features sizes of around 100nm. With multi-beam setups the possibilities are endless. Meta optics are fascinating. You're a super lucky guy to have so much gear! Where do you get it all?
This is your 3rd coolest vid imo. The initial transistor doping and the Op amp will be hard ones to beat, but your editing and focus on reproducibility were on point. Machined parts >> salvaged parts. Makes it feel way more sustainable
@@SamZeloof oh dope! Thanks for saving me some googling! I work in high vac but not the realm of semiconductor. I see all the vendors selling RF stuff and never asked but been curious
6:15 why do some areas of the spectrum look vaguely periodic with ~10nm period? i'm asking because we've seen those patterns before, specifically in a sputtering chamber and I thought it was a spectrometer measurement bug, but you have the exact same thing can it be that diffraction in some thin film is killing certain wavelengths? if so, this layer thickness has to be around 10nm, but I'm not sure which material it would be.
could be either thin film effects of unintended coating on the inside of the FS window interfering with a continuum spectrum from a hot surface, or rovibrational /vibronic coupling in a low temperature discharge where molecules are still present. Basically the electronic transitions in a molecule are coupling to the vibrational modes which are of course also quantized, and getting smeared out in a periodic way because the electron energy levels are splitting. I think this might actually just be nitrogen seen here. Edit: ya it's def an N2 discharge. search for first and second positive systems in molecular nitrogen discharges.
@@Muonium1 the interesting part is that the other similar sputtering spectrum that i was referring to, was specifically measured for hydrogen and it did look very similar, but it was not present with some other gasses. so i'd have assumed it's a black body spectrum filtered by interference pattern, but it would not explain why other gasses don't have it. so yeah, I think your plasma coupling hypothesis is more likely
@@Alexander_Sannikov molecular H2 discharge spectrum should show a very distinct UV continuum and Fulcher bands around 600nm -both from rovibronic coupling-, and the prominent Balmer alpha and beta lines from the dissociated monoatomic excitation.
Have you considered scrubbing exhaust before venting it outside, just to be a good neighbor? Not that you're producing a large amount of gaseous waste but polluting less is always good.
@@SamZeloof That should do OK to break things down pretty well. Simply running your gas through wet NaOH will do a good job at scrubbing HF and other reactive fluorides: NaOH + HF --> NaF + H2O. To take care of F2, adding sodium sulphite will help improve efficiency. Alternately, the use of a solution of Ca(OH)2 has the benefit that it precipitates the fluoride as a harmless CaF2 salt.
Nice setup. I'm actually interested in coming at this from another direction. 3d printing on this scale with various materials using plasma sputtering. Still trying to work out the details on how it would work, and hoping to find some way to do it that doesn't involve doing it in a vacuum.
I've been doing my own research on the chip shortage, and thought surely there is here someone building chips at home here in the states.... Tada 🎉 ! I'm just starting to learn about fab process and your videos are a great help ! I will definitely be visiting your Patreon . Keep up the good work.
I've been browsing through your videos and truly admire your talent and passion. Would love to see more and I'll definitely be contributing to your new patreon. Please keep up the great work and continue to share. Let me know if I can help in any way.
Envious of your entire setup, but I *love* that ‘scope! 🤤 (I’m most envious of your energy level though, as evidenced by the massive amount of work and focus you’ve put into the whole lab! 👍😄) (I was surprised to learn that a diaphragm gauge could be sensitive enough to be accurate at such low pressures. I guess the capacitive sensing can accurately measure very small deflections though. Really interesting too, that you have to use *aluminum* for the chamber. Makes sense because Al2O3 is pretty hard to tear apart, but it never would have occurred to me, as we always used stainless for everything when I used to work on vacuum systems back in the day.)
We need more videos. Just imagine how much funding you would have if you built up this channel with weekly/daily videos. ;) So many things people want to see. Making transistors, etching shapes, mems, mirror coatings, microfluidics, CNTs, the list is endless.
How did an individual youtuber get a Baratron capacitance manometer? I ordered one when I was at Fermilab just a few years ago and I had to sign all sorts of export control documents promising I wouldn't tell Iran and North Korea how to build one.
Did you measure the etching speed? It is usually the point of competition on the industrial RIE machines, wonder how comparable is that. Also, how is the surface uniformity? Had quite a time with spikes on etched surface with GaN, probably Si is much better with that.
Hey that's really impressive !! I'm used to "state of the art" DRIE reactors and I can tell you did a very good job... Well to be honest you should build a gas scrubber to avoid throwing everything into the atmosphere, but otherwise it's much WOW.
I'm just still in awe that a 20 year old is doing all this shit in his garage and is basically doing what a factory of trained workers do by himself. You are seriously a legend and I hope to see future projects on your site! Intel might be shitting their collective pants in a few years if you keep this up.
Damn this is so cool!! One tip for when you are talking to the camera: Have more of your upper body in frame, generally looks better. And then you could include more gesturing. An example would be Tom Scott videos (specifically the language ones). Those are very good.
So, Zilog recently anounced end of Z80 CPU. World need's replacement :) Isn't it good chalenge? What you are doing is just amazing. I hope you are doing well and will show as more details about your new experiments. I love it.
Amazing work. Would you be willing to sell some of your etched silicon specimens? I've been able to look at quite a few finished chips under a microscope, but i'm curious to see what a freshly etched surface looks like.
Sam: "The concept is fairly straightforward..." Sam, in his very next sentence: *proceeds to use at least 12 technical jargon terms I've never heard in my life while describing a ridiculously complex concept that I have zero chance of ever understanding*
When a TH-camr (with all due respect, that you deserve) have a better fab than your university.
Awesome as always. This is probably TH-cam's most underrated channel - Who else could claim they have a chipfab at home *and* is making great TH-cam videos.
Keep it up!
Please share who is making chipfab at home and making bad TH-cam videos! Thanks!!! 🤣
Here we go with the underrated comments OK how can something you like be underrated also not alot people are going to be interested in plasma etching so you can only consider something underrated if you are waaay to concern on what other think about you and there is a name for that sort of people.
Thanks Sam for yet another great video with a lot of high-quality info. About working cleanly: I found it to be really difficult to get to an acceptable particle level in a garage. But for proof of principle, it is really not that big of a problem. If you put a lot of devices on a wafer, there is generally always one that works! Cheers.
How many device do you fit on a wafer in your garage?
This is so incredible ur making ic's in ur garage and it's insane
I work as an equipment engineer performing technical repairs and maintenance on RIE devices, sputtering systems, wafer plating systems, mask aligners, spin and spray coaters, all sorts of vacuum pumps, as well as evaporation deposition as well onto quartz wafers. This is absolutely incredible, Sam. This video on a homemade RIE system is amazing. We also use measurement boards for reading the frequency before and after etching. Your optical spectrometer is something I haven’t used before. The RGA instrument works great for detecting gases and leaks as well. You are brilliant, Sam. Again, outstanding work that you’ve done here.
This guy will singlehandedly solve ongoing the chip shortage.
Only if he gets a lot of other people following his lead!
@@Roxor128I'm in, I got hooked by semiconductor manufacturing
This is ridiculously awesome. Not even at work, our RIE has endpoint detection...nor did I knew that was a thing. Absolutely amazing work
First
First like
lolz!
You have taken the highest seat for yourself
your the man!
Great video! I show it in my grad course every year. It illustrates plasma physics better than any video I found with an actual nanofab etcher.
Companies run out of chips due to shortage
This guy: Imma make my own in the garage
Dude... I had never heard of you before. I ended up here because I was looking for some explanation of how RIE works and your video just blew my mind. I never thought someone could be that resourcefull.
I'll stick around. Thank you so much for the effort you put into this and keep it up!
It's nice to see a new video. I feared you gave up on this.
a man does not simply give up after building a home chip fab.
Been working on multimillion $ etchers for a long time this is cool as hell. You will make a company very happy one day and fill your walls with patents.
being an electrical engineering student and watching Sam is a real inspiration and motivation source
Really nice work! Good to hear about some of the intricacies and quirks that you had to work around. A lot of places cover the overview of the process and the successful routes, but it's rare to hear about all the little details and implementation issues that crop up along the way.
Awesome to see you still working on silicon etching. Your videos are great!.
Impressionnant !👍 Nico from France
alright, how long until you start taking orders? i have some ASIC designs to try out..
Me too need to start to compete with Broadcom and Mellanox (NVidia now)
@me in a couple of years, I plan on doing the same thing as him
Just started to work in a fab and.... all those particles from your breath onto those poor wafers!!!! Aweaome setup! Keep it going!
luckily, garage projects don't require contamination free manufacturing :)
Dude, amazing project, amazing video!
I'm so happy to have found your channel and I couldn't be more envious about your lab :)
Keep up the amazing work!
Outstanding work as always, always a huge inspiration to watch! I had previously assumed RIE would be too complicated, with too many nasty gasses involved, to be done at home. Clearly I was wrong! Surprisingly simple setup and seems very doable as long as you have enough knowledge to e.g. not blow up the pump. Really great stuff :) Is the glovebox just for chemical containment, or does it also double as a clean box (filtered air, etc)? Edit: oh, what's the etch rate like? nm/s?
Thanks i always enjoy when you make a new vid too! Really want an AFM, I tried to buy an ICSPI probe to build a custom controller but they refunded the order I guess because they dont want people doing that. RIE is super doable at home, all the gasses here are safe (SF6, CHF3, CF4), I think its just the ones to etch metals (HBr or Cl2 for aluminum etch) that are really bad. Etch rate is approx. 100nm/min. The glovebox is just a fume hood but i would like to add filters and positive pressure
@@SamZeloof 😂 Haha yeah, I could see them not wanting that. :) Lemme know if you ever want something scanned, happy to help out! I have it pretty permanently setup on my desk now so it's easy to pop a sample on to scan. Where do you go about finding SF6 et al? I suspect my local welding place doesn't carry more esoteric gasses like that :( And that's pretty fast etching all things considered! I assume the depth is mostly limited by how quickly the photoresist is chewed up? Any plans to try DRIE? Bosch process doesn't seem too much extra work, albeit another gas to track down (and probably a lot of nuance in the details, nothing ends up being easy :) )
@@BreakingTaps Is SF6 strictly required? I remember looking through doi.org/10.1117/12.2266715 and there is no mention of it so it might be possible to do without it. It's somewhat easy to synthesize CHF3 and to a lesser extent CF4 using HF. Don't you have a chemistry background? Maybe it's time for another change in your content :P
@@dandan-gf4jk Interesting! Not sure, I'm only vaguely aware of the details to be honest (never looked too closely, assuming it would be too hard to do at home :) ). Will do some reading! And my background is in cell biology, so just enough chemistry to know I'm quite bad at it haha. 😇
@@BreakingTaps Well you're not alone in that thinking as fluorine chemistry isn't exactly the friendliest (especially to an amateur). But a quick look at wikipedia, SM, and patents should give you a good idea about what is possible and what isn't. That said most patents for SF6 required unobtanium catalysts and working with SF4, the alternative being burning stochoimetric amounts of sulfur and elemental fluorine, haha. CHF3 is by far the easiest, I'll give it a go myself and my chemistry background is nonexistent so you should be good.
how long until it can make an stm32 replacement?
Asking the important questions.
it's anytime soon of there is investor 😅😅😅
Not only awesome engineering, but very clear explanation + video content. Sam was right, before the explanation all the hardware was intimidating. After the explanation, far more interesting than intimidating! I love the fact that Sam went into some of the sourcing and build details. I'd be interested in a companion video about how Sam arrived at his design and what the mental and research process for sourcing the hardware and equipment. I imagine a lot was incremental and I'm interested in that process.
CF4 is also used as a low-temperature refrigerant gas (R-14). Large amounts of it are produced as a byproduct of aluminium refining using cryolite.
Recommend scrubbing the exhaust gas. Heaven forbid somebody gets a good whiff of it. If you're looking for a new project, I think interference lithography might interest you. It can generate metamaterials with features sizes of around 100nm. With multi-beam setups the possibilities are endless. Meta optics are fascinating. You're a super lucky guy to have so much gear! Where do you get it all?
Absolutely amazing!
That idea to etch until a certain spectrum line reaches a certain level for consistency seems roughly equivalent to "bake until golden brown".
More like "bake until it smells right"
“Bake until golden brown” seems to be another viable means of endpoint detection by use of optical interferometry to determine feature thickness
this "bake until golden brown" is actually a very frequently used method to endpoint etch process steps :)
Dude that's amasing
Never thought that it is possible to make plasma etching in a garage
This is your 3rd coolest vid imo. The initial transistor doping and the Op amp will be hard ones to beat, but your editing and focus on reproducibility were on point. Machined parts >> salvaged parts. Makes it feel way more sustainable
Whats the RF for? Great content btw, next Applied Science- i can see it now
RF makes plasma
@@SamZeloof oh dope! Thanks for saving me some googling! I work in high vac but not the realm of semiconductor. I see all the vendors selling RF stuff and never asked but been curious
RF = radio frequency
Absolutely wild. Great job and thank you.
great work sam, you remind me of the Applied Science channel...
This boy Will have a great impact in humanity in the future
6:15 why do some areas of the spectrum look vaguely periodic with ~10nm period?
i'm asking because we've seen those patterns before, specifically in a sputtering chamber and I thought it was a spectrometer measurement bug, but you have the exact same thing
can it be that diffraction in some thin film is killing certain wavelengths? if so, this layer thickness has to be around 10nm, but I'm not sure which material it would be.
could be either thin film effects of unintended coating on the inside of the FS window interfering with a continuum spectrum from a hot surface, or rovibrational /vibronic coupling in a low temperature discharge where molecules are still present. Basically the electronic transitions in a molecule are coupling to the vibrational modes which are of course also quantized, and getting smeared out in a periodic way because the electron energy levels are splitting. I think this might actually just be nitrogen seen here.
Edit: ya it's def an N2 discharge. search for first and second positive systems in molecular nitrogen discharges.
@@Muonium1 the interesting part is that the other similar sputtering spectrum that i was referring to, was specifically measured for hydrogen and it did look very similar, but it was not present with some other gasses.
so i'd have assumed it's a black body spectrum filtered by interference pattern, but it would not explain why other gasses don't have it. so yeah, I think your plasma coupling hypothesis is more likely
@@Alexander_Sannikov molecular H2 discharge spectrum should show a very distinct UV continuum and Fulcher bands around 600nm -both from rovibronic coupling-, and the prominent Balmer alpha and beta lines from the dissociated monoatomic excitation.
Hey, Alexander, do you working at Grinding Gear Games? really?
@@alexkart9239 yeah, why?
Have you considered scrubbing exhaust before venting it outside, just to be a good neighbor?
Not that you're producing a large amount of gaseous waste but polluting less is always good.
Yeah I’d like to build a burn-box, basically pass the exhaust thru a quartz tube that’s at like 1000C and it decomposes everything
@@SamZeloof That should do OK to break things down pretty well. Simply running your gas through wet NaOH will do a good job at scrubbing HF and other reactive fluorides: NaOH + HF --> NaF + H2O. To take care of F2, adding sodium sulphite will help improve efficiency. Alternately, the use of a solution of Ca(OH)2 has the benefit that it precipitates the fluoride as a harmless CaF2 salt.
I always like watching a new video of the styropyro looking guy doing some applied science stuff with plasma vacuum and big science gear
If this doesn't work out, you could switch goals to laying down teflon coatings on frying pans.
Yes! This is SUPER exciting, can't wait to see what you make in the future!
Nice setup. I'm actually interested in coming at this from another direction. 3d printing on this scale with various materials using plasma sputtering. Still trying to work out the details on how it would work, and hoping to find some way to do it that doesn't involve doing it in a vacuum.
Great video. I'm interviewing for a semifab position doing dry etch and for studding this helped me alot!
How long until you can start competing with TSMC?
Fancy seeing ya here. I think I used to see you commenting on NurdRage's videos back in the day.
@@rakinkazi9780
im subbed to nurdRage so most likely it was me.
Sam you knowledge is incredible
I've been doing my own research on the chip shortage, and thought surely there is here someone building chips at home here in the states.... Tada 🎉 ! I'm just starting to learn about fab process and your videos are a great help ! I will definitely be visiting your Patreon . Keep up the good work.
I've been browsing through your videos and truly admire your talent and passion. Would love to see more and I'll definitely be contributing to your new patreon. Please keep up the great work and continue to share. Let me know if I can help in any way.
Spectacular work as usual 👍
Thank you for give us these amazing videos 👍
So cool, love these videos!
Envious of your entire setup, but I *love* that ‘scope! 🤤 (I’m most envious of your energy level though, as evidenced by the massive amount of work and focus you’ve put into the whole lab! 👍😄)
(I was surprised to learn that a diaphragm gauge could be sensitive enough to be accurate at such low pressures. I guess the capacitive sensing can accurately measure very small deflections though. Really interesting too, that you have to use *aluminum* for the chamber. Makes sense because Al2O3 is pretty hard to tear apart, but it never would have occurred to me, as we always used stainless for everything when I used to work on vacuum systems back in the day.)
SUBSCRIBED AT THE SPEED OF LIGHT
Very cool! So glad to discover your channel!
That’s cool how the magnet interacts with the plasma!
Thank you Sam, I can’t wait for the next video!
that's simply an awesome video. thanks for your effort.
Amazing 👏
We need more videos. Just imagine how much funding you would have if you built up this channel with weekly/daily videos. ;)
So many things people want to see. Making transistors, etching shapes, mems, mirror coatings, microfluidics, CNTs, the list is endless.
Mind blowing
Phenomenal work, and awesome to see a new video/update!
Thats awesome, I just stumbeld upon your channel and I love it!
How did an individual youtuber get a Baratron capacitance manometer? I ordered one when I was at Fermilab just a few years ago and I had to sign all sorts of export control documents promising I wouldn't tell Iran and North Korea how to build one.
I found one in the trash a few years ago.
eBay ;-)
Keep up the good work, Sam.
did you grow your own silicon wafer?
Good stuff man. Keep up the good work
Wow, this really is some serious stuff now. I'm half expecting the next video to be a clean-room ;)
King gizz background music - nice touch👌
always love the Zeloof drops 🌿👽🌿
Not to confuse with drops that Zoloft makes :D
Bro, You are a legend
Very good, Sam! Thank you...🇺🇸 😎👍☕
Отличная работа!
Скажи, ты плазменную установку делал из нержавейки? И можно ли на ней напылять золото на мембраны для конденсаторных микрофонов?
I am very excited to see a real microcontroller from your fab
lol, I wish you luck on that ThorLabs sponsorship. You definitely deserve it.
Did you measure the etching speed? It is usually the point of competition on the industrial RIE machines, wonder how comparable is that. Also, how is the surface uniformity? Had quite a time with spikes on etched surface with GaN, probably Si is much better with that.
Can't wait till we all have one of this in our garages, printing SID chips to resuscitate Commodore 64s.
Sick music! When the plasma moves with the magnets, are the particles flowing or… what?
helpfully,and why you not to continue to update your video
Hey that's really impressive !! I'm used to "state of the art" DRIE reactors and I can tell you did a very good job... Well to be honest you should build a gas scrubber to avoid throwing everything into the atmosphere, but otherwise it's much WOW.
Wow! I wish i know you earlier .Thanks for sharing
Thanks you Sam!
Damn at 500nm essentially already 😂 i wonder how far down you can take this
yep, that's Intel 486 here - very exciting - plenty of stuff which can be useful can be done - that's great
Appreciate your work
Your channle is so under rated
Since this is no clean room.
How do you protect the wafer from the particles ?
Still commendable work.
the plasma universe is awesome
I'm just still in awe that a 20 year old is doing all this shit in his garage and is basically doing what a factory of trained workers do by himself. You are seriously a legend and I hope to see future projects on your site! Intel might be shitting their collective pants in a few years if you keep this up.
Damn this is so cool!!
One tip for when you are talking to the camera: Have more of your upper body in frame, generally looks better. And then you could include more gesturing. An example would be Tom Scott videos (specifically the language ones). Those are very good.
Great geek video. Thank you!
This is so fricking cool
5 years from now this guy will pass Intel. Seems like they are getting there has kicked by everyone. Awesome dude!
Superb information
Great video. Are you a KGLW fan?
So, Zilog recently anounced end of Z80 CPU. World need's replacement :) Isn't it good chalenge?
What you are doing is just amazing. I hope you are doing well and will show as more details about your new experiments. I love it.
dude that's wild. this is in your garage..?
WOW... That's the only word that came to mind.
That is quite impressive equipment.
Have you considered etching a microchannel plate and building your own image intensifier tubes?
I can't tell if you're Styropyros older brother or his younger brother 🤣 Cool ass setup! Super interesting
Amazing work. Would you be willing to sell some of your etched silicon specimens? I've been able to look at quite a few finished chips under a microscope, but i'm curious to see what a freshly etched surface looks like.
Very impressive
I hope you can fix the global semiconductor shortage soon 😁
WOW. OMG where do you get all this stuff, love it! obviously you have a very supportive Dad, fantastic!
Did you measure your IEDFs? Would be interesting to see what they look like
Sam: "The concept is fairly straightforward..."
Sam, in his very next sentence: *proceeds to use at least 12 technical jargon terms I've never heard in my life while describing a ridiculously complex concept that I have zero chance of ever understanding*