Coincidentally, I just toured the South Dakota minuteman launch control facility this week [1] and it was fascinating. The park ranger giving the tour was a veteran who manned the facility decades ago — amazing stories. You need to book tickets a few months in advance but well worth it if you’re in the area to visit Badlands, Mt. Rushmore, etc.
Yep, I’d highly recommend this as well. We did this a year or two ago as well and it was wild how the underground facilities worked, how small they were, and how remote and nondescript they were. Highly recommend visiting these sites if you’re into history!
Literally one click away from link provided by OP: Delta-01 Tour Fee and Reservations
Alert, Severity, information, Delta-01 Tour Fee and Reservations
All Delta-01 Launch Control Facility Tours require advanced reservations. Reservations can be made up to 90 days in advance on-line or by phone at 605-717-7629. No SAME-DAY tours available during the summer season.
-To practice for the moment of a real launch command, he would receive encoded messages every day that had to be manually decoded as quickly as possible — this decoding would be done independently by him and the second person on duty, and they would then compare to make sure they matched. In the case of a real launch, not only would the two people in the underground facility need to agree that the command was issued, but a second team in another facility would need to do the same.
-He was not allowed to know the targets of the missiles he would be launching, though these targets were fixed for each missile.
-It was almost assumed that if they were launching, they would have already been hit on the surface by a nuclear weapon (locations of the launch facilities were not secret, because they wouldn’t be a deterrent if they were secret). The two people underground are positioned in what looks like a shipping container suspended inside a submarine hull, all encased and locked behind one giant thick steel (?) door. If the elevator shaft had collapsed during an impact, they would be stuck inside to die. So they did include an escape hatch in the roof, but buried deep underground — this would involve the two men opening the escape hatch, letting a bunch of sand fall through, and then digging upward through 100-ish feet of ground over many days to get to a surface that was a wasteland. He was never really convinced that this would work, but the men had to believe that if they did their jobs, there would be some way to survive it.
> Various options including DSL over HICS cables and radio were considered, but the current plan is to trench new fiber-optic cables across the launch fields. They're less interesting, but fiber optic cables have both capacity and reliability advantages over telephone cables, and could easily remain in service for the life of the Sentinel program.
I was actually a bit surprised there was nothing about lightning and EMP suppression. I’m no expert on EMP effects, but multiple-mile-long cable loops underground seem like the kind of thing that would develop large induced currents in the presence of a varying magnetic field.
Nonconductive fiber optic cables are entirely immune to these effects. And they’re less expensive than copper!
Lightning protection in these types of cables is well understood, since the telephone system contended with the same problem. Fortunately EMP effects are mostly accounted for by lightning protection, when it comes to the outside plant. There are definitely lightning arrestors where cables enter facilities, but I would wager the facilities were built with halo grounds. There is integral EMP shielding in the design of the bunkers, as well, with a steel liner surrounding the concrete.
The main reason NEMP (nuclear EMP) became a big concern during the Cold War is its potential for use as a defensive weapon. For example, a large part of military EMP research was done with the specific aim of hardening strategic bombers, after it was realized that the USSR could use a single well-placed high-altitude NEMP to disable most of the SAC fleet as it passed over the north pole. Similarly, in most attack scenarios the USSR would almost certainly have made a high-altitude detonation over the ICBM fields one of their first moves.
I started off on a more detailed explanation of the timing issue, why we may not be able to launch before inbound weapons arrive, but it's kind of a complex topic that changed quite a bit over time. I might write something more in-depth about it later.
Now I think about it, how is the international law banning nukes in space actually enforced? E.g. if Russia just put one on a satellite and didn't tell anyone, does anyone have any way to notice?
> if Russia just put one on a satellite and didn't tell anyone, does anyone have any way to notice?
Yes. Satellites are not transparent so they occlude the sky behind them for anyone who is watching, which allows discovery of new satellites. Imaging them and determining trajectory via doppler etc comes after you know it's there.
"E.g. if Russia just put one on a satellite and didn't tell anyone, does anyone have any way to notice?"
My wild guess would be, a bomb radiates and a satellite usually does not, so it might be possible to easily check new launched ones or all of the satelites of a certain size?
> Now I think about it, how is the international law banning nukes in space actually enforced? E.g. if Russia just put one on a satellite and didn't tell anyone, does anyone have any way to notice?
I am way out of my depth to say anything about this
but I am just asking questions.
I think we have to define a few words here
> space
what does space mean?
I mean where will the detonation take place?
Is it low earth orbit?
geostationary orbit?
is it past the orbit of Jupiter?
outside the solar system (like voyager 1)?
For the purposes of "where can nukes not be stationed according to the Outer Space Treaty of 1967": (1) orbit, (2) any celestial body, (3) anywhere else in outer space:
> Article IV
> States Parties to the Treaty undertake not to place in orbit around the Earth any objects carrying nuclear weapons or any other kinds of weapons of mass destruction, install such weapons on celestial bodies, or station such weapons in outer space in any other manner.
To keep groundwater out. it's common to use nitrogen, but the LCC would be hard to resupply with tanks[0], so (based on the photos) they used air that had been dried.
Story time: The airbase I was stationed at in Germany had been built by the French, prior to their partial departure from NATO[1]. There was a buried cable on base that went bad while I was there. It was pressurized but apparently the hole in the casing/jacket was large and admitted more water than could be kept out by the nitrogen. So the airmen of the outside plant had to use their TDR[2] to find the fault and dig it up to repair it. To their surprise it turned out to have paper insulation[3], as it was made before plastic began to be widely used in wiring. It also had swastikas printed on it - because the French had used captured Nazi war-surplus cable when they built the base in the late 1940's.
[0] It would be hard to maneuver large & heavy steel cylinders down the entrance, through the blast doors, and satisfy the security concerns of the LCC crew that they were legit. And then remove the empties afterwards back through all that. The cylinders can not be stored on the surface, for security reasons and because the buildings would no longer be present after an attack.
[3] The water soaked much of the paper for quite a distance in either direction of the hole. So they ended up replacing a rather long piece of cable instead of just putting in a splice junction. Lots of digging & cursing needed.
We didn't have that, but they do. If you look at one of the photos the panel in the rack has a pressure alarm for the cables. So the crew would be alerted should the pressure change.
> This is the basic premise of cable pressurization: Keep the pressure within the cable in excess of the pressure that could be applied by standing water.
Interesting article. I have always been curious about how weapons systems like missiles communicate with command and control systems. Especially how the datalinks worked on cold war era systems. Not a lot of info out there. So this article was a good read.
As someone who has this week been going through, in detail (is there any other way?), the American CCL and Canadian ECL, this is absolute gold. Thankfully the items in question are no longer on the USML…
...and the less is spoken of the time I had visited a CubeSat workshop at CalPoly carrying the actual flight prototype of my university's first effort in my carry-on - for compliance testing - the better.
I found out the interesting way when leaving the States that ic it goes into space, it comes with lots of ITAR red tape of which I and my university had been blissfully unaware.
Being escorted onto my flight (which had been held for an hour!) by a couple of State Department officials who simply told me to sit in the first available seat when we got aboard was kind of cool, though. Instant upgrade to business class, and the pax in the vicinity probably spent the flight wondering who the heck I was and what I had been up to...
This is one of the BS of space engineering. Apparently if you combine a Pi CM4 with a carrier board manufactured in China running open source Linux, and you say its for a cubesat going to space, it might fall under ITAR
This is why a lot of European space hardware sellers have ITAR-free as their selling point
Cubesat Developer's Workshop? Which year was this, if you don't mind me asking?
The funny thing is that I did pretty much the same thing, I had our flight computer prototype in my hoodie pocket to fidget with (since I'm leading all the electronics for the project) but luckily we weren't travelling far and didn't get any invitations from the government folks.
Our first sat, NCUBE, never made it out of the launch canister once in space; the 2nd one was on a failed launch which probably made some Kazakh farmer's day very interesting - judging from the photos I saw, it seems it came down in a wheat field - but the third one deployed successfully, but at that time, alas, I had graduated.
It's not as big of an issue for us since we use nearly all consumer/industrial stuff with build in ESD protection. I was also using it as a way to stress test whether the board would develop problems from handling, temperature and humidity changes, shock and vibration, etc
For anyone who hasn’t seen it, the highly hn-relevant film WarGames kicks off with a launch order scene between a MCCC and a DMCCC that doesn’t depart wildly from the description here.
What about the fake house? Was that realistic? I've always wondered.
I can imagine shaping buildings like a house to fool satellites but the furnished living room looked a bit too much. I assume these bases were military territory with fences around them.
I'm from northern Maine, where we use to have Loring Air Force Base. Back during the SAC days, it was one of the primary nuclear bases in the US. It even gets nuked in Wargames!
If you know the right people in town, you can get some fascinating information. At one time, supposedly most of the nuclear weapons in the US passed through Loring. There was a large field area that had bunkers dug into it that held nuclear, biological, and chemical weapons. There were many more bunkers than weapons needing storage, so that you could rotate the munitions constantly so that the Ruskies would have to guess which bunker to nuke.
On top of this field full of bunkers was a bunch of buildings that looked very boring, and were supposedly made to look like "boring" military buildings.
One building was a large concrete cube. About 40 ft on all sides. It was supposed to represent something like a small schoolhouse. It was designed to contain the detonators for the bombs. It supposedly had 4ft thick reinforced concrete walls. It was supposed to be able to survive a near direct strike.
This all made a lot more sense back in the 60s when bombs were less accurate, smaller, and satellite intel was significantly more limited.
https://maps.app.goo.gl/rauEmMeHagTpVgGQA this is the location I describe above. If you look to the south-west of the runways, you can see a similar road layout where some base-housing used to be. The bunker area was meant to be hard to distinguish from those from a spyplane or early satellite.
Thinking of (possibly) fake building, was noodling around Google Maps looking for some interesting walks in my area, and found these surprisingly widely spaced groups of buildings:
They're pig or chicken farms, if you go on a walk you can tell by the absolutely awful smell. Note the vertical cylinders for food storage in your link. I bet the spacing is mainly due to environmental regulations.
Not that it would have helped me without the rest of your comment — although I've seen a vertical cylinder in a farm in Aberystwyth I'd assumed that instance was fuel, and similar elsewhere were labeled as liquified air tanks.
I just started a software engineering job at Lockheed Martin a couple weeks ago working on communication systems. Not sure if I can say what though to be honest, and I’m going to err on the side of safety here. I’ll be working on F-22 communications in a few months when/if my program clearance comes through. Super cool so far though.
It's honestly not too hard to go down a similar path. Defense contractors are literally always hiring and most job apps will give you a decent idea of what you are working with so you can more or less pick your poison before you even join. Of course long term you'll get moved around but you can generally pick your site (which decides what you work on).
I can't really help with what you're specifically looking for, but I'm pretty sure my grandfather worked on these as an engineer. He retired from Boeing in 1985. Died almost 20 years ago.
It will open directly in Google Earth and put you right on the scene in Armageddon, Wyoming, which appears to be roughly eighty miles south of Bumfark, Nowhere.
Crazy that the communication system doesn't seem to be that much more advanced than tin cans and a string when compared to modern day. Guess the same can be said for the weapons themselves.
It is just a different set of requirements. They don't need to stream Netflix but they need to survive nuclear war. Simpler, lower bandwidth systems are much more "advanced" in this context, and much more repairable on-site.
[1] Run by U.S. National Park Service: https://www.nps.gov/mimi/