Hey! Ben Krasnov (Applied Science) was using a laser diode with internal sensor as interferometer. It's quite impressive how sensitive and precise so inexpensive thing can be. And it works with relatively rough surfaces.
I really appreciate the summary of the year-long process including failures and sharing things that didn't work. It's rare to see and really shows how much work and experimentation goes towards getting that one really cool working demonstration. Also - future content - MLCC (multi-layer ceramic capacitors) exhibit a reasonably strong piezoelectric effect and can be used as a very low cost actuator. It's actually a nuisance effect that causes PCBs to flex and vibrate, acting as a speaker. It would be interesting to see this experiment repeated with those.
@BreakingTaps
2 жыл бұрын
Thanks! MLCC looks interesting, I didn't realize they did that. Will dig into it more, cheers for the tip!
@JoshStLouis314
2 жыл бұрын
I know you don't like uploading incomplete or imperfect videos, but this was still both informative and entertaining. Keep up the excellent work.
@BreakingTaps
2 жыл бұрын
Thanks! It's definitely true, I struggle to publish videos that aren't 100% fully explained, characterized and explained 😅 Slowly getting better about releasing stuff that is interesting but not perfect :)
@JoshStLouis314
2 жыл бұрын
@@BreakingTaps my power is out right now due to storms, but because of your videos, I made a power bank of lithium cells, properly balanced of course, and I'm good for maybe 12-14 hours.
@James02876
2 жыл бұрын
A laser pointer from the dollar store usually includes different lens caps to project a pattern or image. You could use that projection in the laser lever to try to visualize the deformation. Very cool video.
@beachboardfan9544
2 жыл бұрын
Feel like aluminum tig rods with little induction coils to heat them would be more effective and consistent than those resistors.
@Jonathan-ex3sl
2 жыл бұрын
You could also add active cooling so the response time is faster
@cavemandanwilder5597
2 жыл бұрын
@@Jonathan-ex3sl Active cooling could also provide a greater range of lengths by making it possible to shrink the element with cooling.
@amauryr.4049
2 жыл бұрын
@@cavemandanwilder5597Then you could have small aluminum tubes to circulate coolant with induction heaters to expand
@macrumpton
2 жыл бұрын
Why? the resistors are calibrated, and the heat expansion of materials is well understood. How would making it more complicated improve it?
@james2hackett870
2 жыл бұрын
I add to that and use silicon bronze tig wire, instead of alu
@notanimposter
2 жыл бұрын
I wonder if you could use LCD panels or other displays for cheap adaptive optics. I'm always amazed by how hobbyists can leverage the high density addressable matrices of ordinary consumer grade display panels to build the craziest stuff on the cheap.
@bottlekruiser
2 жыл бұрын
Hey, you've got me interested, and i think i've only seen DLP chips iused like this so far Could you provide a couple links/keywords to look into this further?
@jaymead3610
2 жыл бұрын
Small LCD shutters are also quite affordable.
@chrismofer
2 жыл бұрын
@@bottlekruiser oculus has bought a company that stacks LCD panels and polarizers to have a select-able focus for VR purposes. an array of pixels which could dynamically refocus would be amazing, but for long exposures, even just a simple LCD or DLP in the path could turn pixels on and off depending on their current sharpness would probably be majorly useful.
@nict2618
2 жыл бұрын
This is so cool. I'm actually starting my electrical engineering masters with a focus on optics, so this is a really cool experiment. I love setups that don't require $1000 equipment.
@user-qf6yt3id3w
2 жыл бұрын
Using resistors as thermal actuators is something that would never have occured to me. Incidentally could you get better thermal expansion coefficients if you used the resistor to heat something else? E.g. those wax thermal actuators they use in radiators.
@BreakingTaps
2 жыл бұрын
Right?! Super clever but not something I would have thought of either, until I read the paper. I bet those wax actuators (or similar) would work great! Same issues regarding speed, but probably a lot more actuation range and probably a bit more linear too.
@pentachronic
2 жыл бұрын
Bimetalic strips like those used in thermostats would be a better solution. Way more sensitive to heat.
@dfunited1
2 жыл бұрын
@@BreakingTaps I remember a while back, AvE did a lot of testing on the wax actuators. Those things are strong enough that you could probably deform a much more rigid mirror.
@jtcustomknives
2 жыл бұрын
What about that memory wire or muscle wire
@scienceandmathHandle
2 жыл бұрын
You should try some type 2 ceramic capacitors(Like X7R), which have more of a piezo electric effect, and could have speeds in the Mhz, just make sure you bond to them with their stack in parallel with the plate.
@chewbaccabox
2 жыл бұрын
Could you explain this in more detail? I'd love to build a cheap vector laser style display in a new fashion that doesn't rely on galvanometers. I've looked into acouso-optic deflection but piezoelectrics definitely seem like a step in the right direction
@scienceandmathHandle
2 жыл бұрын
@@chewbaccabox Ok, so in piezoelectricity, there are materials which expand in the presence of an electric field. Class II ceramic capacitors can expand on applied voltage, much more than class 1. This normally happens in the axis of the electric field. But the expansion is not much. Its pretty low, like a few Nano-meters. But it also changes with voltage, and capacitance also changes with voltage...Leading to other issues... But unlike this videos example, it is not temperature rate based in terms of thermal dissipation, it is based on applied voltage. So in theory if you mounted a mirror on an array of type II or older capacitors then you could control the deformation of the mirrors very quickly. And mounting is important with most MLCCs having the anodes in parallel with the board they are mounted to, mounting them normally is good, but mounting them sideways will decrease the deflection. It depends if the cross section is square. If it is not then it will not be an issue. Just something to consider. But for anything involving laser vector mapping I would use galvanometers. I have a 200W 3D metal printer based on a Q-switched Nd:Yag laser with galvos that works quite well. And it is very fast at moving the beam! On the order of tens of thousands of degrees per second.
@izzieb
2 жыл бұрын
Always a good day when you upload, as you can ensure you'll learn something interesting!
@AK-gg5nh
2 жыл бұрын
Maybe instead of resistors, nitinol wires might be a better way to deform the mirror, as nitinol reacts to heat very quickly and deforms quite a bit depending on the heat and length of the wire.
@piranha32
2 жыл бұрын
Aside from ceramic caps as piezo actuators, which were already mentioned, magnetostriction could be user to build an agile precision actuator. Solid chunks of magnetic material should simplify building a rigid setup, with minimal unpredictable static deformations, like from the epoxy. For bigger and slower changing displacements you can add heaters to take advantage of thermal expansion.
@ikocheratcr
2 жыл бұрын
My guess is that the PCB flexes more than the mirror when resistors heat up. Also, I wonder when soldering the resistors to the mirror, how much deformation with it end up as solder cools. Solder changes size with temperature, a lot. Maybe, solder to a piece of "flat thin" metal, and once at room temperature, glue the mirror, to avoid stress. Here in my armchair ;), impressed by how easy it is to measure the thermal expansion of a carbon resistor, I need to try it.
@BreakingTaps
2 жыл бұрын
The mirror (just a glass coverslip) is surprisingly flexible. It's only 300um or so thick so you can visible bend it with your fingers. But yeah, I expect the PCB was flexing some as well, stealing some of the actuation range. Note that I used silver epoxy instead of solder to attach the resistors, so there will be some shrinkage from that but not as much as actual solder :)
@astro_che
2 жыл бұрын
as an astrophotographer I really liked this video, would be awesome to see you try tackle more conventional active optics techniques and see if they work in the real world.
@janami-dharmam
2 жыл бұрын
you should try SMD resistors to reduce the heat capacity and the time for response. Also try a smaller array (say 3X3) and current pulses more than 10ms.
@MrLexhoya
2 жыл бұрын
I don't know if it was mentioned already, but if you would mount small glass mirrors (I know, tiny) in between your mounted actuators and then shine laser on those mirrors. Those would be as flat as can be, but your self-made mirror is more used as a platform to change shape accordingly. I dooe it makes sense. Then your 4x4 is a 3x3 grid of mirrors. Cool video by the way, just ended up on my feed. Will check out other videos as well
@nweston5070
2 жыл бұрын
I think you might be able to get a picture of deformation across the whole mirror using a grazing interferometer. They don’t need such a fine surface and you can dial in the measurement range/resolution with the wavelength and grazing angle.
@Diamcreeper
2 жыл бұрын
For the measurements part, I know nothing about optics, but have you considered finding/making something that has a mirror finish to use as the platform? I think you should be able to see some change in the reflection as the platform deforms. In a way it would be the same as you optical lever idea but a lot more visual
@toko617
2 жыл бұрын
Great demo! If you can get your hands on silicon wafers with a layer of silicon nitride (200-1000nm thick) you can make simple electrostatically actuated deformable mirrors. Something like this that from Gleb Vdovin et al A PCB works well for the electrode array. I have made some prototypes for an adaptive optics system for my telescope, need to finish an interferometer to properly characterise the actuators.
@dancollins1012
2 жыл бұрын
wow, sounds interesting. What kind of voltage is required to actuate? If high, would the density of the electrostatic points be limited by the arcing distance between points?
@toko617
2 жыл бұрын
@@dancollins1012 I am using 200V max, which is a limit of the AD5535B DAC I am using. At some point the spacing would be an issue due to arcing. It depends though, because the voltage difference between neighbouring actuators wont be too high for atmospheric turbulance
@EdwardUnthank
2 жыл бұрын
Mount an 8x11” fresnel lens and use these as point mounts to distort the fresnel lens into the strongest focal point. Tada, a self-adjusting solar point magnifier/laser!
@joshroolf1966
2 жыл бұрын
Hehe, interesting..:::🤔
@Ma_X64
2 жыл бұрын
You know, I think if, before the invention of the inkjet cartridge with heating elements, someone would suggest spitting paint by heating resistors, this idea would also seem far from being practical. However, by applying appropriate materials, miniaturization, and well-adjusted control algorithms, engineers have obtained a technology that is not only fundamentally suitable for printing, but also mass-produced. Instead of using resistors as pushers, pretension can be applied, and then heating the element will lead to a weakening of that pretension. This should give greater accuracy and uniformity of movement, because using pushing the elements are likely to be bent, which leads to abrupt changes in the coordinate of the controlled point and uneven characteristics.
@EhrenLoudermilk
8 ай бұрын
What a wild concept. I would have never thought to change the shape of the reflector. So many applications for this.
@eelcohoogendoorn8044
Жыл бұрын
This is a cool idea. If you ever revisit it; would it make sense to first solder the wires onto a platform, and then to glue a thin mirror on top with a low-shrinkage epoxy? That should give a fairly flat starting point I think. It might stiffen the top a bit the board below does not have infinite stiffness either. While you are mixing epoxy anyway it might make sense to cast the base into a sand-epoxy mixture because if it significantly deflects on both sides it will be much harder to achieve a target output shape.
@CraftMine1000
2 жыл бұрын
This makes me smile, it's so simple and elegant, yet also archaic at the same time xD
@brookestephen
2 жыл бұрын
W O W - I imagine building a larger-than-normal ground-based telescope that packs up small, but shapes it's mirrors when it's set up. This is brilliant!
@tom7
2 жыл бұрын
“The reason for that is … the whole thing is pretty sketchy.” Relatable!
@BreakingTaps
2 жыл бұрын
I always start out with intentions of doing things cleanly and professionally... then ends up pure jank like this 😂
@zumdar
2 жыл бұрын
Wow very coool!! Im wondering if you could use something like a DLP projector but backwards to achieve the same thing? They use this special DMD (digital micromirror device) chip which is an array of tiny mirrors to create an image for the light to bounce off and go through the lens. But what if you did that backwards? Took light from the lens, deformed it with the dmd chip and then used a sensor to pick up the mirror deformed reflected light.
@robinhodgkinson
2 жыл бұрын
The ESO space telescope is using a deformable mirror to compensate in real time for thermal distortions in the atmosphere. Atmospheric distortion is one of the big problems with high resolution earth based telescopes. Instead of a “wavy wobbly” view, the mirror is bent and buckled at high speed to compensate and produce a much clearer cleaner image. Engineering like this blows my mind - I should have been an engineer like my father and brother! Somehow I became a photographer (who loves building things). I blame my creative mother. Lol.
@AstroCharlie
2 жыл бұрын
This is a really cool approach to bring this technology into the hobbyist realm! I'd love to see amateur astronomy get access to deformable mirrors one day...
@BreakingTaps
2 жыл бұрын
Agreed! I'm not sure if the thermal mechanism would ever be usable enough for astrophoto, but after working on this I could see an electromagnetic option being viable. Pretty low cost and easy enough to control. The wavefront sensor is probably the hardest thing, needing a high-quality microlens array. But all sounds doable!
@petevenuti7355
2 жыл бұрын
@@BreakingTaps Has anyone done a video on how wavefront sensing really works on the hardware level? All I've heard is that they bounce a laser off the Carmen line. Converting that artificial star spot into mirror movements still seems like black magic.
@LesLaboratory
2 жыл бұрын
This is cool in its simplicity! I reckon that you could use it for stabilizing optics assuming the changes required are slow. It would be interesting to see if SMD resistors could be bonded to the glass vertically in a large array and do some even more cool stuff with it!
@BreakingTaps
2 жыл бұрын
I bet SMDs would work really well! Would probably have to place them by hand, not sure you could convince a PnP to do it... but it'd be a lot more neat and tidy than my abomination 😅
@petevenuti7355
2 жыл бұрын
@@BreakingTaps why not a copper mirror? Polish one side of a double sided PCB to be a mirror *after* components were soldered/bonded to the other. If that works, then silver coat .
@LesLaboratory
2 жыл бұрын
@@BreakingTaps it's not an abomination when you can call it "Proof of concept" 😜
@VictorLarsen-fy9ls
2 жыл бұрын
If the mirror quickly changes its shape, this will lead to heating of the mirror material itself and damage to the mirror material from mechanical fatigue, and the mirror can also expand and change its shape from heating. Also, if you want to use heat to deform the mirror, then it is necessary that the minimum temperature be low, then it will be possible to obtain a large temperature difference and more expansion of the material. You can try rods made of vinyl, thick fishing line. Vinyl has a high expansion coefficient and artificial muscles are made from it that contract from heating-cooling.
@auxchar
2 жыл бұрын
Now you've got me thinking about using resistors to actuate one of those flexture XY stages
@stezz90
2 жыл бұрын
Very clever design! Maybe setting the zero-point at temperature higher than ambient (for faster cooling) and using some kind of feedback to drive the resistor at the required temperature faster can maximize the performance of this setup. I'm thinking about Constant Temperature Anemometers principle of operation for the temperature feedback.
@BreakingTaps
2 жыл бұрын
Ah that's clever! Yeah I think hovering in the middle would help with responsivity a lot. Might even be able to get away with a surface mount temp sensor right near each resistor, and might be able to use SMD resistors standing upright too? Would make the whole setup cleaner and less variable
@hamjudo
2 жыл бұрын
@@BreakingTaps All resistors also act as thermistors to some degree. So the sensor and actuator can be the same element. The voltage drop across a diode varies with temperature, and probably gives a much stronger and thus easier to measure signal. Silicon diodes have a relatively low voltage drop. Light emitting diodes have higher voltage drops. LEDs also look much more interesting in operation.
@erok268
2 жыл бұрын
Dude, are you familiar with wax motors(basically thermal actuator)? I feel like they/an iteration of that concept would be easier I believe. If they were significantly smaller cooling down and heating up would be much faster if the cylinders were in a cooling tank
@BreakingTaps
2 жыл бұрын
Yunno I was vaguely familiar with them before, but it never ocurred to me for an application like this. That'd probably work well! Or at least some kind of actuator based on that design, even if it ended up bespoke.
@z4zuse
2 жыл бұрын
Bigclive did a teardown of one recently
@erok268
2 жыл бұрын
@@BreakingTaps yeah I do know they pack quite a bit of force for their size. I think it'd be worth looking into for a fun concept. I'm not sure if there is an off the shelf version small enough but the concept is basic enough. And again if they were being cooled and had resistors like you had already for the heat to enable the motors movement I would bet that it would be more controlled and quick. Anyways just had that thought!
@ShopperPlug
2 жыл бұрын
This is cool, reminds me about digital micromirror devices, but your example is literally using thermodynamics for modulation, would be interesting how it could be applied with the help of MEMs. This type of tech can be really useful, it has many advantages, first is it's low cost, I think thermal modulation could provide longer lifetime service and it can also be applied to focusing optics/lasers or any objects to a fixed position which doesn't require fast modulation.
@gymprofessor329
2 жыл бұрын
You could do the same with big ceramic caps and the piezoelectric effect! Maybe solder them between two pcbs?
@BreakingTaps
2 жыл бұрын
Ooh that's a clever idea, gonna look into that!
@meloney
2 жыл бұрын
Your video gave me hope that in 10 or 15 years or so we get consumer grade telescopes with deformable mirrors. Thank you! Also I hope that the next generation of earth bound telescopes use this technology.
@smellsofbikes
2 жыл бұрын
This is so cool. Well, okay, warm, but you know what I mean. This is a great project.
@BreakingTaps
2 жыл бұрын
😂 Thanks! ♥
@dinomonaco2665
5 ай бұрын
Wow. When I came across your video I got excited. Being an amateur astronomer, I always thought how great it would be to have an adaptive deformable system available for the amateur market. Nice effort though.
@fazergazer
2 жыл бұрын
The correction of slow aberrations sounds interesting. I’ll go read the literature. You could make an optical system then make a custom deformable corrector plate. Wonder if it will handle higher order spherical aberrations, etc.
@oasntet
2 жыл бұрын
This is a pretty good initial POC; you seem to have at least shown that deformation is possible, even if it's not easy to measure. One next step might be to have a PCB made with a grid of surface-mount resistors; they'll be much smaller and much more even, and you could even lap or grind them to make them flatter before binding the mirror directly to them... You don't even need SMD skills if you have the board populated for you, and the pick & place machine will probably be way more even and consistent than you could do by hand.
@YuriyMironenko
2 жыл бұрын
Thermal expansion is proportional to the length. So, it's _important_ that this resistors are 10-15mm long. SMD resistors will have what? 0.5-1mm or even less in the vertical dimension? So effect will be 10x-30x times weaker.
@MrBleulauneable
2 жыл бұрын
Have you heard about self-mixing interferometry ? There's a really nice video about it on the Applied Science channel and it seems fairly easy to setup. Self-mixing interferometry allows you to measure sub-micron displacement using a bit of electronic and a simple laser diode, I think it would work really well for measuring the displacement of your mirror.
@BreakingTaps
2 жыл бұрын
Will look into it closer! I recall seeing Ben's video on it but it's been a long time, and I had totally forgotten about it.
@PeterMilanovski
2 жыл бұрын
This is fascinating! What voltage and current is across a resistor while heating? Resistors mounted on a PCB with short lead lengths theoretically would be pulling and pushing against the copper traces that it's soldered to and eventually end up with what's commonly known as dry solder joints in electronic equipment which leads to equipment failure or induced noise.... And we thought that capacitors were the main trouble maker! I might have to consider using the whole lead lengths of resistors to allow for resistor movement.... Interesting stuff indeed..
@vdx4616
2 жыл бұрын
... another pretty cool methode for hobbyists/DIY for deforming mirror-surfaces is a grid of small solenoids below a thin puddle of ferrofluid and a membrane-mirror floating on top of the ferrofluid -- here you'll deform the surface simply by controlling the current per solenoid ;)
@kenstr321
2 жыл бұрын
They tried using these on the aircraft born laser that was mounted in the nose of a plane. It kinda worked, but had a very limited operational range... like 5 miles. Even with adaptive optics the amount of both atmospheric distortion and horizontal lensing are so high even a highly focused dry chem laser can't keep it's beam together long enough to defeat targets more than 10 miles away.
@1337GameDev
2 жыл бұрын
Hmm, for measuring, can't you use a kind of high resolution projector, and focus it onto the mirror and then to a wider collector? Then have the projected image be some kind of alternating pattern, and then measure this using image processing? I feel laser mice circuitry could work well for this (they do this exact method to determine movement).
@satchell78
2 жыл бұрын
Was wondering why you haven't had any new stuff. Looking forward to more next level experiments.
@erikschiegg68
8 ай бұрын
You could experiment with metals with different expansion coefficients between the resistors and the mirror to increase deformability.
@zombieregime
8 ай бұрын
Some thoughts: Use 5 points, 4 corners and center. Use a shaft material with a high thermal expansion coefficient. Use an adhesive with more elasticity, the epoxy could be causing an issue with mobility, then again that may be of benefit once the actuation issue under control (possibly use epoxy on the center but plyible on the others?). Use tiny peltier devices on each shaft like the ones found inside the old Kinect devices for the xbox 360 behind the IR laser, this will allow you to heat AND cool the shaft material. Perhaps on the corners use ribbons of material as shafts to allow better coupling of the peltiers, mount the shafts at 45deg to the corners. To just test the actuation and steering the mirror go with flat shafts in a bix 3/4 to 2/3 the size of the mirror square parallel to the sides. It will only explore pan tilt and piston for motion, but it should also help explore compliance of the bonding material for the perpendicular flat shafts. And will give you a better idea of what level of actuation to expect. Thats just my unsolicited 2 cents on the topic. If I didn't already have a number of irons in a hand full of fires, this is interesting enough to fiddle with myself...alas, I am but a prisoner of my own procrastination 😅 All of that aside, another cool video, mate! Keep on keeping on! 😎👍
@wonjez3982
8 ай бұрын
It is slow, but probably one of the smoothest transitioning mechanisims for such a task. So if there's a need to produce a smooth (probably nonlinear) delta in elevation, this would be the way to go. Lightshows might be an idea, but then again it's probably easier to increase the resolution and use mechanical actuators
@profdc9501
2 жыл бұрын
Perhaps making a thin PCB with SMT resistors on the back of it, and glue the PCB to a thin first-surface glass mirror. A heat gradient across the surface should cause it to curl. You could even add temperature sensors on the PCB to provide some sort of closed loop feedback. Perhaps I should try this...
@davidgustafik7968
2 жыл бұрын
Thermal actuators or adjustments for optics are actually used in some stabilized HeNe lasers. Also, wouldn't the PCB deform far more than the mirror? One side should be really stiff as I understand it, otherwise you would get a thermally adjusted PCB?
@BreakingTaps
2 жыл бұрын
The coverslip is very thin (around 300um) so it's surprisingly flexible, compared to the protoboard. But yeah, I expect the substrate is probably deflecting some as well, stealing a bit of the actuation range. The paper used a much more rigid setup, placing the PCB directly against a machined fixture thing
@LuisCerrada
2 жыл бұрын
Intersting project, I think it's the same principle used inside DMD chips from video beam projectors
@friskydingo5370
19 күн бұрын
Super cool. Maby using nitinol on bigger mirrors could be an option 😊👍
@jimsvideos7201
8 ай бұрын
Eddy currents. At 1 MHz with a 1/8" or 1/16" probe (or array thereof) you could probably get useful non-contact measurements.
@lesliespeaker668
2 жыл бұрын
This immediately let me think of cold solder joints. Whether this effect can be strong enough to create them and in that case if there are soldering techniques to prevent this from happening.
@engineeringentropy8965
2 жыл бұрын
You are a monster for not soldering all of those resistors in the same orientation..
@BreakingTaps
2 жыл бұрын
😇
@Xaerorazor0
2 жыл бұрын
One more item why we don’t want to use a resistive unit on a research telescope, it generates heat. We can watch the heat caused turbulence off of the optical train when trying to collimate the telescope, or using a live feed camera while tracking. This is also the reason most telescope domes are painted white with impregnated TiO2, to reflect IR.
@SardiPax
2 жыл бұрын
I would think another problem with thermal actuators is that they would be significantly affected by ambient conditions, plus there would be a need for thermal isolation between actuators. I'm sure there must be an application that they would suit but not sure what. Perhaps a high G environment.
@BreakingTaps
2 жыл бұрын
Ah yeah, that's definitely a potential issue! Hadn't even thought about that aspect :)
@dancollins1012
2 жыл бұрын
Superb video, excellent topic. Here's an idea: fix the heating elenents to a small platform with a low thermal expansion coefficient, and then the mirror on the other side of that. Rather than distorting the mirror, it would just tilt it. With enough hexagon shaped mirrors controlled in this way, an image could be formed ala JWST. There may be some choice of material and geometry that could speed up the thermal movement - think bimetal coils used in passive temperature dials
@bellybutthole
2 жыл бұрын
Man you never disappoint with your diverse content of principle based videos! Good luck with your moving, I'm too, so I know how you feel:)
@pauloshikoy5068
2 жыл бұрын
Hi, good job man. Have you ever thought about using shape memory alloys? possibly something to check. Keep up the videos that are very good, something hard to find these days with this generation of TikTok. Using a thermal camera to view the resistors firing would also be really cool. Good job.
@DasIllu
2 жыл бұрын
I just had a stupid idea. Dunno if that even has a practical application. But what is you use a pure silver sheet as mirror and paint the backside black. Next step is to scan the the back of the mirror with a decent enough laser to introduce thermal expansion in the silver itself. All the while a fan blowing abient temp air over it to increase the reaction time. I guess the local displacement would be extremely hard to measure. And UV laser interferometrie sound like Kentucky Fried Eyeballs to me 😀
@a6dulsalam511
2 жыл бұрын
Did I just found a treasure at this channel? Great video and very informative and interesting subject I've never heard of. Keep this kind of videos up. Hope the best for you ⚡
@tracygilmore7983
2 жыл бұрын
The Resistor heated and expanded - check. Now how much heat was transferred to the mirror and then to the gauge prob to interact with their coefficient of expansion? When I'm making a part and chasing nuts-on, I always take a bit of a break before final pass/spring pass. wondered if you just didn't include that due to run time or what. You're really good at what you do, I'd like to know so I can apply to silly stuff I do. Thanks.
@CppExpedition
8 ай бұрын
Genius genius ❤❤❤❤ this has los of applications
@Ziraya0
2 жыл бұрын
re: suitablility for use in the last section, this seems like it could be a pretty good low cost way to make good quality flat mirrors with reduced precision in manufacturing, as long as you can measure the flatness. I don't entirely know what the application of this is but maybe it's useful as a low cost alternative in CO2 laser cutters, or for experimental optical systems where you could repurpose an adaptive mirror module between a series of iterations, configured to produce whatever topography is needed instead of buying new custom curvature mirrors each time
@euzimeumesmo
8 ай бұрын
Now increase the scale and use mirrors that are sold in motorhome stores, they are thin and flexible and at an interesting low cost for this project, you can make an adaptive telescopic reflector using this system.
@pixelpatter01
2 жыл бұрын
I love the idea, thanks for sharing your explorations. One problem you didn't mention was the heat from the resistor travels up and down the copper wires and into the ground plane and then into the mirror. Perhaps a better plan would be to have the resistor attached to the mirror backplate with a glass or fused quartz short rod that will transmit the thrust but not the heat?
@BreakingTaps
2 жыл бұрын
Definitely a lot of room for improvement! Better control, better fabrication, insulating as you suggested. Lots of room to play with this idea!
@offmeds2nite
Жыл бұрын
I think one of the challenges of making this was how the arrangement and quantity of resistors made the system overactuated. I think actually using less actuators, (possibly only three) and a thicker coverslip would solve a great deal of the challenges maintaining rigid body actuation of the mirror without deforming it out of plane.
@Veptis
Жыл бұрын
Can you use this principle at macro scale? Perhaps directly on silicon like MEMS type? Perhaps the technology for DLP is more useful as it actually does something
@OhHeyTrevorFlowers
2 жыл бұрын
The new space looks like it will be nice!
@jeffmcdonald101
2 жыл бұрын
Congrats on the new shop. Thanks for the vid, thought provoking as always!
@julianlauterfeld6273
2 жыл бұрын
Thanks for the really interesting dip into a your experiments. Your shop looks really nice looking forward to more videos from there 😄👍
@planeteuropa
2 жыл бұрын
In college we used to experiment with Defocal lens.
@jamespeterson7979
2 жыл бұрын
Hi, might be interessting for you. I have seen thermal actuators in industrial paper production. They are used to get an even paper surface and thickness in the beginning of the process, where they catch the paper out of the paper fiber bath. But these actuators have a length of a meter if I remember correctly 😉
@CreepyChappy
2 жыл бұрын
Beautiful video
@VincentGroenewold
2 жыл бұрын
Uh oh, awesomeness in my feed. Didn't even watch it, but you never disappoint here. :)
@BreakingTaps
2 жыл бұрын
🤗
@FreedomAirguns
2 жыл бұрын
Have you tried searching for alloys with more thermal expansion? Sodium should be the metal with the highest expansion rate. You can keep it under an oil at the lowest possible temperature and have the mirror on top of sodium rods. Also, you should try keeping the rods in your design cool, selectively, with small thermo-couples (you can remove them from a TEC 12706 or 12710, which have 127 and 06 or 10 watts total, respectively), to increase the response time or you can use the thermocouples for everything, since you can reverse the current and have them hot or cold with the "flick of a switch". Possibly even ceramic heaters could be a candidate. They get hot REAL fast and you can easily reach hundreds of degrees Celsius in fractions of a second which could be ideal for metals/alloys which need higher temperatures. I bought a 2V to 18V mini ceramic heater of 10 mm x 10 mm by 1mm and it reaches 120 degrees C at 5 volts sucking 1.6 watts. They come with pure silver wires. I also wanted to play with deformable optics in a newtonian for quite a while. I thought I'd use a silver coated or electroplated elastomer as a deformable lens, as a membrane on a box with variable vacuum, but I have not tried it yet. Another approach I though of was to use steppers with strings and/or linear actuators to pull various sections, to deform it in specific manners, but yet again, I'm not that much into astrophotography anymore. You're definitely more knowledgeable than I am and I bet you got all this figured out, yet I still hope I can bring you some other insights with this comment. Have a nice day, sincerely.
@aleksandar7393
2 жыл бұрын
You could have do much simpler check, project light (projector/flashlight with pic above) with concentric squares -> into mirror and then back on white surface.. 1. test reflected image on surface before distortion 2. test reflected image on surface after distortion
@sheerun
2 жыл бұрын
Genius idea
@markwilliams5654
2 жыл бұрын
Could you use water as a mirror and deform the water surface maybe with static
@andre9095
2 жыл бұрын
Beautiful, can instead of deforming one mirror, you stick 3 onto a triangle/hexagon and get an amiable matrix without “moving” parts?
@stefanhuemer8209
8 ай бұрын
In Plastikindustrie , nozzels are ejustet with this technik of Expansion by heat.
@smash5967
2 жыл бұрын
The upside-down resistor closest to the camera was just to bother me, right?
@BreakingTaps
2 жыл бұрын
That is correct. 😇
@BartJBols
2 жыл бұрын
Instead of packing the diodes in a square grid i would suggest adopting a triangular grid, and connecting 3 diodes to one corner for each grid, but with a certain directional offset, allowing you 3 axis control over each point. You could literally get away with having a triangle with 3 diodes to each corner. Why?: easier to control, Diodes slightly misaligned wont 'fight' the other ones, and having a single contact point for 3 diodes, and only 3 contact points in total to the mirror makes the mirror warp less. having 3d control over 3 points is all you need to realign the mirror, and having 3 points warp will lead to a natural parabolic shape from itself. You can then later on scale up the design by just gridding the triangles in a hexagonal pattern. Just dump squares tbh.
@ncdave4life
2 жыл бұрын
Here's a random thought... My understanding is that inkjet printers use many very tiny, very *_fast_* heating elements, to spit out micro-droplets of ink. I wonder whether they could somehow be used with a system like this, for deforming a mirror?
@mskiptr
4 ай бұрын
Hmm, could getting rid of the resistors and heating parts of the mirror itself allow for more complex deformations?
@ferrumignis
2 жыл бұрын
Bonding the mirror to the resistor legs with conductive epoxy could reduce the stress and distortion that soldering creates.
@oneilgoisot9615
2 жыл бұрын
You are doing almost my dream job (almost because you are using imperial units time to time) If some day you are looking for an assistant or maybe an intern for few months I maybe can help!
@chrisfuller1268
2 жыл бұрын
So the lesson is to use piezo and/or speakers for the deformations and mount everything on a solid block
@MichaelOfRohan
8 ай бұрын
You could make a larger application with parafin. Ave had a wax solenoid on his channel. Theyre really strong.
@txd
2 жыл бұрын
Great video as always. Don't put solder on wire ends that go in to a screw terminal. That's a fire hazard, as the solder will get softer and the connection will get loose, causing arc-overs.
@BreakingTaps
2 жыл бұрын
TIL!
@txd
2 жыл бұрын
@@BreakingTaps ooops this was meant for another video 😁😁 sorry for the confusion 😄
@damienmiller
2 жыл бұрын
I've seen someone experimenting with stacks of SMD ceramic capacitors as cheap and fairly simple piezo actuators for micron-scale movements
@BLUYES422
2 жыл бұрын
Ooo you could use piezo crystals to get hyper fine control too!!
@JimGriffOne
2 жыл бұрын
Oh that's pretty amazing! I can understand the issues involved with it. i.e. Heatsoak causing the deformation to change over time. I guess some form of micro-cooling could be used to maintain temperature stability, but thermodynamic hysteresis is really a b**ch. How to design for that to create a stable system is really where engineering shines.
@diegogmx2000
2 жыл бұрын
an other thing, the heat of the lead going to the mirror, not only pushes up the mirror, it transmits heat which then makes the mirror deform radially to the lead, not quite desirable
@PieterBooysen
2 жыл бұрын
Can you add a LED panel to the back of the glass, then turn the LEDs on or off on demand. The heat generated by the LEDs would cause the same effect. Or am I missing something?
@auxchar
2 жыл бұрын
Oh, that effect of turbulant air causing abberations - that's mirage!
@petevenuti7355
2 жыл бұрын
Or Marriage and a creative way to say stop talking.. I might use that one 😜👍
@petevenuti7355
2 жыл бұрын
Sometimes janky is an art form, and sometimes it's a form of art.
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