https://hackaday.com/2024/05/21/peeking-underground-with-giant-flying-antennas/ Skip to content Logo Hackaday Primary Menu * Home * Blog * Hackaday.io * Tindie * Hackaday Prize * Submit * About * Search for: [ ] [Search] May 25, 2024 Peeking Underground With Giant Flying Antennas 17 Comments * by: Lewin Day May 21, 2024 * * * * * Title: [Peeking Underground ] Copy Short Link: [https://hackaday.com] Copy [heliscan_f] Helicopters are perhaps at their coolest when they're being used as flying cranes -- from a long dangling cable, they can carry everything from cars, to crates, to giant hanging saws. What you might find altogether more curious are the helicopters that fly around carrying gigantic flat antenna arrays. When you spot one in the field, it's not exactly intuitive to figure out what they're doing, but these helicopters are tasked with important geological work! Looking Down From Above [Figure-4]The SkyTEM survey system is one of the most well known in the AEM space. Credit: Geoscience Australia In the popular imagination, the Earth's magnetic field is useful for finding north with a compass. In day to day life, that barely comes up, and we don't give the magnetic field much thought beyond that. However, the reality of Earth's magnetic field is that it is variable all over the surface of our planet. By measuring it, we can gain great insight into what lies beneath our feet. Magnetic surveys are an important tool in geology and archaeology. In the latter regard, they were perhaps best popularized by the TV show Time Team. The series would often employ geomagnetic surveys to discover artifacts or structures beneath the ground. The typical technique used on the show involved someone walking around a site with a magnetometer while logging the magnetic field strength as they went. By running the magnetometer in a grid pattern across a site, it was possible to build up a local map of the magnetic field, which could reveal anomalies lurking underground. That's all well and good if you wish to survey a small garden or perhaps a single field. If you want to survey a larger area, though, doing a survey on foot isn't really practical. But you can apply the same techniques in the air at speed, and you can even extend them further, too! You can do magnetic surveys much faster using a helicopter instead. The basic theory is the same, carrying a magnetic sensor over terrain allows the measurement of the local magnetic field. The difference is that a helicopter can move much faster and thus cover a greater area more quickly, albeit at somewhat reduced resolution. Magnetic field data is great, but there's so much more that can be gained by exploring the electromagnetic spectrum, too. [Screenshot-2024-05-16-192448]A typical setup for helicopter-based geomagnetic surveys. To work at low frequencies, large antennas are needed. This rig transmits at a base frequency of just 25 Hz. Credit: Geoscience Australia Operations & Processing report By transmitting radio waves from a giant antenna, it's possible to excite eddy currents in the ground itself which can then be picked up by a sensitive receiver similarly dangling from the aircraft. A single aerial survey aircraft can carry both magnetic sensors and EM equipment on the same mission to gather both kinds of data at once. Aerial electromagnetic surveys (AEM), as they are known, aren't so much used for finding Roman coins or small structures under the ground. Instead, they're used to better understand the makeup of the ground itself. An aerial survey can reveal electrically conductive materials in the ground, of which there are many. Graphite, clays, sulfides, or salty groundwater all show up differently on an electromagnetic survey compared to non-conductive minerals or fresh water. These elements can be revealed by an antenna dangling from a helicopter, in combination with other geological data and careful analysis. [41467_2019_13985_Fig1_HTML]The Yarrabubba impact structure is the oldest known planetary impact structure on Earth. While much of the original crater has been eroded, the impact has left an anomaly that is readily visible on aeromagnetic surveys to this day. Credit: Erickson, Kirkland, Timms, Cavosie & Davison, CC-BY 4.0 Typical AEM missions involve flying at moderate speeds of 70 to 120 km/h along the ground, generally on a path of parallel lines to cover a given area. Altitudes are low, on the order of 100 meters or even less, to keep the antennas close to the ground. Excitation and receiver antennas usually measure tens of meters in diameter. AEM surveys can be remarkably sensitive. It's possible to pick up variations in the conductivity of the soil up to several hundred meters deep with the right equipment. As you might expect, the local ground composition plays a role in what's possible, too. Often, an aerial study is designed to zero in on a particular geological feature or material of interest. Then, the survey area and equipment can be tuned to ideally reveal the expected contrast in conductivity or magnetic field. Governments and private enterprises using the technique more commonly than you might think. For example, the California Department of Water Resources uses AEM surveys to hunt for underground aquifers. The US Geological Survey uses the technique for all kinds of purposes, and has been doing so since the 1970s. It has looked for subsurface water and underground minerals, amongst other things. There's an interactive tool for finding survey data, much of which is available to the public. There is a great deal of mistrust in the wider public these days, with conspiracies around chemtrails, 5G cellular networks, and so many other similar topics. It won't shock you to know that there are people that freak out when they see a helicopter hauling a gigantic antenna array at low altitude. [Screenshot-2024-05-16-200931]A conductivity survey reveals groundwater beneath the surface at Mt Saint Helens. Credit: USGS For this reason, many government agencies specifically release documents to explain the purpose of AEM surveys, and to highlight that they pose no risk to the public, wildlife, or the natural environment itself. It may seem silly, but AEM survey craft do look a fair bit more sci-fi than most other flying vehicles, so the cautious approach is understandable. You probably won't spot an AEM survey craft in the suburbs, but if you're out in some wide open natural area, you just might. If you're really keen on seeing one in the flesh, though, you're best advised to get yourself a geology degree and a job in the field. Then, you might even pick up the skills necessary to specify, execute, and interpret the results of an electromagnetic aerial survey. When you do, be sure to let the world know what you found out! * [share_face] * [share_twit] * [share_in] * [share_mail] Posted in Science, SliderTagged aerial, electromagnetic survey, geology, geomagnetic, geomagnetic survey, helicopter, usgs Post navigation - Static Recompilation Brings New Life To N64 Games This MIDI BoomBox Takes Floppies - 17 thoughts on "Peeking Underground With Giant Flying Antennas" 1. Ostracus says: May 21, 2024 at 7:36 am "If you want to survey a larger area, though, doing a survey on foot isn't really practical. " Makes the surveying of America all the more amazing. " It won't shock you to know that there are people that freak out when they see a helicopter hauling a gigantic antenna array at low altitude." Wonder if that's where UFO sightings come from? Also how about underwater surveys? Report comment Reply 1. Oppy says: May 21, 2024 at 8:20 am A proton precession magentometer is often towed behind a ship conducting a marine geophysical survey. This magnetometer works in a different manner than the aerial system detailed in this article. The proton precession magentometer measures the magentic field only, it does not create radio waves. The magentic data gives coarse scale information about geology. Finer scale imaging can be done using e.g. seismic methods. Report comment Reply 2. Jelle says: May 21, 2024 at 8:19 am I wonder how good this would lead itself to be don with a specialized drone. Relatively simple to loft and stabilize with of the shelf hardware, but would the motors of the drone interfere with measurements? Report comment Reply 1. ftg says: May 21, 2024 at 11:37 pm Well enough that there is at least one company doing it. https://radai.fi/ Report comment Reply 2. says: May 23, 2024 at 3:42 pm The core problem seems to be the size of the antenna loop which is dictated by the frequencies used which is a requirement of the depth they wish to be able to penetrate into the surface. You could make a giant hydrogen filled doughnut and run some model airplane combustion engines off hydrogen to reduce the amount of electrical noise. In that configuration you only need the motors for directional control and not for lift so it may also have far better endurance. Report comment Reply 3. EM engineer says: May 21, 2024 at 8:53 am My company does EM surveys using large ground arrays of receivers. Our primary use was for tracking fluid movements underground during oil and gas completion operations and creating "movies" showing if the fluids were going where the operators intended. We've also done operations in Egypt near antiquities mapping unexcavated areas showing where ancient structures are located and mapping of underground tunnels for agencies concerned about illegal movements. Lately, we've been able to show CO2 flow from underground capture sites to verify capture and storage effectiveness. I think EM is an area that's just now being utilized. Report comment Reply 1. aaronfish says: May 21, 2024 at 11:04 am I wanna say I freaking love hack-a-day for exactly this sort of comment: someone in the field being discussed (or just adjacent to it) seeing the article and chiming in some personal experience. Report comment Reply 2. Rog77 says: May 21, 2024 at 11:33 am "underground tunnels for agencies concerned about illegal movements." I can imagine that's quite in demand right now over there, might I ask how successful searches are, or what are the lower limits of tunnel cross-section are, when enough effort is applied? Thanks! Report comment Reply 4. Votuq says: May 21, 2024 at 9:16 am This reminds me of this story: https://en.wikipedia.org/wiki/Great_Oil_Sniffer_Hoax Report comment Reply 1. TG says: May 21, 2024 at 10:49 am Ha! That's pretty interesting Report comment Reply 2. Eric says: May 21, 2024 at 3:17 pm Great, another Wiki rabbit hole. If I am not back in 24 hours, send rescue party with pizza. Report comment Reply 1. Dave says: May 21, 2024 at 5:02 pm I had to start a spreadsheet to list all the articles I want to read... the app is capped at 99 open tabs Report comment Reply 2. CJay says: May 24, 2024 at 6:25 am Meh, just send pizza, don't need rescuing. Report comment Reply 5. JNA says: May 21, 2024 at 9:59 am I really expected to hear this was being used in Israel/Palestine to try and locate all the underground tunnels. Report comment Reply 6. Mystick says: May 21, 2024 at 12:27 pm Technically not an "antenna" but rather a large inductor... Report comment Reply 1. jenningsthecat says: May 22, 2024 at 12:15 pm At lower frequencies, using an inductor as an antenna is not uncommon. One example is the ferrite bar type of antenna used in AM radio receivers. FWIW, such antennae are sometimes used on transmitters as well. Report comment Reply 7. Nathan Steinke says: May 21, 2024 at 11:03 pm Perhaps to get finer images of the Yellowstone Supervolcano magma chamber... (Or only any anomalies at shallow sub-surface areas) Report comment Reply Leave a ReplyCancel reply Please be kind and respectful to help make the comments section excellent. (Comment Policy) This site uses Akismet to reduce spam. Learn how your comment data is processed. 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