SOLVING the Mystery Behind a Soviet Spy Bug : A True Masterpiece of Technical Elegance!

It was beepin over the AM. Turned off it was beepin. Un plugged it was still beepin. I never could figure that out except like a hendershot tank circuit. What do you think? Im a schooled electrician and that scared me like a movin planchette on a ouija board

Guess what I realized after watching this video?
I realized that I didn't understand anything about it.
But he has a good colored shirt!

I have many different coloured shirts, there's probably some sort of coded message in the shirt I choose for each video. But I'll leave that up to the cryptographers to decipher

@@MachiningandMicrowaves I suspect the message is: The Soviet Union (bright red on your shirt) makes people see things as Black and White or at least gray. One Estonian writer called the Soviet Union the "Empire of the absurd".

@@MR-ub6sq I think my dogs see it all as grey.

You can of course use reflections from central heating ducts, metal radiators and filing cabinets, but this was the first publicly-divulged case of a cavity resonator microphone

@Chris Lund What ???

It's how rfid tags work...

@@UNcommonSenseAUS Passive RFID tags use a slightly more subtle approach, using rectification like the later EASYCHAIR MkII devices but then using load-pull techniques in the near field rather than changing the resonance and re-radiating a back-scattered far-field. RFID tags are immersed in the reactive near field of an inductor driven by an exciting oscillator, where they can then change the loading on the oscillator. That is detected as changes in the amplitude and phase of the exciter, rather than collected by a separate receiver. The tag stores the rectified energy and activates a chip, which then changes the loading on the receive coil in the tag. As it is in the reactive near-field, the exciter "feels" a changing load. The changes are made very rapidly, so the data rate can be high, but very little power is required. Other tag types such as those used on toll roads use active transmitters to gain much larger range.

in clearance areas, your not allowed to bring radios or anything as if you talked even with a radio off could push sound agianst the speaker and transmit it electroniclly.... spy stuff is crazy....

Please see Banana for Scale.

@@xenoxaos1 That's a left-handed banana, my calibrations will be off.

CEE Kurtis is the custodian of the International Standard Banana. Handedness in banana standards is always a problem. Chirality sux.

@@MachiningandMicrowaves Not to mention which banana you use. The yellow comes in a few varieties, and by me there is a purple one, the Natal wild Banana, which is totally different to the others, and also has seeds in it, unlike the yellow sports.

Luckily there is nowhere in the world that uses the Imperial system for anything other than pints of beer, and occasionally milk. (If you think the US does, then ask yourself: why would the US adopt a system of weights and measures proclaimed by George IV, son of the much-detested George III, in the 1820s, 50 years after the Declaration of Independence, and in the shadow of the war of 1812? If you said "they wouldn't", you're on the right track.)

His life story is pretty amazing, the lad met Lenin, knew Einstein and Charlie Chaplin, was (probably) into money-laundering to fund espionage ops in the Americas, appeared at Carnegie Hall, was thrown into a gulag, became a celebrity again and joined the communist party after the Berlin Wall came down "because Lenin asked me to". They don't make folks like that very regularly.

@@friedrichhayek4862
😔Sadly, genius and morals are not necessarily correlated…

@@friedrichhayek4862 Just because you don't like his alignment, doesn't make him evil.

@@klin1klinom unfortunately because they're commies, it kinda does

​@@friedrichhayek4862 are you saying Theremin is evil?

I suspect he has the dad superpowers.

I love how you put your words together. I feel the same exact way you do but would never dream of being able to put it into words the way you have. I love it

What I believe, all the engineering regarding radiofrequency is taught backward, bot in schools and some Universities. They show a resonating cavity, a waveguide or a magnetron, and try to explain how they work by mentioning electric and magnetic fields plus some random formula. All the students feel confused, and sometimes inadequate. The only way to learn the "magic" of RF is first grab the math of fields, then the Maxwell equations, and learn how to write the right equation for the device you have, or want to design. It may take six months of learning in the worst case, but after designing the right magnetron, or the proper resonating cavity will be no more difficult than writing down your weekly shopping list.
To learn correctly you cannot avoid following the right sequence; whoever propose an easy method, where you start from what is most interesting, will be wasting your time...

I dream of Gyrotrons. Gyroklystrons even. Those are beyond amazing, with a magnetron just to create a source of electrons. Tens of kilowatts of mmWave power, just from electron gyration in a magnetic field. Marvellous

Most of what is taught in universities is not very connected with the real business of devices. I was asked to act as an industry appraiser in the accreditation of a new Uni course in my professional area (cybersecurity). The course was ten years out of date and was designed to be easy to teach and assess, rather than giving the students a grounding in the real world. I was going to show the analytic solution for the capacitance of a small disk close to a large membrane, but it's furiously complex. All of the examples I recall doing when I studied electronics and physics were for ideal situations with lots of symmetries.

@@MachiningandMicrowaves I learned way, way more about the physics of RF devices and propagation from getting my ham radio license than I ever did in school. Much faster, too. Applied information is way easier to absorb and synthesize than abstract information.
This device is pure genius. How fast we went from the discovery of radio to what is essentially a remote-modulated radio transmitter. Even the technicians operating the listening station had to have a strong grasp of the theory.

Excellent point. Although the threads are rather leaky, I suspect they would have used wax or something as a thread lock and that might have sealed the thing too well.

@@MachiningandMicrowaves On drilling such a hole using a tiny spade bit, I hand made a 0.3 mm drill (for use in brass) out of a wire "hair" from a stainless steel wire hand brush. It was surprisingly effective and easy to pull off with only the hand tools in my back shed and a magnifying glass.

@@lordchickenhawk Excellent! I've certainly made tiny spade drills from carbon steel wire, but only for plates 1-2 mm thick. Huge respect to the folks who did that 40x diameter hole

@@MachiningandMicrowaves As you say... it's always that ratio that is the impressive bit!

In his book Spycatcher, Peter Wright described how fragile the diaphragm was - it could barely be handled at all with tweezers!

I doubt that more than a few percent of hams would follow it all, I'm working in such a tiny niche area of radio. I do more mainstream things as well, like using moonbounce and Auroral reflection on 2 metres, plus meteorscatter, but those are probably very niche areas to most hams. I also mess about on 136 and 472 kHz, red light comms and most bands from 1.3 GHz and up, plus 1.8 MHz QRP CW and digital modes. Working the USA from the UK with five watts or less on 1.8 MHz is a hugely enjoyable challenge. The glory of the hobby is that there is a vast amount of different fields of endeavour that you can play with, and a near-infinite amount of detail that you can investigate if you like that sort of thing, or just get one any use radio if you don't want to do deep dives. One of my friends decided to check the doppler shift on the QO100 geostationary satellite to monitor how it was saying on station out in the geo belt. I like using aircraft scatter to bounce my 10 GHz signals over the North Sea into mainland Europe. I think less than 0.1% of UK hams do this stuff that I find fascinating. They probably have similar niche interests that I know nothing about. The hobby has been fantastic for me since I made my first radio back on 1969

@@MachiningandMicrowaves I'm right with you, though the lower (super DC), leaves me wondering who you have to email to gain a contact. I'm 23 -3cms this way via QO100 too. All good fun. Tony G6YPK

@@educatedmanholecoverbyrich8890 There are very active groups.io forums like rsgb lf group that show what activity is going on

I rather cheekily call him Peter Wrong, but his ghost-writer did an excellent job with a difficult subject. Rather a lot of twaddle and bunkum in the book, but since then a HUGE amount of detail has emerged about all sorts of TSCM and technical ops. I'll certainly be making some videos about the ones involving machining and, er, microwaves. I might need to be a bit flexible about what constitutes "microwaves" if I can get hold of a working IBM Selectric typewriter to try making a GUNMAN project device and supporting infrastructure! next spy device on my list is an EASYCHAIR Mk 2 I think

There are SO many more of these amazing spying devices, I'm going to have a look at some of them later this year. None of this would have happened without Heather from the Radio Society of Great Britain, who put me in contact with the BBC TV team making the Secret Genius of Modern Life series. It's been an amazing journey of discovery

I get a lot of folks moaning that I use too many words, well they can go watch Shorts. I like words! It's been a fascinating journey through history and tech and science

And also Blues Brothers.

I was hoping I'd get to make this comment 😢

I almost spit out my tea when I heard the margin joke.

I wish I had more time to do this type of investigation, but Real Life and the Day Job conspire to eat up my waking hours.

Oh yes, a very nice and useful bridge it is too!

The suffering I go through with "documentation" written by surly coders who hate the job and do it terribly is just immense. I remember how well written the vast documentation store was that came with our big IBM systems. The thing I'm wrestling with at present runs mostly on Windows cloud servers, but was written by Linux techs whose idea of an example of usage of an obscure and poorly structured API function is to paste in a shell fragment, with the underlying surliness of a teenager aske to tidy their room but believe they are some sort of God-like Genius and think documentation is for simps. Yeah, those are what we call "Vulnerability Generators" in the cybersecurity world. Lovely. Documentation written by folks who can't write, don't want to write, and directed by management to spend as little time on it as possible. Great if you are looking for a way to sneak into a system. I think I am suffering from burnout and getting cynical in my dotage.

@@MachiningandMicrowaves Truly don't blame you. I'm one writer for an org of 250, so as you can imagine, most people are doing their own "documentation" and there is just no quality control. And if you survey developers on their #1 pain point of their job? "Crappy documentation" is what they say. How ironic!

The FBI, CIA, Naval Laboratory and British intelligence folks knew how it worked soon after they received the bug, but it remained shrouded in secrecy and misinformation until the 2017 freedom of information release of all of the papers. A lot of internet sources are based on earlier articles that suggest some highly theoretical operating modes. I would say to all of them, just make some units and try them. That gets rid of speculation, when you have a real device, you see for yourself how it behaves

Almost everything, and not just metal things, dielectrics can also do this (a little)

jajaja...i was thinking something similar.
and i dont think the emiter about this interesting video needs a power supply.
just another metal with the same frecuenci in a electronic mesh.

@@MachiningandMicrowaves There’s a fine line between physics and magic!

I feel hugely blessed to have ANY subscribers! I started this channel as a way to recover from the grief when my wife of 37 years died of cancer, and I was astounded when the first hundred subs arrived, then I put out a couple of videos that were sort-of OK and BOOOOM, it took off. This is only the third or fourth one where I've appeared on camera, so I'm still hopeless at being the "talent" as well as the camera op and sound engineer and coffee-brewer and editor and colourist and scriptwriter and researcher and roving reporter, not to mention electronic engineer, machinist, CAD operator, programmer, animator and Physics researcher. There's no time to sleep, but I'm having SO much fun. Just wish I could get on to a weekly cycle. Ideally I want to do a 24 minute vid every second week and a 10 minute one on the other weeks, publishing at a consistent time, but I have to fight my self-defeating ADD and crushing shyness all the time. I'm giving a lecture in the USA next weekend and haven't written it yet. No sleep for me tonight!

I wish I had time to make more vids. Real Life keeps intruding. I have some more detailed testing of this Bug to film, then later this year I'll be looking at one or two of the other spying devices that used a slightly different method of operating, but still without any power supply needed. First though, I have a backlog of machining and testing of antenna feeds and all sorts of mechanical contrivances to get made for microwave filters and antennas and moonbounce systems

"weleda hat recht. der beitrag ist alles andere als objektiv. herr aust stellt das mittel nicht lege artis her. es muss zunächst stundenlang verrieben werden"
Dr.. Aust macht das vollkommen richtig. Verrieben werden in der Homöopathie nur Substanzen, die weder in Wasser noch in Alkohol löslich sind. Kochsalz ist aber wasserlöslich....
"frau grams geht nie darauf ein, wieso die fürsorgliche mutter beim kranken kind mit dem falschen mittel keinen erfolg hat. "
Die Krankheiten die Mütter bei Kindern homöopathisch "behandeln" sind üblicherweise Krankheiten die in den allermeisten Fällen von alleine heilen.
Es gibt da einen natürlichen Krankheitsverlauf der meist so aussieht dass sich der Zustand des Kindes zunächst zunehmend verschlechtert und danach wieder zunehmend verbessert.
Je nachdem in welcher Phase man mit der homöopathischen Behandlung beginnt verschlechtert sich der Zustand anfangs noch weiter (was Homöopathen dann als angeblich erwünschte "Anfangsverschlimmerung" bezeichnen oder sich alternativ damit herausreden, dass das falsche Mittel gewählt wurde) und sobald die Phase der Besserung erreicht ist reden sich Homöopathen ein, dass sie nun das "passende" Mittel gefunden hätten.
Dabei haben die verabreichten Mittel den Krankheitsverlauf gar nicht beeinflußt.
Das ist wie Regentänze aufzuführen damit es regnet. Regnet es nach dem Regentanz nicht dann war es eben der falsche/unpassende Regentanz. Und regnet es nach dem Regentanz dann hat der Regentanz natürlich gewirkt.
Ist ja klar.....
"außerdem fragen sich skeptiker nicht, wie die mittel ausgezeichnet wirken können, wenn dem tier das mittel heimlich gegeben wird, gar einem ganzen kuhstall. außerdem wirken die mittel auch bei pflanzen, patienten im koma und bei skeptikern"
Und Homöopathiefans fragen sich nicht wie man mit Pflanzen, Tieren oder Patienten im Koma eigentlich das von Hahnemann zwingend vorgeschriebene ausführliche Anamnesegespräch führen soll um das "passende" Mittel zu bestimmen.
Und wo bleibt den der viel genannte "ganzheitliche Ansatz" bei dem jeder ganz individuell für ihn passende homöopathische Mittel bekommt wenn man einen ganzen "Kuhstall" mit dem gleichen Mittel behandelt?
".- ob besagte gynäkologin nur einen schmalspur-kurs besucht hat, können wir nicht sagen. freilich ist eine gescheite diagnostik wesentlich."
Eine gute Diagnostik ist natürlich wesentlich - nur findet die in der homöopathischen Lehre nicht statt.
Die Homöopathie interessiert sich nicht für die Ursachen von Krankheiten - die "Therapie" erfolgt aussschließlich auf Basis von Symptomen und deren Begleitumstände. Wodurch diese Symptome verursacht wurden ist für die homöopathische Behandlung belanglos und Hahnemann hat sogar davor gewarnt seine Zeit damit zu verschwenden nach solchen Ursachen zu suchen - zu seiner Zeit durchaus verständlich da man viel zu wenig wußte um realistischerweise durch Ursachen der meisten Krankheiten überhaupt zu finden.
"- eine berliner krankenkasse hatte angegeben, wieviel sie für homöopathie ausgibt. ca. 1%. also ein winziger bruchteil der kosten für allopathika. so was unterschlägt der beitrag natürlich, die "prophezeiung" der weleda bestätigend. :)"
Die Gelder die für "fliegende Teppiche" ausgegeben werden sind auch geradezu winzig im Vergleich zu den Geldern die für Flugzeuge von Airbus oder Boeing ausgegeben werden. Ob das daran liegen könnte dass es mit den Flugfähigkeiten fliegender Teppiche nicht weit her ist?

The brilliance is in the simplicity of the device. It is so simple to not degrade for hundreds of years. It could still operate, had the Americans not been electronically vigilant. Maybe this type of device still operates in the embassies of, say, Nigeria ?

I'm having SO much fun making these videos, even though I'm rubbish at it!

@@MachiningandMicrowaves not rubbish at all youre definitely a crown jewel in the youtube community. I can not thank you enough for all the work you put in to these informational videos!

I am trying to improve my skills, I'm working hard on getting animation overlays out of OpenEMS/Paraview 3D field dumps on to video of real objects with a moving camera position. I messed up the audio at one point because I only have one working ear, so didn't know the right channel had disappeared, so headphone users got vertigo! I need to work on my color-grading skills, lighting and macro stacking, and get better at writing tight scripts and making better designs and doing more effective research. Right now I'm in the USA at a microwave radio conference talking to immensely bright engineers, academics and makers, so I have even MORE ideas to add to my growing list of upcoming productions. Thanks so much for watching and commenting, it really inspires me to improve

My teacher liked the term "condenser", or Kondensator. He mentioned it was the German name and was only replaced with "capacitance" and "capacitor", because Germany lost in the WW2. In fact, we still had two choices for our text book, which in my case ended up to be "Fields and Waves in Modern Radio" by Ramo and Whinnery (???). Some students picked the German language alternative. Then, in the final tests, there was a funny incidence. The professor had followed the Ramo & Whinnery book wave sketches, which we dutifully copied from the blackboard. This one smart student caused the professor to complain that while that student's result was O.K, there was something odd about his sketch. The student replied "Yes, sir Professor, you drew the blackboard presentation in American standard 3-D orientation. I used the European standard perspective". Evidently he was the only one in the group (including the professor) who had completely mastered the idea. I was lucky to be in his 3-student team in our lab exercises.

Very cool!

Some microphones work purely on the condenser principle, where the movement of a thin plate in response to sound alters the impedence of the microphone, as explained in video.

@@chrissmith2114 Theremin would have been well aware of developments in condenser microphones, although he left the US just before the cavity RF condenser microphone patent was published. Condenser mics using DC bias with a series high value resistor to give audio voltage out as a result of the charge between the plates averaging out as a constant number of coulombs, and when the membrane moves in, the capacitance to the backplate increases a tiny amount and as charge is capacitance times voltage, if the capacitance rises, the voltage falls. On average the capacitance and voltage stay constant over a second or so. The Bug design is pretty much a direct lift from the US patents that Termen spent much time reading. It's pretty certain that he was working for the NKVD while in the US. Fascinating story, there's an interesting take from some Russian authors, with a title like "Russia's Edison" that adds a lit to the story, although there are layers upon layers of disinformation

In Russian it is the same word - "конденсатор".

A *mechanical* device operating at 1 GHz!? or even 125 MHz? Not likely...

I'v seen a 260-A but never seen a 160A in the flesh, excellent!

I picked up a used model 260A Q-meter some years back ... fantastic tool for coil characterizing ...

The receive station and recorders would be in a building over the street that was shielded from the transmitter building. Not sure of the details but I'd guess the transmitter was 140 metres away and the receiver a little closer. The operation would have been quite a team effort

My mother says that all the time when she's talking to me. So do my Chihuahuas. Although they only understand important words like "walk" and "dinner" and "snacks"

A classic bit of design for sure. There's so much incorrect information out there, it's just amazing.

@@MachiningandMicrowaves well you've really demystified it in one way, but in another I'm only left with a deeper sense of awe at the elegance and simplicity of the design. So much so that even a cursory direct viewing of the object itself (not the seal but the inner workings) is not even obvious enough to immediately raise clear suspicion to an untrained eye, like say your average embassy removalist or cleaner, it could be mistaken for some hanging or balance device related to the ostensible gift. I'm really intrigued by the writing on the back of the item, can you make it out?
I remembered reading about this roughly 30 years ago in an old spy book when I was less than 10yo and being fascinated, remembering it very clearly ever since and so always happy to learn more whenever the subject came up. Your re-creation is impressive but so is the follow through, such as your animation of waves propagating down a street, really well done. I'm no radio whiz just your average TH-cam viewer, but really impressed and appreciative of all your explanatory efforts. See, not having any expertise I had always imagined some passive device might have been like a little crystal radio set, I definitely expected perhaps a coil and a diode, never in my life would I have guessed something so arcane to the untrained eye, so while I admire your ingenuity in recreating it, what you've really successfully communicated is grounds for me to be impressed with the Russian originators, knowing all the practical, material and technological limitations the whole world faced at the time, let alone the Soviet union with shortages as they were, even (as you pointed out) limiting what was likely available for the two items of powered equipment between which the great seal formed the graceful nexus.

Oh sorry I see now it says "Property of division of security department of state" I was watching on a small screen-in-screen before I didn't realise it was easily legible.

Yes, they stuck that on the back cover. The original has gone missing and there are no available images of the main elements of interest around the bronze ring attachment of the membrane and the precise slot layout on top of the resonator

Very grim, poor lass. I put a note in the description suggesting folks visit her channel

There are "only" five thousand words in there. Many are duplicates, but there are SO many sentences. Those are the real menace, sentences. 158 words per minute on average. That's faster than my mother could take shorthand, she says, but she's found the "play speed" option to slow me down if I get too fast for her ears. Hi mom!

Thanks Mihai, I wish I had more time to make videos. It's really nice when people watch them and comment. I would make them anyway even if nobody watched, because I'm a storyteller and just love tale-telling. I hope I can improve and make better videos as I learn more about lighting, cameras, editing, scripting and visual effects

@@MachiningandMicrowaves You are a really good story teller. And I love the jokes, especially de one imperial/metric and the comparisons and analogies. :D

I'm thinking seriously about making a limited edition run with gold plating, in a presentation case, but maybe a watch-glass window in place of the membrane. Gift for the geek with everything

Elastance is definitely the word. I asked Google and got spammed by this pathetically-useless answer from Quora's rubbish AI bot:
SAGE: An AI bot writing "helpful" answers
What is the inverse of inductance?
The inverse of inductance is called "admittance", which is measured in siemens (S). It is a measure of the ease with which an alternating current can flow through a circuit. The reciprocal of inductance is called capacitance, which is measured in farads (F).
Spoken with all the authority of an opinionated and cocksure teenager who once read an incorrect Wikipedia page and mis-remembered it. Great.
Not "helpful", just completely and disastrously wrong. However, the humans on Quora are also mostly wrong, so it'll fit in just fine!

Well spotted!

I had to miss out a lot, but there will be at least one more tech video in this series, perhaps two, plus one on the detailed machining and metrology and another on the results of my researches into where Theremin took his influences from, and what he was REALLY up to in the USA in the 20s and 30s. I never realised that after contact with the West eased , he got back in contact with his US wife Lavinia and I think he even suggested remarriage. What a lad...

Pierre de Fermat wrote it in a book margin in 1637 saying he had a marvellous proof tgat there are no solutions to x^n+ y^n= z^n where x z y and n are integers for and n greater than two. A chemistry teacher told me about it when I was 12

Same chem teacher told me a mnemonic for the elements in the periodic table. He said "I'm going to tell you something you'll never forget". He was right

@@MachiningandMicrowaves That's pretty much what ChatGPT-4 told me. You were lucky to have teachers like that. For kids today.... It's a wonderful time to be alive!!
ME:
If I were giving a presentation on a topic and I said, "I have a mathematical proof on the subject but the margin is too narrow to contain it.", what would I mean?
GPT-4:
If you were giving a presentation on a topic and mentioned, "I have a mathematical proof on the subject, but this margin is too narrow to contain it," you would be alluding to a famous historical quote attributed to the French mathematician Pierre de Fermat. In the 17th century, Fermat wrote in the margin of his copy of the book "Arithmetica" that he had discovered a truly remarkable proof for his Last Theorem, but the margin was too narrow to contain it.
In the context of your presentation, you would be making a lighthearted or humorous reference to Fermat's quote. You would imply that you have a convincing argument or proof for your topic but, for some reason (such as limited space or time), you cannot present it in full detail at the moment. This statement might be used to create interest or intrigue in your audience or to emphasize the complexity of the subject.

@@MachiningandMicrowaves A 118 word mnemonic, that you will never forget?? you have my attention!! Do share!! :D

The pronunciation of the three I can always recall are: Scanty Vancra Manfee Connie Cousin. Nam Galsipsclar. Libeb Ker Nof knee, although in my head it has the correctly-capitalised element symbols. He did have one for the second row of the transition metals, it went something like Why Zero Noble Mothers Teach Rude Ruth . Somehow I can remember the groups accurately. I can't remember the Actinides, but I remember it was mildly obscene, and therefore of consuming interest to a 12 year old

They certainly used TV signals to make the later systems like GUNMAN, but I doubt that was part of this design, they were just banking on nobody noticing. With a homodyne reciever, any issues of stability or frequency changes are eliminated, although of course you have to re-phase everything if you change frequency much. With enough signal, direct conversion to AF works OK, although I found with a lot of tweaking that I could also get it to work with AM on my Russian Malahit SDR. It's not actually slope detection of course, as the TX frequency is constant, but the amplitude and phase change with modulation. I tried to pull out the phase mod in FM mode, but couldn't get it to detect anything. I think a homodyne with a baseband filter would pull out the first order Bessel function sidebands along with the simple multiplication product that makes DSB AM. One day I should make a larger unit with a more controllable diaphragm and proper anechoic chamber to see what actually comes out when it's fed with a coax probe

soviet union was developing magnetron devices in the late 1930s and would have had access to klystron tube tech post 1945, also had indigenous vacuum tube manufacture pre-war, so i dont see why they would need to go scavenge for bits since they were quite capable of producing anything they needed.

@@andrewbaluk1663 True, but if they could buy cheaper than make it would be done, plus also the knowledge that they were spying on the US, with US made equipment, as well.

Horribly inefficient, but SO elegant! I'll be doing a deep dive on the Easy Chair Mk2 which DOES use a diode

@@MachiningandMicrowaves Yes, and a good demo of slope demodulation to recover an FM signal with basically an AM receiver. Horrid noise immunity, and very poor performance, but it can be very effective.

@@MachiningandMicrowaves but if you include a frequency multiplier it is easier to detect using a bug sniffer looking for harmonics !

My pleasure!

AIMEE did get a bit out of hand, but that's my personal demons fighting to make themselves heard. As a narrative device, taking the role of the all-seeing, all-knowing Narrator in classical Greek plays, AIMEE gives me a way to defuse the potential for sounding smug, but also saves me from re-recording on-camera video segments. I recorded a section of this one that I spent hours on, but mispronounced some words. By then I'd moved all of the camera gear and changed lenses etc, and it was 4.30 AM and I was tired, so I just wrote a TTS script and had AIMEE scold me for saying something silly. In the end, I ditched the whole segment though! I've lost a 10 minute piece to camera about the 150 picometre Van de Waals diameter of Nitrogen molecules and their mean free path and mean spacing, with lots of science about the interaction between the membrane and the molecules in the air. I can't find the audio, video or even the text files, yet I can remember clearly doing the initial rough edit of that segment. I might find it again and put it out on Machining and Microwaves Plus if it looks interesting enough to resurrect.

The movement of the membrane is around 10 nanometres on a gap of 25 micrometres, so about 0.04%, but at 1 GHz, that amount of change would affect the phase of the retransmitted signal slightly, but I couldn't detect any PM. That could just be the capture effect of the strong illuminating signal, which I could null out to -75 dB after many hours, but may have still been much stronger than the reradiated signal. One day I might set up a more robust experiment.

BS

@@williamnot8934 "Back Scatter", I assume!!!

@@MachiningandMicrowaves Shovel,Rubber Boots and Wheelbarrow BS

@@williamnot8934 Ah, THAT variety. Super

I tried hard not to dumb it down but still make it accessible. I'm still a rank beginner at this TH-cam nonsense!

I had a Kallax and I nicked the idea from VidIQ and three or four other channels before I even knew about Alec's channel. He has better hair and nicer LED lights.

@@MachiningandMicrowaves so I don’t have to lose all my hope, right? Alec is just as awesome as you!

@@MachiningandMicrowaves I’ll ask the same for him. He deserves to know my opinion about all the sinergy you could together.

@@vlaskz Heh heh, Alec is WAAAAY out of my league, he's a Proper TH-camr!

I use CZ121 brass, but also Naval Brass. It's not good for RF as the bulk resistance is much greater than copper, aluminium, silver of gold, unless you electroplate it with at least six skin depths of silver. A lot of old brasses had arsenic and tin. Red Brass is what I think we call gunmetal (C23000 Copper)? There are some with manganese too, and lead. The difference between brass and bronze is quite blurred as well.

@@MachiningandMicrowaves Oh, arsenic, YIKES... All I could remember was that is was seriously bad for those old school machinist's to mess with it, but were asked to continue for a war effort, which later turned into the "getting the company back on track for civilian production"... pretty crummy. Wow, arsenic.. that is so messed up...Thank you for the info and follow up.

Yay! Thank you!

Glad you enjoyed it

Exactly, except without the rope! Incidentally, my gang found that thin steel wire worked best, although by the time we were 11, we'd made little radio transmitters for our covert ops against our mortal enemies The Washy Kids

@@MachiningandMicrowaves I know I was just trying to be funny. This is way above my intelligence. I have a very uneducated perception of things like this.

@@CoopCooper. Heh heh, well it made me giggle, so 100% success, with the bonus of remembering my old childhood friends, some long-dead. Peter, whose dream was to be a geologist, was swept off an oil rig during a storm in the Gulf of Mexico, Darryl and John, motorcycle accidents, two mental illness-related, Roy from a heart attack. Only three of us left now.

@@MachiningandMicrowaves My condolences for your losses. With age comes Joy and wisdom, But also strife and heartache. Best to you and yours good sir.

All matched antennas re-radiate half of the incident energy, and unmatched ones re-radiate almost all of it. The cavity is slightly more than just a capacitor, it's a weakly-coupled high-Q resonant cavity. Termen continued working in Moscow until he retired, although he visited the US again in 1991. There's an excellent documentary about his life. en.wikipedia.org/wiki/Theremin:_An_Electronic_Odyssey and Glinsky's book Theremin: Ether Music and Espionage is also good. I've seen it suggested that he corresponded with, and even wondered about getting back together with his American wife, who he'd had to leave behind after his rather, er, "hurried" exit from the US in 1938. He'd spent ten years in the USA in the 20s and 30s. There's no record of anyone else involved in the construction, but any clockmaker could have made the metalwork and the rest of the equipment is fairly straightforward. Easy for me to say with 20/20 hindsight of course. Making that connection between Termen's knowledge of radio frequencies from his instruments and his researches at the US Patent Office on microphone technology, it's easy to suggest where he made the connections between the various technologies, but having the spark of genius to be the FIRST to do it is what makes the difference. A bit like running the four-minute mile or climbing Everest.

I have a LOT more detail that I'll probably put into an unpolished raw video on my second channel at some point

@@MachiningandMicrowaves Yup, I caught that. Good to know 👍

Real Soon Now, I'll do a detailed deep dive about the way it works right down at the molecular level, noise, acoustics and the intricate maths. Should be huge fun

I'm always stressing about chasing micrometres or ten-thousandths when I'm using a metal lathe. My wood lathe is much more relaxing!

Glad you enjoyed it

See my previous video for the background, Termen/Theremin was in the US in the late 20s to late 30s and has some patents to his name, but was of course working in a sharashka after being interned on his return to Russia. I guess that somewhere in a hallowed corner of the KGB archives, there's a well-preserved and revered file of NKVD papers with all of the juicy details carefully recorded.

Thank you! Cheers!